“MÉTODOS E COMPOSIÇÕES PARA TRATAR HIPEROXALÚRIA”
REFERÊNCIA CRUZADA AOS PEDIDOS RELACIONADOS
[001] Este pedido reivindica o benefício e prioridade do pedido de patente provisória U.S. número de série 62/777.322, depositado em 10 de dezembro de 2018, que é aqui incorporado por referência em sua totalidade.
FUNDAMENTOS
[002] O ácido oxálico, o menor ácido dicarboxílico, frequentemente aparece na natureza como um metabólito secundário útil e também um subproduto de processos catabólicos. As plantas produzem e acumulam grandes quantidades de oxalato como uma forma de envenenar os herbívoros e evitar a predação. Vários processos metabólicos também geram oxalato dentro dos corpos de mamíferos. O oxalato tóxico deve ser eliminado e, em mamíferos, isso é feito pelo transporte de oxalato na urina e fezes. Entretanto, se muito oxalato for eliminado na urina, pode ocorrer hiperoxalúria.
[003] A hiperoxalúria é a condição de excretar o excesso de oxalato na urina. O oxalato urinário elevado tem sido associado a cálculos renais de oxalato de cálcio recorrentes, danos renais e, eventualmente, doença renal em estágio terminal. A hiperoxalúria é categorizada em quatro classes pela principal fonte do excesso oxalato: hiperoxalúria primária, entérica, dietética e idiopática. A hiperoxalúria primária diz respeito à hiperoxalúria onde as causas são genéticas; suas três formas, I, II e III, são causadas por mutações nos genes humanos AGXT, GRHPR e HOGA1, respectivamente. As mutações em qualquer um desses genes resulta em níveis aumentados de oxalato gerados por processos endógenos no fígado. As formas de hiperoxalúria onde uma causa genética não pode ser estabelecida - hiperoxalúria entérica, dietética e idiopática - são denominadas hiperoxalúrias secundarias. Embora algum nível basal de absorção de oxalato da dieta seja normal, em pacientes com hiperoxalúria entérica a permeabilidade do intestino para o oxalato foi aumentada,
causando maior absorção de oxalato da dieta. Isso pode ser causado por distúrbios da fisiologia do intestino a partir de condições incluindo doença inflamatória intestinal e bypass gástrico. A hiperoxalúria dietética decorre de um consumo excessivo de oxalato ou precursores de oxalato na dieta. Finalmente, para pacientes com hiperoxalúria idiopática uma causa aguda de sua hiperoxalúria não foi identificada.
[004] Existem poucos tratamentos para hiperoxalúria. Para os pacientes com hiperoxalúria primária com uma mutação em AXGT, a piridoxina pode ser prescrita para salvar alguma atividade da enzima mutada. Alternativamente, os pacientes com hiperoxalúria primária podem receber um transplante de fígado para repor as enzimas hepáticas ausentes. Para o restante de pacientes com hiperoxalúria, uma dieta com alto teor de cálcio e baixo teor de oxalato é a intervenção primária, junto com outros tratamentos destinados a corrigir complicações - cálculos renais e insuficiência renal. Entretanto, o oxalato é difícil de evitar, mesmo com dieta cuidadosa, e instruir os pacientes a evitar o oxalato costuma ser insuficiente. Com esses tratamentos limitados disponíveis para mitigar a hiperoxalúria, os pacientes precisam de um tratamento poderoso e estável para remover o oxalato de seus corpos.
[005] Consequentemente, existe uma necessidade contínua por terapias novas e eficazes para tratar e controlar doenças ou transtornos associados com uma quantidade elevada de oxalato, tais como hiperoxalúria.
BREVE SUMÁRIO
[006] A divulgação se refere geralmente a uma bactéria que foi modificada para ter atividade degradante de oxalato aumentada. As bactérias divulgadas são úteis para tratar transtornos associados com uma quantidade elevada de oxalato em um sujeito, e.g., hiperoxalúria.
[007] Por exemplo, em um aspecto, é aqui fornecida uma bactéria comensal que foi modificada para ter atividade degradante de oxalato aumentada em relação a uma bactéria similar ou de outro modo idêntica que não foi modificada. Em certas modalidades, uma bactéria similar ou de outro modo idêntica que não foi modificada não tem atividade degradante de oxalato detectável e/ou não tem genes conhecidos por estarem envolvidos, e.g., diretamente envolvidos no catabolismo de oxalato. Em certas modalidades, nenhum membro que ocorre naturalmente do mesmo gênero que a bactéria tem atividade degradante de oxalato detectável.
[008] Em certas modalidades, uma bactéria considerada é de um gênero selecionado do grupo que consiste em Bacteroides, Alistipes, Faecalibacterium, ParaBacteroides, Prevotella, Roseburia, Ruminococcus, Clostridium, Oscillibacter, Gemmiger, Barnesiella, Dialister, Parasutterella, Phascolarctobacterium, Propionibacterium, Sutterella, Blautia, Paraprevotella, Coprococcus, Odoribacter, Spiroplasma, Anaerostipes e Akkermansia. Por exemplo, uma bactéria considerada pode ser do gênero Bacteroides, i.e., pode ser uma bactéria da espécie Bacteroides.
[009] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma proteína, ou um fragmento funcional ou variante da mesma, selecionada do grupo que consiste em: uma oxalato:formiato antiportadora (OxlT); uma oxalato descarboxilase (OXDC)- EC 4.1.1.2; uma oxalato oxidase (OXO)- EC 1.2.3.4; uma oxalato óxido-redutase (OOR)- EC 1.2.7.10; uma oxalato-CoA ligase/Oxalil-CoA sintetase (OXS)- EC 6.2.1.8; uma formil-CoA:oxalato CoA- transferase (FCOCT)- EC 2.8.3.16; uma acetil-CoA:oxalato CoA-transferase (ACOCT)- EC 2.8.3.19; uma succinil-CoA:oxalato CoA-transferase (SCOCT)- EC
2.8.3.2; uma oxalil-CoA descarboxilase (OXC)- EC 4.1.1.8; uma oxalil-CoA redutase/glioxilato:NADP+ óxido-redutase (OXR)- EC 1.2.1.17; e uma combinação de qualquer uma das proteínas anteriores. É considerado que o um ou mais transgenes podem, e.g., estar em um plasmídeo, cromossomo bacteriano artificial ou serem genomicamente integrados. Quando uma bactéria compreende um ou mais transgenes que codificam múltiplas proteínas, é considerado que os quadros de leitura abertos que codificam duas ou mais das proteínas podem, e.g., estar presentes em um único operon.
[010] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma OXS ou um fragmento funcional ou variante da mesma e uma OXC ou um fragmento funcional ou variante da mesma. Em certas modalidades, uma bactéria compreende ainda um ou mais transgenes que codificam uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma.
[011] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma OXS ou um fragmento funcional ou variante da mesma, uma primeira OXC ou um fragmento funcional ou variante da mesma, uma segunda OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma. Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma primeira OXS ou um fragmento funcional ou variante da mesma, uma segunda OXS ou um fragmento funcional ou variante da mesma, uma OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma. Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma primeira OXS ou um fragmento funcional ou variante da mesma, uma segunda OXS ou um fragmento funcional ou variante da mesma, uma primeira OXC ou um fragmento funcional ou variante da mesma, uma segunda OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma.
[012] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT de O. formigenes; um S. cerevisiae ou uma OXS de A. thaliana; um S. cerevisiae ou uma OXC de O. formigenes; uma FCOCT de E. coli; e/ou uma ACOCT de E. coli. Por exemplo, é considerado que uma bactéria pode compreender: (i) um ou mais transgenes que codificam uma OXS de S. cerevisiae, uma OXC de S. cerevisiae e uma OxIT de O. formigenes; (ii) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae e uma OxIT de O. formigenes; (iii) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OxIT de O. formigenes; (iv) ou um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma OXS de A. thaliana, uma ACOCT de E. coli e uma OxIT de O. formigenes; (v) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OxIT de O. formigenes, uma ACOCT de E. coli e uma OXS de S. cerevisiae; (vi) um ou mais transgenes que codificam uma OxIT de O. formigenes, uma FCOCT de E. coli, uma OXC de S. cerevisiae, uma ACOCT de E. coli, uma OXS de S. cerevisiae e uma OXS de A. thaliana; ou (vii) um ou mais transgenes que codificam uma OxIT de O. formigenes, uma FCOCT de E. coli, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OXS de S. cerevisiae.
[013] Em certas modalidades, uma bactéria considerada compreende um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com qualquer uma das SEQ ID NOs: 1 a 31, ou compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 1 a
31.
[014] Por exemplo, uma bactéria considerada pode compreender: (i) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (ii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (iii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (iv) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 14, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (v) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16; (vi) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 14; ou (vii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO:
16.
[015] Por exemplo, uma bactéria considerada pode compreender: (i) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163 e SEQ ID NO: 21; (ii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16 e SEQ ID NO: 21; (iii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 21;
(iv) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 14, SEQ ID NO: 2 e SEQ ID NO: 21; (v) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 21, SEQ ID NO: 2 e SEQ ID NO: 16; (vi) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2, SEQ ID NO: 16 e SEQ ID NO: 14; ou (vii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 16.
[016] Em certas modalidades, um transgene ou ácido nucleico está operacionalmente ligado a um sítio de ligação ao ribossomo (RBS). RBSs exemplificativos incluem aqueles compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 164 a 230. Por exemplo, uma bactéria considerada pode compreender: (i) um transgene que codifica uma OxIT de O. formigenes operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 212 a 219; (ii) um transgene que codifica uma OXS de S. cerevisiae operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 172 a 179; (iii) um transgene que codifica uma OXS de A. thaliana operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 164 a 171; (iv) um transgene que codifica uma OXC de S. cerevisiae operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 188 a 195 ou 220 a 230; (v) um transgene que codifica uma OXC de O. formigenes operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 180 a 187; (vi) um transgene que codifica uma FCOCT de E. coli operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 204 a 211; e/ou (vii) transgene que codifica uma ACOCT de E. coli operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 196 a 203.
[017] Em certas modalidades, uma bactéria considerada compreende um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com qualquer uma das SEQ ID NOs: 96 a 162, ou compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 96 a 162.
[018] Por exemplo, uma bactéria considerada pode compreender: (i) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 104; (ii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 148, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (iii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 144, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (iv) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 147, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 104, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 97, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 131, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 136 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113; (v) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; (vi) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; (vii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 139, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 112, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 99, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 106 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145; (viii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 139, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 154, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 131, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 106 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 149; (ix) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 148, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO:
129 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (x) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (xi) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 144, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (xii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; (xiii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; ou (xiv) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 139, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 112, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 99, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 106 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145.
[019] Por exemplo, uma bactéria considerada pode compreender: (i) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 145, SEQ ID NO: 128 e SEQ ID NO: 104; (ii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 148, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105; (iii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105; (iv) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 147, SEQ ID NO: 104, SEQ ID NO: 153, SEQ ID NO: 97, SEQ ID NO: 131, SEQ ID NO: 136 e SEQ ID NO: 113; (v) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153,
SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96; (vi) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96; (vii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145; (viii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 154, SEQ ID NO: 131, SEQ ID NO: 98, SEQ ID NO: 115, SEQ ID NO: 106 e SEQ ID NO: 149; (ix) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 148, SEQ ID NO: 129 e SEQ ID NO: 105; (x) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129 e SEQ ID NO: 105; (xi) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105; (xii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96; (xiii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96; ou (xiv) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145.
[020] Em certas modalidades, uma bactéria considerada compreende um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com qualquer uma das SEQ ID NOs: 82 a 95, ou compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 82 a 95.
[021] Em certas modalidades, um transgene ou ácido nucleico está operacionalmente ligado a pelo menos um promotor constitutivo, e.g., um promotor derivado de fago. Promotores exemplificativos incluem aqueles compreendendo a sequência consenso GTTAA(n)4-7GTTAA(n)34-38TA(n)2TTTG (SEQ ID: 70) ou compreendendo a SEQ ID NO: 68, SEQ ID NO: 69 ou SEQ ID NO: 71.
[022] Em certas modalidades, uma bactéria considerada foi modificada para colonizar o intestino humano com maior abundância, estabilidade, previsibilidade ou facilidade de colonização inicial em relação a uma bactéria similar ou de outro modo idêntica que não foi modificada. Por exemplo, uma bactéria considerada pode ser modificada para aumentar sua capacidade de utilizar um nutriente privilegiado como fonte de carbono. Por exemplo, uma bactéria considerada pode compreender um ou mais transgenes que aumentam sua capacidade de utilizar um nutriente privilegiado como fonte de carbono. Nutrientes privilegiados exemplificativos incluem, e.g., um polissacarídeo marinho, e.g., um porfirano. Uma bactéria divulgada pode, e.g., após a administração a um sujeito humano, resultar em uma abundância maior que 1012, 1011, 1010, 109, 108 ou 107 cfu por grama de conteúdo fecal.
[023] Em outro aspecto, é aqui fornecida uma composição farmacêutica compreendendo uma bactéria divulgada e um excipiente farmaceuticamente aceitável. Em certas modalidades, uma composição farmacêutica considerada é formulada como uma cápsula ou comprimido, e.g., uma cápsula revestida entérica. Em certas modalidades, uma composição farmacêutica considerada compreende ainda um nutriente privilegiado, e.g., um polissacarídeo marinho, e.g., um porfirano.
[024] Em outro aspecto, é aqui fornecido um método de reduzir oxalato em um sujeito em necessidade do mesmo. Um método considerado compreende administrar ao sujeito uma quantidade eficaz de uma bactéria ou composição farmacêutica divulgada. Em certas modalidades, um sujeito tem um transtorno associado com uma quantidade elevada de oxalato, e.g., hiperoxalúria. Em outro aspecto, é aqui fornecido um método de tratar um transtorno associado com uma quantidade elevada de oxalato em um sujeito, e.g., hiperoxalúria. Um método considerado compreende administrar ao sujeito uma quantidade eficaz de uma bactéria ou composição farmacêutica divulgada.
[025] Métodos considerados podem compreender a administração de uma bactéria ou composição farmacêutica divulgada a um sujeito a cada 12 horas, 24 horas, dia, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias, 7 dias, semana, 2 semanas, 3 semanas, 4 semanas, mês, 2 meses, 3 meses, 4 meses, 5 meses ou 6 meses. Em certas modalidades, o tempo entre as administrações consecutivas de uma bactéria ou composição farmacêutica divulgada a um sujeito é maior do que 48 horas.
[026] Métodos considerados podem compreender ainda administrar um nutriente privilegiado ao sujeito, e.g., um polissacarídeo marinho, e.g., um porfirano. Por exemplo, um nutriente privilegiado divulgado pode ser administrado ao sujeito antes de, ao mesmo tempo que ou depois de uma bactéria divulgada.
[027] Em outro aspecto, a invenção fornece um vetor de expressão que codifica uma proteína, ou um fragmento funcional ou variante da mesma, selecionado do grupo que consiste em: uma oxalato:formiato antiportadora (OxlT); uma oxalato descarboxilase (OXDC)- EC 4.1.1.2; uma oxalato oxidase (OXO)- EC 1.2.3.4; uma oxalato óxido-redutase (OOR)- EC 1.2.7.10; uma oxalato-CoA ligase/Oxalil-CoA sintetase (OXS)- EC 6.2.1.8; uma formil-CoA:oxalato CoA-transferase (FCOCT)- EC
2.8.3.16; uma acetil-CoA:oxalato CoA-transferase (ACOCT)- EC 2.8.3.19; uma succinil-CoA:oxalato CoA-transferase (SCOCT)- EC 2.8.3.2; uma oxalil-CoA descarboxilase (OXC)- EC 4.1.1.8; uma oxalil-CoA redutase/glioxilato:NADP+ óxido- redutase (OXR)- EC 1.2.1.17; e uma combinação de qualquer uma das proteínas anteriores. Vetores de expressão exemplificativos incluem, e.g., um plasmídeo e um cromossomo bacteriano artificial. Quando um vetor de expressão compreende um ou mais transgenes que codificam múltiplas proteínas, é considerado que os quadros de leitura abertos que codificam duas ou mais das proteínas podem, e.g., estar presentes em um único operon.
[028] Em certas modalidades, um vetor de expressão considerado compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma OXS ou um fragmento funcional ou variante da mesma e uma OXC ou um fragmento funcional ou variante da mesma. Em certas modalidades, um vetor de expressão compreende ainda um ou mais transgenes que codificam uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma.
[029] Em certas modalidades, um vetor de expressão considerado compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma OXS ou um fragmento funcional ou variante da mesma, uma primeira OXC ou um fragmento funcional ou variante da mesma, uma segunda OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma. Em certas modalidades, um vetor de expressão considerado compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma primeira OXS ou um fragmento funcional ou variante da mesma, uma segunda OXS ou um fragmento funcional ou variante da mesma, uma OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma. Em certas modalidades, um vetor de expressão considerado compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma primeira OXS ou um fragmento funcional ou variante da mesma, uma segunda OXS ou um fragmento funcional ou variante da mesma, uma primeira OXC ou um fragmento funcional ou variante da mesma, uma segunda OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma.
[030] Em certas modalidades, um vetor de expressão considerado compreende um ou mais transgenes que codificam uma OxIT de O. formigenes; um S. cerevisiae ou uma OXS de A. thaliana; um S. cerevisiae ou uma OXC de O. formigenes; uma FCOCT de E. coli; e/ou uma ACOCT de E. coli. Por exemplo, é considerado que um vetor de expressão pode compreender: (i) um ou mais transgenes que codificam uma OXS de S. cerevisiae, uma OXC de S. cerevisiae e uma OxIT de O. formigenes; (ii) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae e uma OxIT de O. formigenes; (iii) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OxIT de O. formigenes; (iv) ou um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma OXS de A. thaliana, uma ACOCT de E. coli e uma OxIT de O. formigenes; (v) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OxIT de O. formigenes, uma ACOCT de E. coli e uma OXS de S. cerevisiae; (vi) um ou mais transgenes que codificam uma OxIT de O. formigenes, uma FCOCT de E. coli, uma OXC de S. cerevisiae, uma ACOCT de E. coli, uma OXS de S. cerevisiae e uma OXS de A. thaliana; ou (vii) um ou mais transgenes que codificam uma OxIT de O. formigenes, uma FCOCT de E. coli, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OXS de S. cerevisiae.
[031] Em certas modalidades, um vetor de expressão considerado compreende um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com qualquer uma das SEQ ID
NOs: 1 a 31, ou compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 1 a 31.
[032] Por exemplo, um vetor de expressão considerado pode compreender: (i) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (ii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (iii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (iv) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 14, uma sequência de nucleotídeos tendo pelo menos
80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21; (v) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 25, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16; (vi) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 16 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 14; ou (vii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 21, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 7, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 26 ou SEQ ID NO: 163, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 2 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO:
16.
[033] Por exemplo, um vetor de expressão considerado pode compreender: (i) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163 e SEQ ID NO: 21; (ii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7,
SEQ ID NO: 25, SEQ ID NO: 16 e SEQ ID NO: 21; (iii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 21; (iv) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 14, SEQ ID NO: 2 e SEQ ID NO: 21; (v) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 21, SEQ ID NO: 2 e SEQ ID NO: 16; (vi) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2, SEQ ID NO: 16 e SEQ ID NO: 14; ou (vii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 16.
[034] Em certas modalidades, um transgene ou ácido nucleico está operacionalmente ligado a um sítio de ligação ao ribossomo (RBS). RBSs exemplificativos incluem aqueles compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 164 a 230. Por exemplo, um vetor de expressão considerado pode compreender: (i) um transgene que codifica uma OxIT de O. formigenes operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 212 a 219; (ii) um transgene que codifica uma OXS de S. cerevisiae operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 172 a 179; (iii) um transgene que codifica uma OXS de A. thaliana operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 164 a 171; (iv) um transgene que codifica uma OXC de S. cerevisiae operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 188 a 195 ou 220 a 230; (v) um transgene que codifica uma OXC de O. formigenes operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 180 a 187; (vi) um transgene que codifica uma FCOCT de E. coli operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 204 a 211; e/ou (vii) transgene que codifica uma ACOCT de E. coli operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 196 a 203.
[035] Em certas modalidades, um vetor de expressão considerado compreende um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com qualquer uma das SEQ ID NOs: 96 a 162, ou compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 96 a 162.
[036] Por exemplo, um vetor de expressão considerado pode compreender: (i) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 104; (ii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 148, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (iii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 144, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (iv) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 147, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 104, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 97, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 131, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 136 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113; (v) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO:
96; (vi) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; (vii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 139, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 112, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 99, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 106 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145; (viii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 139, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 154, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 131, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 106 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 149; (ix) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 148, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (x) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (xi) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 128, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 144, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 115, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 98 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105; (xii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 113 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; (xiii) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 137, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 153, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 105 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 96; ou (xiv) um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 139, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 129, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 155, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 112, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 99, uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 106 e uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com a SEQ ID NO: 145.
[037] Por exemplo, um vetor de expressão considerado pode compreender: (i) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 145, SEQ ID NO: 128 e SEQ ID NO: 104; (ii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 148, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105; (iii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105; (iv) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 147, SEQ ID NO: 104, SEQ ID NO: 153, SEQ ID NO: 97, SEQ ID NO: 131, SEQ ID NO: 136 e SEQ ID NO: 113; (v) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96; (vi) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96; (vii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145; (viii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 154, SEQ ID NO: 131, SEQ ID NO: 98, SEQ ID NO: 115, SEQ ID NO: 106 e SEQ ID NO: 149; (ix) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 148, SEQ ID NO: 129 e SEQ ID NO: 105; (x) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129 e SEQ ID NO: 105; (xi) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105; (xii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96; (xiii) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96; ou (xiv) um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145.
[038] Em certas modalidades, um vetor de expressão considerado compreende um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 % de identidade com qualquer uma das SEQ ID NOs: 82 a 95, ou compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 82 a 95.
[039] Em certas modalidades, um transgene ou ácido nucleico está operacionalmente ligado a pelo menos um promotor constitutivo, e.g., um promotor derivado de fago. Promotores exemplificativos incluem aqueles compreendendo a sequência consenso GTTAA(n)4-7GTTAA(n)34-38TA(n)2TTTG (SEQ ID: 70), ou compreendendo a SEQ ID NO: 68, SEQ ID NO: 69 ou SEQ ID NO: 71.
[040] Esses e outros aspectos e características da divulgação são descritos na seguinte descrição detalhada e reivindicações.
DESCRIÇÃO DOS DESENHOS
[041] A divulgação pode ser mais completamente entendida com referência aos seguintes desenhos.
[042] A FIGURA 1 é uma representação esquemática das vias para degradação de oxalato. O oxalato é importado em células bacterianas usando a oxalato:formiato antiportadora OxIT e então convertido em formiato, glioxilato ou CO2 por meio de uma variedade de vias diferentes. A via mais produtiva usa OXS, FCOCT, ACOCT ou SCOCT para conjugar oxalato com CoA para criar oxalil-CoA, e então OXC para decarboxilar oxalil-CoA em formil-CoA. FCOCT é então usada para liberar formiato e reiniciar o ciclo.
[043] A FIGURA 2 é um gráfico de setores que mostra a abundância bacteriana no intestino humano médio com base em sequenciamento de DNA ribossômico 16S. Bacteroides é o gênero mais abundante com 46 %.
[044] A FIGURA 3 descreve uma representação esquemática de cinco plasmídeos diferentes (SEQ ID NOs: 63 a 67) que podem ser conjugados em Bacteroides para produzir cepas de Bacteroides degradantes de oxalato.
[045] A FIGURA 4 é um gráfico de barras que representa a quantidade de oxalato consumido por Bacteroides vulgatus ATCC 8482 sem transgenes (tipo selvagem) ou com integração genômica dos seguintes plasmídeos: pZR748 (SEQ ID NO: 63), pZR753 (SEQ ID NO: 64), pZR753 + pZR761 (SEQ ID NOs: 64, 65) ou pZR856 + pZR878 (SEQ ID NOs: 66, 67). Culturas durante a noite de cada cepa de Bacteroides foram diluídas 1:10 em meios líquidos BHIS frescos suplementados com 10 ou 30 mM de oxalato e as taxas de consumo de oxalato foram monitoradas durante 48 horas.
[046] A FIGURA 5 descreve uma representação esquemática de plasmídeo pWD035 (SEQ ID NO: 73), um cromossomo bacteriano artificial com uma origem de transferência conjugativa e um loco de utilização de polissacarídeo porfirano (PUL).
[047] A FIGURA 6 descreve um ensaio de crescimento in vitro de células de Bacteroides vulgatus que receberam um PUL porfirano funcional (pWD035, SEQ ID NO: 73) em comparação com células de B. vulgatus tipo selvagem. Culturas saturadas foram diluídas 50X em meios mínimos suplementados com 0,2 % de porfirano e cultivadas anaerobicamente por 14 horas a 37 °C. A densidade óptica das culturas foi monitorada do começo ao fim. Apenas as células que continham o PUL porfirano foram capazes de crescer em porfirano.
[048] A FIGURA 7 descreve três plasmídeos diferentes (SEQ ID NOs: 75 a 77) que abrigam genes de consumo de oxalato. Cada plasmídeo foi conjugado na cepa NB075 utilizando porfirano para produzir cepas que podem consumir um nutriente privilegiado, porfirano e uma toxina derivada do intestino, oxalato.
[049] A FIGURA 8 é um gráfico de linha que representa a taxa de consumo de oxalato para as cepas projetadas indicadas de Bacteroides após a adição das cepas a 1010 cfu/ml aos meios BHIS frescos contendo 4mM de oxalato.
[050] A FIGURA 9 é um gráfico de linha que representa a taxa de consumo de oxalato para as cepas projetadas indicadas de Bacteroides após a adição das cepas a 1010 cfu/ml aos conteúdos cecais de ratos Sprague-Dawley contendo 4mM de oxalato.
[051] A FIGURA 10 é um gráfico de barras que representa os níveis de oxalato na urina em um modelo de rato de hiperoxalúria secundária após o tratamento com a cepa indicada. Em relação a uma cepa controle que não consome oxalato (NB075), a cepa que consome oxalato sWW152 produz uma redução de 32 % no oxalato na urina 4 a 6 dias após a administração da cepa (p=0,005). As barras de erro representam intervalos de confiança de 95 %.
[052] A FIGURA 11 é um gráfico de linha que representa os níveis de oxalato na urina em um modelo de rato de hiperoxalúria secundária após o tratamento com a cepa indicada. Em relação a uma cepa controle que não consome oxalato (NB124), a cepa que consome oxalato sWW554 produz uma redução de 46 % no oxalato na urina 4 a 6 dias após a administração da cepa (p=0,0003). As regiões sombreadas representam intervalos de confiança de 95 %.
[053] A FIGURA 12 é um gráfico de barras que representa a abundância fecal de cada cepa do dia 12 do experimento resumido na FIGURA 11.
[054] A FIGURA 13A é um gráfico de barras que representa a abundância de cepa (medida por unidades formadoras de colônia (CFU) por grama de fezes) em um modelo de rato de hiperoxalúria secundária após o tratamento com a cepa indicada e a quantidade indicada (% em peso) de porfirano administrado na água potável. A FIGURA 13B é um gráfico de barras que representa os níveis de oxalato na urina em um modelo de rato de hiperoxalúria secundária após o tratamento com a cepa indicada e a quantidade indicada (% em peso) de porfirano administrado na água potável. As barras representam a média, os pontos representam animais individuais e as barras de erro representam intervalos de confiança de 95 %.
[055] A FIGURA 14 é um gráfico de barras que representa os níveis de oxalato na urina em ratos com hiperoxalúria induzida através de cirurgia de Bypass gástrico em Y-de-Roux (RYGB) após o tratamento com a cepa indicada. As barras representam a média final de cinco dias consecutivos de oxalato diário total na urina dos ratos em cada grupo. As barras de erro representam os intervalos de confiança de 95 % (n = 5 ratos sham, n = 8 para todos os outros grupos).
[056] A FIGURA 15A descreve os resultados da triagem de sítios de ligação ao ribossomo (RBSs). Cada ponto representa a expressão (conforme medida por valores de luminescência log10) para cada gene indicado com um diferente RBS projetado, como descrito no Exemplo 8. A FIGURA 15B descreve a expressão (conforme medida por luminescência) do gene indicado com o RBS indicado. As barras de erro representam os intervalos de confiança de 95 %.
[057] A FIGURA 16 é um gráfico de barras que representa a degradação de oxalato in vitro pelas cepas indicadas. As barras de erro representam os intervalos de confiança de 95 %.
DESCRIÇÃO DETALHADA
[058] O intestino humano, especificamente o cólon, é conhecido por ser permeável ao oxalato. Ele funciona como o sítio primário de absorção de oxalato dietético e é considerado que a secreção de oxalato para fora da corrente sanguínea e no lúmen intestinal fornece uma via secundária para a eliminação de oxalato do corpo. Assim, o cólon é um local atrativo para um sistema para degradar oxalato, prevenindo a absorção de oxalato dietético e a reabsorção de oxalato endógeno secretado.
[059] A divulgação se refere geralmente a bactérias que foram modificadas para ter atividade degradante de oxalato aumentada. Por exemplo, em um aspecto, é aqui fornecida uma bactéria comensal que foi modificada para ter atividade degradante de oxalato aumentada em relação a uma bactéria similar ou de outro modo idêntica que não foi modificada. É considerado que as bactérias divulgadas podem, após a administração a um sujeito, quebrar o oxalato no sujeito, e.g., no intestino grosso do sujeito e, portanto, serem úteis para tratar um transtorno associado com uma quantidade elevada de oxalato no sujeito, e.g., hiperoxalúria. Consequentemente, a divulgação se refere ainda às composições farmacêuticas ou unidades e métodos de uso das bactérias divulgadas para tratar transtornos associados com uma quantidade elevada de oxalato, e.g., hiperoxalúria.
[060] Uma bactéria modificada considerada pode adicionalmente ter a capacidade de utilizar uma fonte de carbono, tal como o polissacarídeo marinho porfirina, que outras bactérias no intestino de um sujeito a ser tratado são amplamente incapazes de utilizar. Como um resultado, a proliferação, abundância ou estabilidade da bactéria modificada no intestino do sujeito pode ser mantida fornecendo-lhe a fonte de carbono. I. Bactéria Modificada
[061] A divulgação se refere geralmente às bactérias que foram modificadas para ter atividade degradante de oxalato aumentada em relação a uma bactéria similar ou de outro modo idêntica que não foi modificada. Por exemplo, uma bactéria considerada pode ser modificada para expressar um ou mais transgenes que aumentam atividade de degradação de oxalato. O termo “degradação de oxalato” é usado permutavelmente com o termo “consumo de oxalato” aqui. As vias para a degradação de oxalato, incluindo genes relacionados à degradação de oxalato, são representadas na FIGURA 1. É considerado que o um ou mais transgenes podem, e.g., estar em um plasmídeo, cromossomo bacteriano artificial ou serem genomicamente integrados. Quando uma bactéria compreende um ou mais transgenes que codificam múltiplas proteínas, é considerado que os quadros de leitura abertos que codificam duas ou mais das proteínas podem, e.g., estar presentes em um único operon.
[062] Genes exemplificativos relacionados à degradação de oxalato, cuja expressão em uma bactéria pode aumentar a atividade de degradação de oxalato,
incluem aqueles que codificam: uma oxalato:formiato antiportadora (OxlT); uma oxalato descarboxilase (OXDC)- EC 4.1.1.2; uma oxalato oxidase (OXO)- EC 1.2.3.4; uma oxalato óxido-redutase (OOR)- EC 1.2.7.10; uma oxalato-CoA ligase/Oxalil-CoA sintetase (OXS)- EC 6.2.1.8; uma formil-CoA:oxalato CoA-transferase (FCOCT)- EC
2.8.3.16; uma acetil-CoA:oxalato CoA-transferase (ACOCT)- EC 2.8.3.19; uma succinil-CoA:oxalato CoA-transferase (SCOCT)- EC 2.8.3.2; uma oxalil-CoA descarboxilase (OXC)- EC 4.1.1.8; e uma oxalil-CoA redutase/glioxilato:NADP+ óxido- redutase (OXR)- EC 1.2.1.17.
[063] Para que uma bactéria degrade oxalato, a expressão de um transportador de oxalato pode ser necessária, tipicamente uma oxalato:formiato antiportadora. Transportadores de oxalato exemplificativos incluem OxlT de Oxalobacter formigenes ou qualquer um de seus homólogos de outra espécie incluindo Cupriavidus oxalaticus e Bifidobacterium animalis subsp. lactis. Esses antiportadores trazem oxalato na célula bacteriana do ambiente intestinal e, em troca, expelem uma molécula de resíduo de formiato para cada molécula de oxalato introduzida. Uma vez que o oxalato entra na célula, pode ser diretamente degradado usando a oxalato descarboxilase (OXDC) - EC 4.1.1.2, oxalato oxidase (OXO) - EC
1.2.3.4 ou oxalato óxido-redutase (OOR) - EC 1.2.7.10.
[064] Alternativamente, o oxalato pode ser conjugado com coenzima A para criar oxalil-CoA usando oxalato-CoA ligase (OXS) - EC 6.2.1.8, formil-CoA:oxalato CoA-transferase (FCOCT) - EC 2.8.3.16, acetil-CoA:oxalato CoA-transferase (ACOCT) - EC 2.8.3.19 ou succinil-CoA:oxalato CoA-transferase (SCOCT) - EC
2.8.3.2. FCOCT usa formil-CoA como um doador de CoA e, como formil-CoA é gerada como um produto residual durante a degradação de oxalil-CoA, resulta em um ciclo eficiente. Também pode ser necessário iniciar o ciclo usando material de partida mais abundante, tal como ATP, acetil-CoA ou succinil-CoA, usados por OXS, ACOCT e SCOCT respectivamente.
[065] Oxalil-CoA é quebrada por oxalil-CoA descarboxilase (OXC) - EC
4.1.1.8. Essa, por sua vez, gera formil-CoA, que é degradada por FCOCT para liberar formiato. Então, o formiato pode ser degradado pela formiato desidrogenase (FDH) - EC 1.2.1.2 para gerar CO2. Uma opção adicional para o descarte de oxalil-CoA é a redução no glioxilato para a construção de biomassa adicional via oxalil-CoA redutase (OXR)/Glioxilato:NADP+ óxido-redutase - EC 1.2.1.17.
[066] Em certas modalidades de uma bactéria modificada considerada, o oxalato é importado na bactéria usando uma antiportadora OxlT e alimentado em um ciclo contínuo de conversão de oxalato em formiato usando FCOCT e OXC. Outro suporte para este ciclo pode ser fornecido pela expressão aumentada de múltiplas cópias de enzimas OXC. Adicionalmente, o pool de ciclos intermediários, oxalil-CoA e formil-CoA, pode ser criado e sustentado pela expressão de OXS, ACOCT ou SCOCT. Assim, em certas modalidades, uma célula bacteriana considerada tem alta expressão de multicópias de OXC e FCOCT, alta expressão de OXS, ACOCT e/ou SCOCT, e expressão moderada de OxlT. Em certas modalidades, um fragmento N-terminal de uma oxalato:formiato antiportadora foi trocado por um fragmento N-terminal de uma proteína transportadora nativa.
[067] Consequentemente, em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma OXS ou um fragmento funcional ou variante da mesma e uma OXC ou um fragmento funcional ou variante da mesma. Em certas modalidades, uma bactéria compreende ainda um ou mais transgenes que codificam uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma.
[068] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma OXS ou um fragmento funcional ou variante da mesma, uma primeira
OXC ou um fragmento funcional ou variante da mesma, uma segunda OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma. Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma primeira OXS ou um fragmento funcional ou variante da mesma, uma segunda OXS ou um fragmento funcional ou variante da mesma, uma OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma. Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT ou um fragmento funcional ou variante da mesma, uma primeira OXS ou um fragmento funcional ou variante da mesma, uma segunda OXS ou um fragmento funcional ou variante da mesma, uma primeira OXC ou um fragmento funcional ou variante da mesma, uma segunda OXC ou um fragmento funcional ou variante da mesma, uma FCOCT ou um fragmento funcional ou variante da mesma e/ou uma ACOCT ou um fragmento funcional ou variante da mesma.
[069] Como aqui usado, o termo “fragmento funcional” de uma entidade biológica (e.g., um gene, proteína (e.g. ,OxIT, OXS, OXC ou FCOCT), promotor ou sítio de ligação ao ribossomo) se refere a um fragmento da entidade biológica de comprimento completo que mantém, por exemplo, pelo menos 10 %, pelo menos 20 %, pelo menos 30 %, pelo menos 40 %, pelo menos 50 %, pelo menos 60 %, pelo menos 70 %, pelo menos 80 %, pelo menos 90 % ou 100 % da atividade biológica da entidade biológica de ocorrência natural de comprimento completo correspondente.
[070] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT de B. animalis subsp. lactis, e.g., uma OxIT de B. animalis subsp. lactis DSM 10140, uma OxIT de C. oxalaticus, e.g., uma OxIT de C. oxalaticus ATCC 11883, uma OxIT de E. coli, e.g., uma OxIT de E. coli MG1655, uma OxIT de O. formigenes, e.g., uma OxIT de O. formigenes DSM 4420 ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores. Por exemplo, em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OxIT de O. formigenes, e.g., uma OxIT de O. formigenes DSM 4420, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma OxIT de O. formigenes.
[071] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OXS de S. cerevisiae, e.g., uma OXS de S. cerevisiae S288C, uma OXS de M. extorquens, e.g., uma OXS de M. extorquens AM1/DSM 1338, uma OXS de A. thaliana, e.g., uma OXS de A. thaliana col-1, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores. Por exemplo, em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OXS de S. cerevisiae, e.g., uma OXS de S. cerevisiae S288C, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma OXS de S. cerevisiae. Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OXS de A. thaliana, e.g., uma OXS de A. thaliana col-1, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma OXS de A. thaliana.
[072] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OXC de B. animalis subsp. lactis, e.g., uma OXC de B. animalis subsp. lactis DSM 10140, uma OXC de C. oxalaticus, e.g., uma OXC de C. oxalaticus ATCC 11883, uma OXC de E. coli, e.g., uma OXC de E. coli MG1655, uma OXC de S. cerevisiae, e.g., uma OXC de S. cerevisiae S288C, uma OXC de O.
formigenes, e.g., uma OXC de O. formigenes DSM 4420, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores. Por exemplo, em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma OXC de S. cerevisiae, e.g., uma OXC de S. cerevisiae S288C, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma OXC de S. cerevisiae. Em certas modalidades uma bactéria considerada compreende um ou mais transgenes que codificam uma OXC de O. formigenes, e.g., uma OXC de O. formigenes DSM 4420, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma OXC de O. formigenes.
[073] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma FCOCT de B. animalis subsp. lactis, e.g., uma FCOCT de B. animalis subsp. lactis DSM 10140, uma FCOCT de C. oxalaticus, e.g., uma FCOCT de C. oxalaticus ATCC 11883, uma FCOCT de E. coli, e.g., uma FCOCT de E. coli MG1655, uma FCOCT de O. formigenes, e.g., uma FCOCT de O. formigenes DSM 4420, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores. Por exemplo, em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma FCOCT de E. coli, e.g., uma FCOCT de E. coli MG1655, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma FCOCT de E. coli.
[074] Em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma ACOCT de A. aceti, e.g., uma ACOCT de A. aceti cepa 1023, uma ACOCT de E. coli, e.g., uma ACOCT de E. coli MG1655, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores. Por exemplo, em certas modalidades, uma bactéria considerada compreende um ou mais transgenes que codificam uma ACOCT de E. coli, e.g., uma ACOCT de E. coli MG1655, ou uma proteína tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com uma ACOCT de E. coli.
[075] Por exemplo, é considerado que uma bactéria pode compreender: (i) um ou mais transgenes que codificam uma OXS de S. cerevisiae, uma OXC de S. cerevisiae e uma OxIT de O. formigenes, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores; (ii) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae e uma OxIT de O. formigenes, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores; (iii) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OxIT de O. formigenes, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores; (iv) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma OXS de A. thaliana, uma ACOCT de E. coli e uma OxIT de O. formigenes, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores; (v) um ou mais transgenes que codificam uma FCOCT de E. coli, uma OXC de O. formigenes, uma OxIT de O. formigenes, uma ACOCT de E. coli e uma OXS de S. cerevisiae, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores; (vi) um ou mais transgenes que codificam uma OxIT de O. formigenes, uma FCOCT de E. coli, uma OXC de S. cerevisiae, uma ACOCT de E. coli, uma OXS de S. cerevisiae e uma OXS de A. thaliana, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores; ou (vii) um ou mais transgenes que codificam uma OxIT de O. formigenes, uma FCOCT de E. coli, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OXS de S. cerevisiae, ou um fragmento funcional ou variante de qualquer uma das proteínas anteriores.
[076] Sequências de codificação de ACOCT exemplificativas são representadas nas SEQ ID NOs: 1 a 2, sequências de codificação de FDH exemplificativas são representadas nas SEQ ID NOs: 3 a 4, sequências de codificação de FCOCT exemplificativas são representadas nas SEQ ID NOs: 4 a 8, uma sequência de codificação de OXDC exemplificativa é representada na SEQ ID NO: 9, uma sequência de codificação de OXO exemplificativa é representada na SEQ ID NO: 10, sequências de codificação de OOR exemplificativas são representadas nas SEQ ID NOs: 11 a 13, sequências de codificação de OXS exemplificativas são representadas nas SEQ ID NOs: 14 a 16, sequências de codificação de OxIT exemplificativas são representadas nas SEQ ID NOs: 17 a 21, sequências de codificação de OXC exemplificativas são representadas nas SEQ ID NOs: 22 a 26 e 163, uma sequência de codificação de OXR exemplificativa é representada na SEQ ID NO: 27 e sequências de codificação de SCOCT exemplificativas são representadas nas SEQ ID NOs: 28 a 31.
[077] Consequentemente, em certas modalidades, uma bactéria foi modificada para compreender um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 1 a 31, ou um fragmento funcional ou sua variante. Em certas modalidades, uma bactéria foi modificada para compreender um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 1 a 31, ou um fragmento funcional ou sua variante.
[078] Por exemplo, é considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163 e SEQ ID NO: 21, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO:
16, SEQ ID NO: 26 ou SEQ ID NO: 163 e SEQ ID NO: 21. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16 e SEQ ID NO: 21, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16 e SEQ ID NO: 21. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 21, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 21. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 14, SEQ ID NO: 2 e SEQ ID NO: 21, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 16, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 14, SEQ ID NO: 2 e SEQ ID NO: 21. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 21, SEQ ID NO: 2 e SEQ ID NO: 16, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 7, SEQ ID NO: 25, SEQ ID NO: 21, SEQ ID NO: 2 e SEQ ID NO: 16. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 21, SEQ ID NO: 7,
SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2, SEQ ID NO: 16 e SEQ ID NO: 14, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2, SEQ ID NO: 16 e SEQ ID NO: 14. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 16, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 21, SEQ ID NO: 7, SEQ ID NO: 26 ou SEQ ID NO: 163, SEQ ID NO: 2 e SEQ ID NO: 16.
[079] Em certas modalidades, uma bactéria foi modificada para compreender um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos que codifica uma sequência de aminoácidos de qualquer uma das SEQ ID NOs: 32 a 62, ou um fragmento funcional ou sua variante. Em certas modalidades, uma bactéria foi modificada para compreender um ou mais ácidos nucleicos compreendendo uma sequência de nucleotídeos que codifica uma sequência de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 32 a 62, ou um fragmento funcional ou sua variante.
[080] Por exemplo, é considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 47, SEQ ID NO: 57 e SEQ ID NO: 52, ou sequências de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 47, SEQ ID NO: 57 e SEQ ID NO: 52. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 47 e SEQ ID NO: 52, ou sequências de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 47 e SEQ ID NO: 52. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 47, SEQ ID NO: 57, SEQ ID NO: 33 e SEQ ID NO: 52, ou sequências de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 47, SEQ ID NO: 57, SEQ ID NO: 33 e SEQ ID NO: 52. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 47, SEQ ID NO: 57, SEQ ID NO: 45, SEQ ID NO: 33 e SEQ ID NO: 52, ou sequências de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 47, SEQ ID NO: 57, SEQ ID NO: 45, SEQ ID NO: 33 e SEQ ID NO: 52. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 52, SEQ ID NO: 33 e SEQ ID NO: 47, ou sequências de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 38, SEQ ID NO: 56, SEQ ID NO: 52, SEQ ID NO: 33 e SEQ ID NO: 47. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 52, SEQ ID NO: 38, SEQ ID NO: 57, SEQ ID NO: 33, SEQ ID NO: 47 e SEQ ID NO: 45, ou amino ácido tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 52, SEQ ID NO: 38, SEQ ID NO: 57, SEQ ID NO: 33, SEQ ID NO: 47 e SEQ ID NO: 45. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo uma ou mais sequências de nucleotídeos que codificam as sequências de aminoácidos da SEQ ID NO: 52, SEQ ID NO: 38, SEQ ID NO: 57, SEQ ID NO: 33 e SEQ ID NO: 47, ou sequências de aminoácidos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 52, SEQ ID NO: 38, SEQ ID NO: 57 SEQ ID NO: 33 e SEQ ID NO:
47.
[081] A identidade de sequência pode ser determinada de várias maneiras que estão dentro da habilidade na técnica, e.g., usando software de computador publicamente disponível, tal como software BLAST, BLAST-2, ALIGN ou Megalign (DNASTAR). As análises de BLAST (Basic Local Alignment Search Tool) usando o algoritmo utilizado pelos programas blastp, blastn, blastx, tblastn e tblastx (Karlin et al., (1990) Proc. Natl. Acad. Sci. USA 87:2264-2268; Altschul, (1993) J. Mol. Evol. 36, 290-300; Altschul et al., (1997) Nucleic Acids Res. 25:3389-3402, incorporado por referência) são adaptadas para pesquisa de similaridade de sequência. Para um debate de problemas básicos na pesquisa de bancos de dados de sequências ver Altschul et al., (1994) Nature Genetics 6:119-129, que é completamente incorporado por referência. Os especialistas na técnica podem determinar parâmetros apropriados para medir o alinhamento, incluindo quaisquer algoritmos necessários para obter o alinhamento máximo ao longo de todo o comprimento das sequências sendo comparadas. Os parâmetros de pesquisa para histograma, descrições, alinhamentos, espera (i.e., o limiar de significância estatística para relatar correspondências contra sequências do banco de dados), corte, matriz e filtro estão nas configurações padrão. A matriz de pontuação padrão usada pelo blastp, blastx, tblastn e tblastx é a matriz BLOSUM62 (Henikoff et al., (1992) Proc. Natl. Acad. Sci. USA 89:10915-10919, completamente incorporado por referência). Quatro parâmetros de blastn podem ser ajustados como se segue: Q=10 (penalidade de criação de gap); R=10 (penalidade de extensão de gap); wink=1 (gera ocorrência de palavras a cada posição wink.sup.th ao longo da consulta); e gapw=16 (define a largura da janela dentro da qual os alinhamentos espaçados são gerados). Os ajustes de parâmetro de Blastp equivalentes podem ser Q=9; R=2; wink=1; e gapw=32. As pesquisas também podem ser conduzidas usando o parâmetro da Opção Avançada de BLAST do NCBI (National Center for Biotechnology Information) (e.g.: -G, Custo para abrir gap [Número inteiro]: padrão = 5 para nucleotídeos/11 para proteínas; -E, Custo para estender gap [Número inteiro]: padrão = 2 para nucleotídeos/1 para proteínas; -q, Penalidade para correspondência de nucleotídeos [Número inteiro]: padrão = -3; -r, recompensa para correspondência de nucleotídeos [Número inteiro]: padrão = 1; -e, valor de espera [Real]: padrão = 10; -W, tamanho da palavra [Número inteiro]: padrão = 11 para nucleotídeos/28 para megablastos/3 para proteínas; -y, Queda (X) para extensões de blastos em bits: padrão = 20 para blastn/7 para outros; -X, X valor de queda para alinhamento espaçado (em bits): padrão = 15 para todos os programas, não aplicável ao blastn; e -Z, valor X final de queda para alinhamento espaçado (em bits): 50 para blastn, 25 para outros). ClustalW para alinhamentos de proteínas em pares também pode ser usado (parâmetros padrão podem incluir, e.g., matriz Blosum62 e Penalidade de Abertura de Gap = 10 e Penalidade de Extensão de Gap = 0,1). Uma comparação Bestfit entre sequências, disponível no pacote GCG versão 10.0, usa parâmetros de DNA GAP=50 (penalidade de criação de gap) e LEN=3 (penalidade de extensão de gap) e os ajustes equivalentes em comparações de proteínas são GAP=8 e LEN=2.
[082] Uma bactéria modificada considerada, por exemplo, para o uso em uma composição farmacêutica ou método divulgado, inclui uma bactéria do gênero Bacteroides, Alistipes, Faecalibacterium, ParaBacteroides, Prevotella, Roseburia, Ruminococcus, Clostridium, Oscillibacter, Gemmiger, Barnesiella, Dialister, Parasutterella, Phascolarctobacterium, Propionibacterium, Sutterella, Blautia, Paraprevotella, Coprococcus, Odoribacter, Spiroplasma, Anaerostipes ou Akkermansia. Uma bactéria considerada, por exemplo, para o uso em uma composição farmacêutica ou método divulgado, pode ser do gênero Bacteroides, i.e., pode ser uma bactéria da espécie Bacteroides.
[083] Espécies de Bacteroides exemplificativas incluem B. acidifaciens, B. barnesiaes, B. caccae, B. caecicola, B. caecigallinarum, B. cellulosilyticus, B. cellulosolvens, B. clarus, B. coagulans, B. coprocola, B. coprophilus, B. coprosuis, B. distasonis, B. dorei, B. eggerthii, B. gracilis, B. faecichinchillae, B. faecis, B. finegoldii, B. fluxus, B. fragilis, B. galacturonicus, B. gallinaceum, B. gallinarum, B. goldsteinii, B. graminisolvens, B. helcogene, B. intestinalis, B. luti, B. massiliensis, B. melaninogenicus, B. nordii, B. oleiciplenus, B. oris, B. ovatus, B. paurosaccharolyticus, B. pectinophilus, B. plebeius, B. polipragmatus, B. propionicifaciens, B. putredinis, B. pyogenes, B. reticulotermitis, B. rodentium, B. salanitronis, B. salyersiae, B. sartorii, B. sediment B. stercoris, B. suis, B. tectus, B. thetaiotaomicron, B. uniformis, B. vulgatus, B. xylanisolvens e B. xylanolyticusxylanolyticus.
[084] Como aqui usado, o termo “espécie” se refere a uma entidade taxonômica como convencionalmente definida pela sequência genômica e características fenotípicas. Uma “cepa” é um exemplo particular de uma espécie que foi isolada e purificada de acordo com técnicas microbiológicas convencionais. A presente divulgação abrange derivados das cepas bacterianas divulgadas. O termo “derivado” inclui cepas filhas (progênie) ou cepas cultivadas (sub-clonadas) a partir da original, mas modificadas de alguma maneira (incluindo no nível genético), sem alterar negativamente uma atividade biológica da cepa.
[085] Em certas modalidades, uma bactéria modificada considerada é de um gênero que constitui mais de 0,1 %, 0,5 %, 1 %, 5 %, 10 %, 20 %, 30 % ou 40 % do total de micróbios cultiváveis nas fezes de um sujeito a ser tratado, ou nas fezes de um humano médio. Em certas modalidades, uma bactéria modificada considerada é de um gênero que é detectado em um nível maior que 1012, 1011, 1010, 109, 108, 107 unidades formadoras de colônia por grama de fezes de um sujeito a ser tratado, ou por grama de fezes de um humano médio. Em certas modalidades, uma bactéria modificada considerada é de um gênero que constitui mais de 0,1 %, 0,5 %, 1 %, 5 %, 10 %, 20 %, 30 % ou 40 % do microbioma do intestino de um sujeito a ser tratado, ou do microbioma do intestino de um humano médio. Composição do microbioma do intestino ou fezes humanas pode ser avaliada por qualquer técnica conhecida na técnica, incluindo sequenciamento ribossomal 16S. A FIGURA 2 mostra a abundância bacteriana no intestino humano médio com base no sequenciamento de DNA ribossômico 16S. Bacteroides é o gênero mais naturalmente abundante no intestino humano.
[086] rRNA, rDNA 16S, rRNA 16S, 16S, 18S, 18S rRNA e rDNA 18S se referem aos ácidos nucleicos que são componentes de, ou codificam para, os componentes do ribossomo. Existem duas subunidades no ribossomo denominadas subunidade pequena (SSU) e subunidade grande (LSU). Os genes de rDNA e suas sequências de RNA complementares são amplamente usados para a determinação das relações evolutivas entre os organismos, pois são variáveis, embora suficientemente conservados para permitir comparações moleculares entre os organismos.
[087] A sequência rDNA 16S (aproximadamente 1542 nucleotídeos em comprimento) da 30S SSU pode ser usada, em certas modalidades, para atribuições taxonômicas com base molecular de procarióticos e a sequência rDNA 18S (aproximadamente 1869 nucleotídeos em comprimento) de SSU 40S pode ser usada para eucarióticos. Por exemplo, as sequências 16S podem ser usadas para reconstrução filogenética, pois geralmente são altamente conservadas, mas contêm regiões hipervariáveis específicas que abrigam diversidade suficiente de nucleotídeos para diferenciar gêneros e espécie da maioria das bactérias. Embora os dados da sequência rDNA 16S tenham sido usados para fornecer a classificação taxonômica, cepas bacterianas intimamente relacionadas que são classificadas dentro do mesmo gênero e espécie podem exibir fenótipos biológicos distintos.
[088] A identidade das espécies ou cepas bacterianas consideradas pode ser CARACTERIZADA por rRNA 16S ou análise completa de sequência do genoma. Por exemplo, em certas modalidades, as cepas bacterianas consideradas podem compreender um rRNA 16S ou sequência genômica tendo uma certa % de identidade com uma sequência de referência.
[089] Em certas modalidades, uma bactéria modificada considerada é capaz de colonizar de forma estável o intestino humano. Uma bactéria divulgada pode, e.g., após a administração a um sujeito humano, resultar em uma abundância maior que 1012, 1011, 1010, 109, 108 ou 107 cfu por grama de conteúdo fecal. Por exemplo, a administração de cerca de 103, cerca de 104, cerca de 105, cerca de 106, cerca de 107, cerca de 108, cerca de 109, cerca de 1010, cerca de 1011 ou cerca de 1012 células de uma bactéria divulgada a um sujeito humano pode resultar em uma abundância maior que 1012, 1011, 1010, 109, 108 ou 107 cfu por grama de conteúdo fecal com 12 horas, 24 horas, 36 horas, 48 horas, 60 horas ou 72 horas de administração.
[090] Uma bactéria divulgada pode, e.g., ser modificada para colonizar o intestino humano com maior abundância, estabilidade, previsibilidade ou facilidade de colonização inicial em relação a uma bactéria similar ou de outro modo idêntica que não foi modificada. Por exemplo, uma bactéria considerada pode ser modificada para aumentar sua capacidade de utilizar um nutriente privilegiado como fonte de carbono. Um “nutriente privilegiado” é definido como uma molécula ou conjunto de moléculas que pode ser consumida para auxiliar na proliferação de uma cepa bacteriana particular, enquanto fornece assistência à proliferação a não mais que 1 % das outras bactérias no intestino. Consequentemente, em certas modalidades, uma bactéria modificada tem a capacidade de consumir o nutriente privilegiado para sustentar sua colonização e expandir no intestino de um sujeito para uma abundância previsivelmente alta, mesmo na ausência de oxalato ou outras fontes de carbono ou energia, enquanto a maioria das outras bactérias no intestino do sujeito não. Nutrientes privilegiados exemplificativos incluem, e.g., um polissacarídeo marinho, e.g., um porfirano.
[091] Por exemplo, uma bactéria pode compreender um ou mais transgenes que aumentam sua capacidade de utilizar um nutriente privilegiado, e.g., um polissacarídeo marinho, e.g., uma porfirina, como fonte de carbono. Em certas modalidades, uma bactéria pode compreender todo ou uma porção de um loco de utilização de polissacarídeos (PUL), um elemento genético móvel que confere a capacidade de consumir um carboidrato, e.g., um nutriente privilegiado, em uma bactéria. Um PUL de consumo de porfirano exemplificativo é o PUL da cepa NB001 de Bacteroides que consome porfirano representada na SEQ ID NO: 72. Consequentemente, em certas modalidades, uma bactéria modificada compreende a SEQ ID NO: 72, ou um fragmento funcional ou sua variante. Em certas modalidades, uma bactéria modificada compreende uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 72, ou um fragmento funcional ou sua variante.
[092] Modificações bacterianas exemplificativas adicionais para aumentar a abundância no intestino de um sujeito, nutriente privilegiados, transgenes que aumentam a capacidade de uma bactéria utilizar um nutriente privilegiado, PULs e outros métodos e composições para modular o crescimento de uma bactéria modificada são descritos na Publicação de Patente Internacional (PCT) No WO2018112194.
[093] Em certas modalidades, uma bactéria similar ou de outro modo idêntica que não foi modificada não tem atividade degradante de oxalato detectável e/ou não tem genes conhecidos por estarem envolvidos e.g., diretamente envolvido, no catabolismo de oxalato. Por exemplo, uma bactéria similar ou de outro modo idêntica que não foi modificada pode não ter genes que codificam: uma oxalato:formiato antiportadora (OxlT); uma oxalato descarboxilase (OXDC)- EC 4.1.1.2; uma oxalato oxidase (OXO)- EC 1.2.3.4; uma oxalato óxido-redutase (OOR)- EC 1.2.7.10; uma oxalato-CoA ligase/Oxalil-CoA sintetase (OXS)- EC 6.2.1.8; uma formil-CoA:oxalato CoA-transferase (FCOCT)- EC 2.8.3.16; uma acetil-CoA:oxalato CoA-transferase (ACOCT)- EC 2.8.3.19; uma succinil-CoA:oxalato CoA-transferase (SCOCT)- EC
2.8.3.2; uma oxalil-CoA descarboxilase (OXC)- EC 4.1.1.8; ou uma oxalil-CoA redutase/glioxilato:NADP+ óxido-redutase (OXR)- EC 1.2.1.17. Em certas modalidades, nenhum membro que ocorre naturalmente do mesmo gênero que a bactéria tem atividade degradante de oxalato detectável.
[094] Em certas modalidades, um transgene ou ácido nucleico divulgado compreendendo uma sequência exógena de nucleotídeos está operacionalmente ligado a pelo menos um promotor constitutivo, e.g., um promotor derivado de fago. O termo “operacionalmente ligado” se refere a uma ligação de elementos polinucleotídicos em uma relação funcional. Uma sequência de ácidos nucleicos está “operacionalmente ligada” quando é colocada em uma relação funcional com outra sequência de ácidos nucleicos. Por exemplo, um promotor ou realçador está operacionalmente ligado a um gene se afeta a transcrição do gene. Sequências de nucleotídeos operacionalmente ligadas são tipicamente contíguas. Entretanto, como os realçadores geralmente funcionam quando separados do promotor por várias quilobases e as sequências intrônicas podem ser de comprimentos variáveis, alguns elementos polinucleotídicos podem estar operacionalmente ligados, mas não diretamente flanqueados e podem até funcionar in trans de um alelo ou cromossomo diferente. Promotores derivados de fagos exemplificativos incluem aqueles compreendendo a sequência de nucleotídeos da SEQ ID NO: 68, SEQ ID NO: 69, SEQ ID NO: 70 ou SEQ ID NO: 71, ou uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 68, SEQ ID NO: 69, SEQ ID NO: 70 ou SEQ ID NO: 71. Promotores derivados de fagos exemplificativos adicionais são descritos na Publicação de Patente Internacional (PCT) No WO2017184565.
[095] Em certas modalidades, um transgene ou ácido nucleico divulgado compreendendo uma sequência exógena de nucleotídeos está operacionalmente ligado a pelo menos um sítio de ligação ao ribossomo (RBS). RBSs exemplificativos incluem aqueles compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 164 a 230, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 164 a 230, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores. Por exemplo, uma bactéria considerada pode compreender: (i) um transgene que codifica uma OxIT de O. formigenes operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 212 a 219, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 212 a 219, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores; (ii) um transgene que codifica uma OXS de S. cerevisiae operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 172 a 179, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 172 a 179, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores; (iii) um transgene que codifica uma OXS de A. thaliana operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 164 a 171, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 164 a 171, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores; (iv) um transgene que codifica uma OXC de S. cerevisiae operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 188 a 195 ou 220 a 230, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 188 a 195 ou 220 a 230, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores; (v) um transgene que codifica uma OXC de O. formigenes operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 180 a 187, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 180 a 187, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores; (vi) um transgene que codifica uma FCOCT de E. coli operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 204 a 211, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 204 a 211, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores; e/ou (vii) transgene que codifica uma ACOCT de E. coli operacionalmente ligado a um RBS compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 196 a 203, uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com qualquer uma das SEQ ID NOs: 196 a 203, ou um fragmento funcional ou variante de qualquer uma das sequências de nucleotídeos anteriores.
[096] É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 96 a 162, ou uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 96 a 162.
[097] Por exemplo, é considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 145, SEQ ID NO: 128 e SEQ ID NO: 104, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 145, SEQ ID NO: 128 e SEQ ID NO: 104. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 148, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 148, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 147, SEQ ID NO: 104, SEQ ID NO: 153, SEQ ID NO: 97, SEQ ID NO: 131, SEQ ID NO: 136 e SEQ ID NO: 113, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 147, SEQ ID NO: 104, SEQ ID NO: 153, SEQ ID NO: 97, SEQ ID NO: 131, SEQ ID NO: 136 e SEQ ID NO: 113. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 154, SEQ ID NO: 131, SEQ ID NO: 98, SEQ ID NO: 115, SEQ ID NO: 106 e SEQ ID NO: 149, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 139, SEQ ID NO: 154, SEQ ID NO: 131, SEQ ID NO: 98, SEQ ID NO: 115, SEQ ID NO: 106 e SEQ ID NO: 149. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 148, SEQ ID NO: 129 e SEQ ID NO: 105, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 137, SEQ ID NO: 113, SEQ ID NO: 148, SEQ ID NO: 129 e SEQ ID NO: 105 É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129 e SEQ ID NO: 105, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129 e SEQ ID NO: 105. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 155, SEQ ID NO: 137, SEQ ID NO: 128, SEQ ID NO: 144, SEQ ID NO: 115, SEQ ID NO: 98 e SEQ ID NO: 105. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105, SEQ ID NO: 113 e SEQ ID NO: 96. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 145, SEQ ID NO: 137, SEQ ID NO: 153, SEQ ID NO: 129, SEQ ID NO: 105 e SEQ ID NO: 96. É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo as sequências de nucleotídeos da SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145, ou sequências de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99 % de identidade com a SEQ ID NO: 139, SEQ ID NO: 129, SEQ ID NO: 155, SEQ ID NO: 112, SEQ ID NO: 99, SEQ ID NO: 106 e SEQ ID NO: 145.
[098] É considerado que uma bactéria pode compreender um ou mais ácidos nucleicos compreendendo a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 82 a 95, ou uma sequência de nucleotídeos tendo pelo menos 80 %, 85 %, 86 %, 87 %, 88 %, 89 %, 90 %, 91 %, 92 %, 93 %, 94 %, 95 %, 96 %, 97 %, 98 % ou 99
% de identidade com a sequência de nucleotídeos de qualquer uma das SEQ ID NOs: 82 a 95. II. Composições/Unidades Farmacêuticas
[099] Uma bactéria aqui divulgada pode ser combinada com excipientes farmaceuticamente aceitáveis para formar uma composição farmacêutica, que pode ser administrada a um paciente por quaisquer meios conhecidos na técnica. Como aqui usado, o termo “excipiente farmaceuticamente aceitável” é entendido como significando um ou mais de um tampão, portador ou excipiente adequado para a administração a um sujeito, por exemplo, um sujeito humano, sem toxicidade excessiva, irritação, resposta alérgica ou outro problema ou complicação, proporcional a uma relação risco/benefício razoável. O excipiente deve ser “aceitável” no sentido de ser compatível com os outros ingredientes das formulações e não deletério ao receptor.
[0100] Excipientes farmaceuticamente aceitáveis incluem tampões, solventes, meios de dispersão, revestimentos, agentes isotônicos e de retardamento de absorção e semelhantes, que são compatíveis com a administração farmacêutica. Excipientes farmaceuticamente aceitáveis também incluem enchedores, aglutinantes, desintegrantes, deslizantes, lubrificantes e quaisquer combinações dos mesmos. Para mais exemplos de excipientes, portadores, estabilizadores e adjuvantes, ver, e.g., Handbook of Pharmaceutical Excipients, 8a Ed., Editado por P.J. Sheskey, W.G. Cook, e C.G. Cable, Pharmaceutical Press, London, UK [2017]. O uso de tais meios e agentes para substâncias farmaceuticamente ativas é conhecido na técnica.
[0101] As bactérias consideradas podem ser usadas nas composições divulgadas em qualquer forma, e.g., uma forma estável, como conhecido pelos especialistas na técnica, incluindo em um estado liofilizado (com opcionalmente um ou mais crioprotetores apropriados), congelado (e.g., em um refrigerador padrão ou super-esfriado), seco por pulverização e/ou liofilizado. Uma formulação ou composição “estável” é uma em que o material biologicamente ativo nela essencialmente mantém sua estabilidade física, estabilidade química e/ou atividade biológica durante o armazenamento. A estabilidade pode ser medida a uma condição de temperatura e umidade selecionada por um período de tempo selecionado. A análise de tendência pode ser usada para estimar uma vida de prateleira esperada antes que um material tenha realmente sido armazenado por aquele período de tempo. Para bactérias vivas, por exemplo, a estabilidade pode ser definida como o tempo que leva para perder 1 log de cfu/g de formulação seca sob condições predefinidas de temperatura, umidade e período de tempo.
[0102] Uma bactéria aqui divulgada pode ser combinada com um ou mais crioprotetores. Crioprotetores exemplificativos incluem frutoligossacarídeos (e.g., raftilose®), trealose, maltodextrina, alginato de sódio, prolina, ácido glutâmico, glicina (e.g., glicina betaína), mono, di ou polissacarídeos (tais como glicose, sacarose, maltose, lactose), polióis (tais como manitol, sorbitol ou glicerol), dextrano, DMSO, metilcelulose, propileno glicol, polivinilpirrolidona, tensoativos não iônicos, tais como Tween 80 e/ou quaisquer combinações dos mesmos.
[0103] Uma composição farmacêutica deve ser formulada para ser compatível com a via de administração intencionada. Composições bacterianas consideradas aqui divulgadas podem ser preparadas por qualquer método adequado e podem ser formuladas em uma variedade de formas e administradas por vários meios diferentes. As composições consideradas podem ser administradas por via oral, retal ou enteral, em formulações contendo portadores, adjuvantes e veículos convencionalmente aceitáveis conforme desejado. Como aqui usado, “administração retal” é entendida como incluindo a administração por enema, supositório ou colonoscopia. Uma composição farmacêutica divulgada pode, e.g., ser adequada para administração em bolus ou liberação em bolus. Em uma modalidade exemplificativa, uma composição bacteriana divulgada é administrada oralmente.
[0104] As formas de dosagem sólidas para administração oral incluem cápsulas, tabletes, cápsulas, pílulas, pastilhas, pastilhas expectorantes, pós e grânulos. Uma cápsula tipicamente compreende um material de núcleo compreendendo uma composição bacteriana e uma parede de revestimento que encapsula o material de núcleo. Em algumas modalidades, o material de núcleo compreende pelo menos um de um sólido, um líquido e uma emulsão. Em algumas modalidades, o material da parede de revestimento compreende pelo menos um de uma gelatina mole, uma gelatina dura e um polímero. Polímeros adequados incluem, mas não são limitados a: polímeros celulósicos, tais como hidroxipropil celulose, hidroxietil celulose, hidroxipropil metil celulose (HPMC), metil celulose, etil celulose, acetato de celulose, acetato ftalato de celulose, acetato trimelitato de celulose, hidroxipropilmetil ftalato de celulose, hidroxipropilmetil succinato de celulose e carboximetilcelulose sódica; polímeros e copolímeros de ácido acrílico, tais como aqueles formados a partir de ácido acrílico, ácido metracrílico, metil acrilato, metilacrilato de amônio, etil acrilato, metil metacrilato e/ou etil metacrilato (e.g., aqueles copolímeros vendidos sob o nome comercial “Eudragit®”); polímeros e copolímeros de vinila, tais como polivinilpirrolidona, acetato de polivinila, acetato de polivinilftalato, copolímero de ácido crotônico de acetato de vinila e copolímeros de etileno-acetato de vinila; e goma laca (laca purificada). Em algumas modalidades, pelo menos um polímero funciona como um agente de mascaramento de sabor.
[0105] Tabletes, pílulas e semelhantes podem ser comprimidos, multi- comprimidos, multi-camadas e/ou revestidos. Um revestimento considerado pode ser único ou múltiplo. Em uma modalidade, um material de revestimento considerado compreende pelo menos um de um sacarídeo, um polissacarídeo e glicoproteínas extraídas de pelo menos um de uma planta, um fungo e um micróbio. Exemplos não limitativos incluem amido de milho, amido de trigo, amido de batata, amido de tapioca, celulose, hemicelulose, dextranos, maltodextrina, ciclodextrinas, inulinas, pectina,
mananos, goma arábica, goma de alfarroba, goma de mesquite, goma guar, goma karaya, goma ghatti, goma tragacanto, funori, carrageninas, porfiranos, ágar, alginatos, quitosanas ou goma gelana. Em algumas modalidades, um material de revestimento considerado compreende uma proteína. Em algumas modalidades, um material de revestimento considerado compreende pelo menos um de uma gordura e um óleo. Em algumas modalidades, o pelo menos um de uma gordura e um óleo é derretido a alta temperatura. Em algumas modalidades, o pelo menos um de uma gordura e um óleo é hidrogenado ou parcialmente hidrogenado. Em algumas modalidades, o pelo menos um de uma gordura e um óleo é derivado de uma planta. Em algumas modalidades, o pelo menos um de uma gordura e um óleo compreende pelo menos um de glicerídeos, ácidos graxos livres e ésteres de graxo ácido. Em algumas modalidades, um material de revestimento considerado compreende pelo menos uma cera comestível. Uma cera comestível considerada pode ser derivada de animais, insetos ou plantas. Exemplos não limitativos incluem cera de abelha, lanolina, cera de bayberry, cera de carnaúba e cera de farelo de arroz. Os tabletes e pílulas podem ser adicionalmente preparados com revestimentos entéricos ou entéricos reversos.
[0106] Alternativamente, os pós ou grânulos que incorporam uma composição bacteriana aqui divulgada podem ser incorporados em um produto alimentar. Em algumas modalidades, um produto alimentar considerado é uma bebida para administração oral. Exemplos não limitativos de uma bebida adequada incluem água, suco de fruta, uma bebida de fruta, uma bebida artificialmente flavorizada, uma bebida artificialmente adoçada, uma bebida carbonatada, uma bebida esportiva, um produto diário líquido, um shake, uma bebida alcoólica, uma bebida cafeinada, fórmula infantil e assim por diante. Outros meios adequados para a administração oral incluem soluções aquosas e não aquosas, emulsões, suspensões e soluções e/ou suspensões reconstituídas a partir de grânulos não efervescentes, contendo pelo menos um de solventes, conservantes, agentes emulsificadores, agentes de suspensão, diluentes, adoçantes, agentes corantes e agente flavorizantes adequados.
[0107] As composições farmacêuticas contendo uma bactéria aqui divulgada podem ser apresentadas em uma forma de dosagem unitária, i.e., uma unidade farmacêutica. Uma composição, e.g., uma unidade farmacêutica aqui fornecida, pode incluir qualquer quantidade apropriada de bactéria, medida pela massa total ou pelas unidades formadoras de colônia das bactérias.
[0108] Por exemplo, uma composição ou unidade farmacêutica divulgada pode incluir de cerca de 103 cfus a cerca de 1012 cfus, cerca de 106 cfus a cerca de 1012 cfus, cerca de 107 cfus a cerca de 1012 cfus, cerca de 108 cfus a cerca de 1012 cfus, cerca de 109 cfus a cerca de 1012 cfus, cerca de 1010 cfus a cerca de 1012 cfus, cerca de 1011 cfus a cerca de 1012 cfus, cerca de 103 cfus a cerca de 1011 cfus, cerca de 106 cfus a cerca de 1011 cfus, cerca de 107 cfus a cerca de 1011 cfus, cerca de 108 cfus a cerca de 1011 cfus, cerca de 109 cfus a cerca de 1011 cfus, cerca de 1010 cfus a cerca de 1011 cfus, cerca de 103 cfus a cerca de 1010 cfus, cerca de 106 cfus a cerca de 1010 cfus, cerca de 107 cfus a cerca de 1010 cfus, cerca de 108 cfus a cerca de 1010 cfus, cerca de 109 cfus a cerca de 1010 cfus, cerca de 103 cfus a cerca de 109 cfus, cerca de 106 cfus a cerca de 109 cfus, cerca de 107 cfus a cerca de 109 cfus, cerca de 108 cfus a cerca de 109 cfus, cerca de 103 cfus a cerca de 108 cfus, cerca de 106 cfus a cerca de 108 cfus, cerca de 107 cfus a cerca de 108 cfus, cerca de 103 cfus a cerca de 107 cfus, cerca de 106 cfus a cerca de 107 cfus, ou cerca de 103 cfus a cerca de 106 cfus de cada cepa bacteriana, ou podem incluir cerca de 103 cfus, cerca de 106 cfus, cerca de 107 cfus, cerca de 108 cfus, cerca de 109 cfus, cerca de 1010 cfus, cerca de 1011 cfus, ou cerca de 1012 cfus de bactérias. III. Usos Terapêuticos
[0109] As composições e métodos aqui divulgados podem ser usados para tratar várias doenças ou transtornos associados com uma quantidade elevada de oxalato em um sujeito. Como aqui usado, “quantidade elevada de oxalato em um sujeito” pode se referir a uma quantidade elevada de oxalato em um corpo fluido (e.g., sangue, plasma, soro ou urina), tecido e/ou célula em um sujeito, em relação a um sujeito sem a doença ou transtorno. A divulgação fornece um método de tratar uma doença ou transtorno associado com uma quantidade elevada de oxalato em um sujeito. Um método considerado compreende administrar ao sujeito uma quantidade eficaz de uma bactéria ou uma composição farmacêutica aqui divulgada, sozinha ou em uma combinação com outro agente terapêutico, para tratar a doença ou transtorno associado com uma quantidade elevada de oxalato no sujeito.
[0110] Um exemplo de uma doença ou transtorno associado com uma quantidade elevada de oxalato é hiperoxalúria, e.g., hiperoxalúria primária, entérica, dietética ou idiopática. A hiperoxalúria, ou níveis aumentados de oxalato urinário, pode ser caracterizada em humanos pela excreção urinária de oxalato maior que 40 mg (aproximadamente 440 μmol) ou 30 mg por dia. Níveis de corte clínicos exemplificativos são 43 mg/dia (aproximadamente 475 μmol) para homens e 32 mg/dia (aproximadamente 350 μmol) para mulheres. A hiperoxalúria também pode ser definida como excreção urinária de oxalato maior que 30 mg por dia por grama de creatinina urinária. Pessoas com hiperoxalúria leve podem excretar pelo menos 30 a 60 (342 a 684 μmol) ou 40 a 60 (456 a 684 μmol) mg de oxalato por dia. Pessoas com hiperoxalúria entérica podem excretar pelo menos 80 mg de oxalato urinário por dia (912 μmol), e pessoas com a hiperoxalúria primária podem excretar pelo menos 200 mg por dia (2280 μmol).
[0111] O oxalato urinário elevado tem sido associado a vários problemas de saúde nos rins, e.g., cálculos renais (e.g., cálculos renais de oxalato de cálcio recorrentes), nefrocalcinose, nefrolitíase, danos renais ou doença renal em estágio terminal. O oxalato de cálcio também pode ser depositado no trato urinário, cólon, intestino delgado, olhos, vasos sanguíneos, articulações, ossos, músculos, coração e outros órgãos importantes, causando danos aos mesmos. Consequentemente, doenças ou transtornos exemplificativos adicionais associados com uma quantidade elevada de oxalato incluindo transtornos renais (e.g., cálculos renais, nefrocalcinose, doença renal policística, nefrolitíase ou insuficiência renal (incluindo insuficiência renal progressiva, crônico ou estágio terminal)), transtornos do trato urinário (e.g., doença idiopática de cálculo urinário ou urolitíase), transtornos gastrointestinais (e.g., doença inflamatória intestinal, doença de Crohn ou colite ulcerativa), transtornos pancreáticos (e.g., insuficiência pancreática exócrina), transtornos articulares, transtornos oculares, transtornos hepáticos, envenenamento por etileno glicol, fibrose cística, esteatorreia, doença ilíaca, vulvodínia, transtornos de condutância cardíaca, osteoporose e complicações de bypass gástrico ou outros tipos de cirurgia gastrointestinal.
[0112] Como aqui usado, “tratar”, “tratando” e “tratamento” significam o tratamento de uma doença em um sujeito, e.g., em um humano. Isso inclui: (a) inibir a doença, i.e., interromper seu desenvolvimento; e (b) aliviar a doença, i.e., causar a regressão do estado da doença. Como aqui usado, os termos “sujeito” e “paciente” se referem a um organismo a ser tratado pelos métodos e composições aqui descritos. Tais organismos preferivelmente incluem, mas não são limitados a mamíferos, e.g., humanos, um animal de companhia (e.g., cão, gato ou coelho) ou um animal de criação (por exemplo, vaca, ovelha, porco, cabra, cavalo, jumento e mula, búfalo, boi ou camelo)).
[0113] Será avaliado que a dosagem exata de uma composição farmacêutica ou bactéria é escolhida por um médico individual em vista do paciente a ser tratado, em geral, a dosagem e administração são ajustados para fornecer uma quantidade eficaz do agente bacteriano ao paciente sendo tratado. Como aqui usado, a “quantidade eficaz” se refere à quantidade necessária para evocar uma resposta biológica benéfica ou desejada. Uma quantidade eficaz pode ser administrada em uma ou mais administrações, aplicações ou dosagens e não é intencionada a ser limitada a uma formulação ou via de administração particular. Como será avaliado por um especialista nesta técnica, a quantidade eficaz de uma unidade farmacêutica, composição farmacêutica ou cepa bacteriana pode variar dependendo de fatores como o ponto final biológico desejado, o fármaco a ser administrado, o tecido alvo, a via de administração, etc. Fatores adicionais que podem ser levados em conta incluem a gravidade do estado da doença; idade, peso e gênero do paciente sendo tratado; dieta, tempo e frequência de administração; combinações de fármacos; sensibilidades de reação; e tolerância/resposta à terapia.
[0114] Os métodos considerados podem compreender ainda administrar um nutriente privilegiado ao sujeito para auxiliar a colonização da bactéria. Nutrientes privilegiados exemplificativos incluem polissacarídeo marinhos, e.g., um porfirano. Por exemplo, um nutriente privilegiado divulgado pode ser administrado ao sujeito antes de, ao mesmo tempo que ou depois de uma bactéria divulgada.
[0115] Os métodos e composições aqui descritos podem reduzir os níveis de oxalato em um sujeito, e.g., em um corpo fluido (e.g., sangue, plasma, soro ou urina), tecido e/ou célula em um sujeito, em pelo menos cerca de 10 %, cerca de 20 %, cerca de 30 %, cerca de 40 %, cerca de 50 %, cerca de 60 %, cerca de 70 %, cerca de 80 %, cerca de 90 %, cerca de 95 % ou mais, em relação aos níveis de oxalato em um sujeito não tratado ou controle.
[0116] Os métodos considerados podem compreender a administração de uma bactéria ou composição farmacêutica divulgada a um sujeito a cada 12 horas, 24 horas, dia, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias, 7 dias, semana, 2 semanas, 3 semanas, 4 semanas, mês, 2 meses, 3 meses, 4 meses, 5 meses ou 6 meses. Em certas modalidades, o tempo entre as administrações consecutivas de uma bactéria ou composição farmacêutica divulgada a um sujeito é maior do que 12 horas, 24 horas, 36 horas, 48 horas, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias, 7 dias, 1 semana, 2 semanas, 3 semanas ou 4 semanas.
[0117] Em certas modalidades, uma bactéria divulgada e um nutriente privilegiado divulgado, e.g., um polissacarídeo marinho, e.g., um porfirano, são administrados a um sujeito com a mesma frequência. Por exemplo, a bactéria e o nutriente privilegiado podem ser administrados ao sujeito a cada 12 horas, 24 horas, dia, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias, 7 dias, semana, 2 semanas, 3 semanas, 4 semanas, mês, 2 meses, 3 meses, 4 meses, 5 meses ou 6 meses. Em certas modalidades, uma bactéria divulgada e um nutriente privilegiado divulgado, e.g., um polissacarídeo marinho, e.g., um porfirano, são administrados a um sujeito com uma frequência diferente. Por exemplo, a bactéria pode ser administrada ao sujeito a cada 12 horas, 24 horas, dia, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias, 7 dias, semana, 2 semanas, 3 semanas, 4 semanas, mês, 2 meses, 3 meses, 4 meses, 5 meses ou 6 meses, e o nutriente privilegiado pode ser administrado ao sujeito a cada 12 horas, 24 horas, dia, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias, 7 dias, semana, 2 semanas, 3 semanas, 4 semanas, mês, 2 meses, 3 meses, 4 meses, 5 meses ou 6 meses. Por exemplo, em certas modalidades, a bactéria pode ser administrada ao sujeito a cada semana, 2 semanas, 3 semanas, 4 semanas, mês, 2 meses, 3 meses, 4 meses, 5 meses ou 6 meses, e o nutriente privilegiado pode ser administrado ao sujeito a cada 12 horas, 24 horas, dia, 2 dias, 3 dias, 4 dias, 5 dias, 6 dias ou 7 dias.
[0118] Os métodos e composições aqui descritos podem ser usados sozinhos ou em combinação com outros agentes terapêuticos e/ou modalidades. O termo administrado “em combinação”, como aqui usado, é entendido como significando que dois (ou mais) tratamentos diferentes são administrados ao sujeito durante o curso da aflição do sujeito com o transtorno, tal que os efeitos dos tratamentos no paciente se sobreponham em um determinado momento. Em certas modalidades, a liberação de um tratamento ainda está ocorrendo quando a liberação do segundo começa, de modo que existe sobreposição em termos de administração. Isso é algumas vezes referido aqui como “simultânea” ou “liberação concorrente”. Em outras modalidades,
a liberação de um tratamento termina antes da liberação do outro tratamento começar. Em certas modalidades de ambos os casos, o tratamento é mais eficaz por causa da administração combinada. Por exemplo, o segundo tratamento é mais eficaz, e.g., um efeito equivalente é observado com menos do segundo tratamento, ou o segundo tratamento reduz os sintomas a uma maior extensão do que seria observado se o segundo tratamento fosse administrado na ausência do primeiro tratamento, ou a situação análoga é observada com o primeiro tratamento. Em certas modalidades, a liberação é tal que a redução em um sintoma, ou outro parâmetro relacionado ao transtorno, é maior do que seria observado com um tratamento liberado na ausência do outro. O efeito dos dois tratamentos pode ser parcialmente aditivo, totalmente aditivo ou maior que aditivo. A liberação pode ser tal que um efeito do primeiro tratamento liberado ainda seja detectável quando o segundo é liberado. Em certas modalidades, um efeito colateral de um primeiro e/ou segundo tratamento é reduzido por causa da administração combinada.
[0119] Em certas modalidades, um método ou composição aqui descrito é administrado em combinação com um ou mais terapias adicionais. Em certas modalidades, uma terapia adicional considerada pode incluir: alta ingestão de fluidos; uma dieta de baixo teor de sal, baixo teor de oxalato e/ou um alto teor de cálcio; suplementação de citrato, cálcio, ortofosfato e/ou piridoxina/vitamina B6; a enzima oxalato descarboxilase; e/ou um peptídeo que estimula a secreção de oxalato do cólon.
[0120] Ao longo da descrição, onde as composições são descritas como tendo, incluindo ou compreendendo componentes específicos, ou onde os processos e métodos são descritos como tendo, incluindo ou compreendendo etapas específicas, é considerado que, adicionalmente, existem composições da presente divulgação que consistem essencialmente em, ou consistem em, os componentes relatados, e que existem processos e métodos de acordo com a presente divulgação que consistem essencialmente em, ou consistem em, as etapas de processamento relatadas.
[0121] No pedido, onde um elemento ou componente é dito como incluído em e/ou selecionado de uma lista de elementos ou componentes relatados, deve ser entendido que o elemento ou componente pode ser qualquer um dos elementos ou componentes relatados, ou o elemento ou componente pode ser selecionado de um grupo que consiste em dois ou mais dos elementos ou componentes relatados.
[0122] Além disso, deve ser entendido que os elementos e/ou características de uma composição ou um método aqui descrito podem ser combinados em uma variedade de maneiras sem se afastar do espírito e escopo da presente divulgação, quer explícito ou implícito neste documento. Por exemplo, onde é feita referência a um composto particular, o composto pode ser usado em várias modalidades de composições da presente divulgação e/ou em métodos da presente divulgação, a menos que de outro modo entendido a partir do contexto. Em outras palavras, dentro deste pedido, as modalidades foram descritas e representadas de uma maneira que permite que um pedido claro e conciso seja escrito e desenhado, mas é intencionado e será avaliado que as modalidades podem ser combinadas ou separadas de várias maneiras sem se separar dos presentes ensinamentos e divulgação. Por exemplo, será avaliado que todas as características descritas e representadas aqui podem ser aplicáveis a todos os aspectos da divulgação descrita e representada aqui.
[0123] Deve ser entendido que a expressão “pelo menos um de” inclui individualmente cada um dos objetos relatados depois da expressão e as várias combinações de dois ou mais dos objetos relatados a menos que de outro modo entendido a partir do contexto e uso. A expressão “e/ou” em relação a três ou mais objetos relatados deve ser entendida para ter o mesmo significado a menos que de outro modo entendido a partir do contexto.
[0124] O uso do termo “incluem”, “inclui”, “incluindo”, “têm”, “tem”, “tendo”,
“contêm”, “contém” ou “contendo”, incluindo os equivalentes gramaticais dos mesmos, deve ser entendido geralmente como aberto e não limitativo, por exemplo, não excluindo elementos ou etapas adicionais não relatados, a menos que de outro modo especificamente estabelecido ou entendido a partir do contexto.
[0125] Onde o uso do termo “cerca de” está antes de um valor quantitativo, a presente divulgação também inclui o valor quantitativo específico em si, a menos que especificamente estabelecido de outro modo. Como aqui usado, o termo “cerca de” se refere a uma variação de ±10 % do valor nominal a menos que de outro modo indicado ou inferido.
[0126] Deve ser entendido que a ordem de etapas ou ordem para realizar certas ações é imaterial, desde que a presente divulgação permaneça operável. Além disso, duas ou mais etapas ou ações podem ser conduzidas simultaneamente.
[0127] O uso de quaisquer e todos os exemplos, ou linguagem exemplificativa aqui, por exemplo, “tal como” ou “incluindo”, é intencionado meramente a ilustrar melhor a presente divulgação e não representa uma limitação no escopo da divulgação a menos que reivindicado. Nenhuma linguagem no relatório descritivo deve ser interpretada como indicando qualquer elemento não reivindicado como essencial à prática da presente divulgação.
EXEMPLOS
[0128] Os exemplos a seguir são meramente ilustrativos e não são intencionados a limitar o escopo ou conteúdo da divulgação de qualquer maneira. Exemplo 1 - Construção de Bacteroides Degradantes de Oxalato
[0129] A adição de capacidades de degradação de oxalato a um membro do gênero Bacteroides naïve de oxalato pode ser realizada pela adição de transgenes de outros organismos (e.g., SEQ ID NOs: 1 a 31). Por exemplo, um construto incluindo cassetes de expressão para a expressão de OxlT, OXS e OXC pode ser usado para obter a degradação de oxalato em Bacteroides. Sequências de codificação de OxIT exemplificativas são representadas nas SEQ ID NOs: 17 a 21, sequências de codificação de OXS exemplificativas são representadas nas SEQ ID NOs: 14 a 16 e sequências de codificação de OXC exemplificativas são representadas nas SEQ ID NOs: 22 a 26. Os construtos considerados podem ainda incluir cassetes de expressão para a expressão de FCOCT, ACOCT ou SCOCT. Sequências de codificação de FCOCT exemplificativas são representadas nas SEQ ID NOs: 4 a 8, sequências de codificação de ACOCT exemplificativas são representadas nas SEQ ID NOs: 1 a 2 e sequências de codificação de SCOCT exemplificativas são representadas nas SEQ ID NOs: 28 a 31. A expressão de cópias adicionais de OXS e/ou OXC também pode melhorar a degradação de oxalato.
[0130] A FIGURA 3 mostra plasmídeos diferentes (SEQ ID NOs: 63 a 67) que podem ser usados individualmente ou em combinação para gerar Bacteroides com capacidades de degradação de oxalato. pZR748 (SEQ ID NO: 63) inclui sequências de codificação para uma OXS de S. cerevisiae, uma OXC de S. cerevisiae e uma OxIT de O. formigenes. pZR753 (SEQ ID NO: 64) inclui sequências de codificação para uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae e uma OxIT de O. formigenes. pZR761 (SEQ ID NO: 65) inclui sequências de codificação para uma OXS de S. cerevisiae e uma OXC de S. cerevisiae. pZR856 (SEQ ID NO: 66) inclui uma sequência de codificação para uma OxIT de O. formigenes. pZR878 (SEQ ID NO: 67) inclui sequências de codificação para uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma OXS de A. thaliana e uma ACOCT de E. coli.
[0131] Cada cópia de um gene relacionado ao catabolismo de oxalato foi operacionalmente ligada a uma cópia de um promotor derivado de fago, P_BfP1E6 (SEQ ID NO: 68) ou uma versão enfraquecida do mesmo, P_BfP4E5 (SEQ ID NO: 69). Outros promotores, incluindo P_BfP2E5 (SEQ ID NO: 80), e outros que correspondem a uma sequência consenso derivada de fago (SEQ ID NO: 70), também podem ser usados. Para otimizar a taxa de tradução das enzimas, as enzimas foram fundidas a um peptídeo líder acoplado a um sítio de ligação ao ribossomo de alta força (RBS) (SEQ ID NO: 78) ou uma enzima repórter de luciferase NanoLuc acoplada a um RBS de alta força (SEQ ID NO: 79). Outros sítios de ligação ao ribossomo e fusões traducionais também podem ser usados. Os plasmídeos carregam um gene NBU2 integrase, que catalisa a integração genômica do plasmídeo na extremidade 3’ de um gene serina-tRNA no genoma de Bacteroides.
[0132] Uma vez construídos, os plasmídeos foram transformados em células doadoras de Escherichia coli S17-1 portadoras de plasmídeo conjugativo RK2. A maquinaria conjugativa RK2 permite a transferência conjugativa de plasmídeos com uma origem de transferência de RP4 para uma variedade de espécies, incluindo Bacteroides. Essas células foram misturadas com células receptoras de Bacteroides e plaqueadas em placas de ágar BHI não seletivas para uma incubação durante a noite a 37 °C. Posteriormente, as placas foram raspadas e a mistura de E. coli S17-1 e Bacteroides foi transferida para meios seletivos com gentamicina para suprimir a E. coli e cultivada sob condições anaeróbicas. Múltiplos marcadores seletivos (tais como tetraciclina, eritromicina ou cloranfenicol) podem ser usados para entregar múltiplos construtos em uma única cepa de Bacteroides. Exemplo 2 - Teste In vitro De Degradação De Oxalato Em Cultura Líquida
[0133] Os Bacteroides projetados, construídos como descrito no Exemplo 1, foram avaliados para a capacidade de degradação de oxalato em um ensaio in vitro. As células de Bacteroides foram diluídas de uma cultura durante a noite 1:10 em meios líquidos BHIS com 10 ou 30 mM adicionados de oxalato de sódio. As culturas foram incubadas anaerobicamente a 37 °C durante a noite. Depois de 48 horas, as culturas foram centrifugadas para separar as células, e o sobrenadante foi retirado para análise. As amostras foram analisadas usando um kit oxalato oxidase de 595 nm (Sigma-Aldrich, Catálogo # MAK315-1KT) e comparadas com uma curva padrão de modo a calcular as taxas de consumo de oxalato. Os dados resultantes dos plasmídeos de teste pZR748 (SEQ ID NO: 63), pZR753 (SEQ ID NO: 64), pZR753 + pZR761 (SEQ ID NOs: 64, 65) e pZR856 + pZR878 (SEQ ID NOs: 66, 67) em um ambiente de Bacteroides vulgatus ATCC 8482 são mostrados na FIGURA 4. Como representado, o consumo de oxalato de cada cepa projetada foi aumentado em relação ao tipo selvagem, que não mostrou capacidade para consumo de oxalato. Exemplo 3 - Engenharia De Consumo de Nutriente Privilegiado Em Bacteroides
[0134] Um loco de utilização de polissacarídeos (PUL) é um elemento genético móvel que confere a capacidade de consumir novos carboidratos a uma bactéria. Um PUL de consumo de porfirano foi identificado no isolado da cepa NB001 de Bacteroides que consome porfirano (SEQ ID NO: 72) e uma região 60kb do PUL foi clonada em um cromossomo bacteriano artificial (BAC) para criar pWD035 (SEQ ID NO: 73). O conteúdo de pWD035 é mostrado na FIGURA 5.
[0135] O plasmídeo pWD035 foi conjugado em Bacteroides vulgatus ATCC 8482 usando E. coli S17-1 para gerar a cepa NB075. Essa cepa foi testada para sua capacidade de consumir o polissacarídeo marinho porfirano. As células foram diluídas 1:50 de uma cultura durante a noite em meios mínimos de Salyer contendo 0,2 % de extrato de porfirano de nori Porphyra yezoensis. Durante 14 horas de incubação anaeróbica a 37 °C, a OD600, representando o crescimento de células, foi medida usando um leitor de placa. Os resultados, mostrados na FIGURA 6, demonstraram que apenas as células que receberam o PUL porfirano ganharam a capacidade de consumir porfirano para crescimento. Exemplo 4 - Cepas de Engenharia Que Possuem Consumo De Oxalato E Um Nutriente privilegiado
[0136] A FIGURA 7 mostra plasmídeos (SEQ ID NO: 75-77) que podem ser usados individualmente ou em combinação para gerar Bacteroides com capacidades de degradação de oxalato de alta eficiência. pZR0879 (SEQ ID NO: 75) inclui sequências de codificação para uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma ACOCT de E. coli e uma OxIT de O. formigenes. pZR0901 (SEQ ID NO: 76) inclui sequências de codificação para uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma OXS de A. thaliana, uma ACOCT de E. coli e uma OxIT de O. formigenes. pZR1871 (SEQ ID NO: 77) inclui sequências de codificação para uma FCOCT de E. coli, uma OXC de O. formigenes, uma OXS de S. cerevisiae, uma OXC de S. cerevisiae, uma OXS de A. thaliana, uma ACOCT de E. coli e uma OxIT de O. formigenes.
[0137] Cepas que são capazes de consumir simultaneamente porfirano e oxalato foram geradas pela conjugação e plaqueamento seletivo de plasmídeos pZR0879, pZR0901 e pZR1871 na cepa NB075 (descrito no Exemplo 3). Um vetor vazio (pZR1622, SEQ ID 74) também foi incluído de modo a construir uma cepa controle que não consome oxalato. Para duas das conjugações (pZR879 e pZR1871), de modo a encontrar cepas com taxas aumentadas de consumo de oxalato, ~3.000 colônias foram isoladas de uma placa seletiva individual. Esses isolados clonais foram então submetidos a uma versão modificada do ensaio de consumo de oxalato descrito no Exemplo 1, que foi conduzido em alto rendimento em um robô de manipulação de líquido acústico Labcyte Echo 525. Aproximadamente 0,001 % dos isolados clonais provaram ser outliers que demonstraram taxas de consumo de oxalato significativamente mais rápidas que a maioria dos isolados. O sequenciamento do genoma inteiro em um Illumina iSeq 100 foi usado para confirmar que essas cepas continham duas cópias do plasmídeo de interesse em seu genoma, presumivelmente levando à expressão aumentada dos genes da via de oxalato. Os detalhes das cepas geradas, incluindo o número de cópias de plasmídeos, são representados na Tabela
1.
TABELA 1 - Cepas de Bacteroides projetadas para consumir porfirano e oxalato Nome da Cepa Nome do SEQ Cópias Consumidora Consumidora Cepa Parental Plasmídeo ID Integradas de Porfirano de Oxalato B. vulgatus - - - - Não Não 8482 B. NB075 vulgatus pWD035 73 1 Sim Não 8482 NB124 NB075 pZR1622 74 1 Sim Não sWW152 NB075 pZR0901 76 1 Sim Sim NB120 NB075 pZR1871 77 1 Sim Sim sWW554 NB075 pZR0879 75 2 Sim Sim sWW626 NB075 pZR1871 77 2 Sim Sim
[0138] As quatro cepas que consomem oxalato (sWW152, NB120, sWW554 e sWW626) foram testadas em um ensaio in vitro de consumo de oxalato para comparar suas respectivas taxas de consumo de oxalato. Cada cepa foi cultivada para saturação anaerobicamente em meios BHIS a 37 °C. As culturas foram então peletizadas e recolocadas em suspensão em um décimo do volume inicial com BHIS frescos que tinham sido suplementados com 4mM de oxalato. O plaqueamento de diluição das culturas concentradas de 10 vezes indicou que elas continham ~1x1010 cfu/ml, que é a abundância aproximada que essas cepas atingem no ceco quando deixadas para colonizar o intestino. As culturas concentradas foram transferidas de volta para uma câmara anaeróbica e deixadas incubar a 37 °C. Em intervalos regulares, as alíquotas de cultura foram removidas da câmara anaeróbica, transferidas para gelo, peletizadas e o sobrenadante foi congelado. As alíquotas de sobrenadante foram então medidas para determinar a concentração de oxalato remanescente. Os resultados são representados na FIGURA 8. Como esperado, cada cepa reduziu a concentração de oxalato no sobrenadante, com sWW626, consumindo 75 % do oxalato dentro de 15 minutos. Exemplo 5 - Teste Ex Vivo De Taxas De Consumo De Oxalato Em Conteúdos
Cecais de Rato
[0139] As cepas que consomem oxalato/porfirano candidatas descritas no Exemplo 4 foram em seguida submetidas a um ensaio ex-vivo de consumo de oxalato projetado para simular as condições in vivo o mais próximo possível. Primeiro, os cecos de múltiplos ratos Sprague-Dawley alimentados com uma dieta de baixo teor de oxalato foram colhidos e os conteúdos foram extrusados e diluídos 3 vezes em água destilada para ajudar na pipetagem. O oxalato foi adicionado a uma concentração final de 4mM. Cepas que consomem oxalato foram então adicionadas a uma concentração final de 1x1010 cfu/ml para corresponder à sua abundância esperada in vivo no ceco. O consumo de oxalato com o passar do tempo foi monitorado como descrito acima. Os resultados são representados na FIGURA 9. Novamente, cada cepa consumiu oxalato nos conteúdos cecais, embora a taxa de consumo de oxalato nos conteúdos cecais fosse ~10 vezes mais lenta que tinha sido em meios BHIS. Exemplo 6 - Eficácia In Vivo Em Um Modelo De Rato De Hiperoxalúria Secundária
[0140] Para demonstrar que as cepas de Bacteroides que consomem oxalato podem ser usadas para tratar hiperoxalúria, cepas candidatas foram submetidas a teste in vivo em um modelo de rato de hiperoxalúria secundária. A hiperoxalúria foi induzida através de uma dieta de baixo teor de cálcio que causa absorção excessiva de oxalato dietético. A FIGURA 10 e a FIGURA 11 representam os resultados de experimentos in vivo projetados para testar a eficácia de cepas terapêuticas candidatas sWW152 e sWW554, respectivamente. Os ratos Sprague-Dawley machos pesando aproximadamente duzentos gramas foram alojados individualmente em gaiolas metabólicas (Tecniplast, 3700M022) e alimentados com uma dieta básica de baixo teor de cálcio (<0,01 %) e baixo teor de oxalato (Envigo, TD.160869). A urina de vinte e quatro horas foi coletada diariamente e analisada para o oxalato total ao longo de cada experimento. Começando no dia três e continuando pelo restante do experimento, 52 µmol de oxalato por dia (FIGURA 10) ou 30 µmol de oxalato por dia (FIGURA 11) na forma de espinafre fresco foram adicionados à dieta básica, resultando em hiperoxalúria. Começando no dia dois (FIGURA 10) ou dia sete (FIGURA 11) e continuando pelo restante do experimento, 780 mg porfirano/dia também foram adicionados à dieta básica. No dia sete, uma cepa controle incapaz de degradar oxalato (NB075 na FIGURA 10 ou NB124 na FIGURA 11) ou a cepa terapêutica de degradação de oxalato (sWW152 na FIGURA 10 ou sWW554 na FIGURA 11) foi administrada adicionando-se 109 cfu à água potável. A adição de sWW152 resultou em uma redução de 32 % no oxalato na urina em comparação com a cepa controle (FIGURA 10, p=0,005), enquanto a adição da cepa sWW554 melhorada resultou em uma redução de 46 % no oxalato na urina em comparação com a cepa controle (FIGURA 11, p=0,0003). Ambas as cepas controle e terapêuticas colonizaram o intestino do rato em alta abundância na presença de porfirano, perfazendo aproximadamente 3*109 cfu/mL de fezes dentro de poucos dias (FIGURA 12). Esses resultados demonstram a capacidade de Bacteroides de degradação de oxalato projetados para reduzir o oxalato urinário em um modelo de roedor de hiperoxalúria secundária. Além disso, dado que a cepa sWW554 teve um impacto terapêutico maior que a sWW152, a taxa crescente de consumo de oxalato da cepa pareceu se traduzir em eficácia in vivo melhorada. Exemplo 7 - Eficácia In Vivo Em Um Modelo De Rato De Hiperoxalúria Secundária
[0141] Para demonstrar que as cepas de Bacteroides que consomem oxalato podem ser usadas para tratar hiperoxalúria, as cepas candidatas foram submetidas a teste in vivo em um modelo de rato de hiperoxalúria secundária.
[0142] sWW626 (como descrita no Exemplo 4) foi modificada para conter um cassete de resistência a eritromicina para criar a cepa sWW627. A FIGURA 13A e a
FIGURA 13B representam os resultados de experimentos in vivo projetados para testar a eficácia de cepas terapêuticas candidatas sWW627.
[0143] Ratos Sprague-Dawley machos pesando aproximadamente seiscentos gramas foram alojados individualmente em gaiolas metabólicas (Tecniplast, 3701M081) e alimentados com uma dieta básica de alto teor de gordura (40 %) contendo 86 µmol de oxalato diário por rato. A urina de vinte e quatro horas foi coletada diariamente e analisada para o oxalato total ao longo de cada experimento. O oxalato basal na urina foi medido nos dias 1 e 2. Começando no dia três e continuando pelo restante do experimento, espinafre foi adicionado à dieta básica, resultando em hiperoxalúria. No dia 7, os ratos foram inoculados com nenhuma cepa, uma cepa controle capaz de crescer em porfirano, mas sem os genes de consumo de oxalato (NB124) ou uma cepa terapêutica capaz de crescer em porfirano e consumir oxalato (sWW627). As cepas foram administradas adicionando-se 109 cfu à água potável. Começando no dia 12, porfirano foi adicionado à água potável (e aumentado ao longo do curso do experimento como mostrado na FIGURA 13A e na FIGURA 13B.)
[0144] A abundância de cepa, medida pela enumeração de unidades formadoras de colônia (CFU) por grama de fezes, é mostrada na FIGURA 13A. Como representado, um aumento na abundância de cepa correspondeu a maiores concentrações de porfirano na dieta. O oxalato na urina é mostrado na FIGURA 13B. Como representado, a administração da cepa sWW627 reduz o oxalato na urina em relação a nenhuma cepa ou a cepa controle. A redução no oxalato na urina pela sWW627 aumentou conforme as concentrações de porfirano na dieta aumentaram. Exemplo 8 - Eficácia In Vivo Em Um Modelo De Rato De Hiperoxalúria Secundária
[0145] Para demonstrar que as cepas de Bacteroides que consomem oxalato podem ser usadas para tratar hiperoxalúria, as cepas candidatas foram submetidas a teste in vivo em um modelo de rato de hiperoxalúria secundária.
[0146] A hiperoxalúria foi induzida em ratos através de cirurgia de Bypass gástrico em Y-de-Roux (RYGB). Os ratos foram alimentados com uma dieta que incluiu porfirano, cálcio e espinafre. A urina de cada animal foi coletada e o volume e a concentração de oxalato foram medidos a cada dia. A concentração de oxalato foi medida por meio do Kit EnzyChrom Oxalate Assay (BioAssay Systems, Hayward, CA). Os ratos foram administrados com uma cepa terapêutica capaz de crescer em porfirano e consumir oxalato (sWW627, descrita no Exemplo 7) ou uma cepa controle.
[0147] Os resultados são representados na FIGURA 14. Os ratos que receberam cirurgia de RYGB e foram administrados com uma cepa controle mostraram um nível mais alto de oxalato na urina que os ratos que foram submetidos a uma cirurgia simulada. Os ratos que receberam a cirurgia de RYGB e foram administrados com uma cepa terapêutica (sWW627) mostraram oxalato reduzido na urina em relação aos ratos administrados com a cepa controle e reverteram os impactos da cirurgia de RYGB. Exemplo 8 - Engenharia De Sítios De Ligação Ao Ribossomo (RBSs)
[0148] Os sítios de ligação ao ribossomo (RBSs) foram triados a partir de uma biblioteca sintética para produzir um conjunto de sequências de RBS que pode ser usado para ajustar a expressão de genes de degradação de oxalato. Para cada gene de consumo de oxalato de interesse, mais de 1000 sequências de RBS foram triadas de uma biblioteca onde a sequência degenerada NNNNNNNNWWWAAAWWTWANAAA foi localizada imediatamente a montante do sítio de partida de tradução de cada gene. Cada gene também foi traducionalmente fundido ao terminal C a uma proteína luciferase. A montante de cada RBS, a transcrição foi conduzida pelo promotor P_BfP1E6 (SEQ ID NO: 68). Os plasmídeos contendo o cassete de expressão foram genomicamente integrados em Bacteroides vulgatus e clones individuais de RBSs únicos foram cultivados para saturação em meios BHIS. A luminescência de cada cultura saturada foi medida com o Nano-Glo Luciferase Assay System (Promega Corporation, Madison, WI).
[0149] A FIGURA 15A descreve os valores de luminescência para cada clone de cada gene indicado. Os clones selecionados foram isolados e sequenciados para determinar cada sequência de RBS de interesse. As SEQ ID NOs: 96 a 103 representam uma sequência de codificação de OXS de A. thaliana com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 96 a 103 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 104 a 111 representam uma sequência de codificação de OXS de S. cerevisiae com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 104 a 111 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 112 a 119 representam uma sequência de codificação de OXC de O. formigenes com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 112 a 119 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 120 a 127 representam uma sequência de codificação de OXC de S. cerevisiae com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 120 a 127 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 128 a 135 representam uma sequência de codificação de ACOCT de E. coli com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 128 a 135 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 136 a 143 representam uma sequência de codificação de FCOCT de E. coli com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 136 a 143 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 144 a 151 representam uma sequência de codificação de OxIT de O. formigenes com oito RBSs de interesse. Os RBSs nas SEQ ID NOs: 144 a 151 são referidos como RBS1-8, respectivamente. As SEQ ID NOs: 152 a 162 representam uma sequência de codificação de OXC de S. cerevisiae de códon otimizado com onze RBSs de interesse. Os RBSs nas SEQ ID NOs: 152 a 162 são referidos como RBS1-8, RBS1b, RBS2b e RBS3b, respectivamente.
[0150] Os plasmídeos foram reconstruídos com a sequência acima e genomicamente incorporados em Bacteroides vulgatus. A luminescência das culturas foi avaliada como descrito acima. Os resultados são mostrados na FIGURA 15B.
[0151] Exemplo 9 - Teste In Vitro De Degradação De Oxalato Em Cultura Líquida
[0152] Os Bacteroides projetados foram avaliados para a capacidade de degradação de oxalato em um ensaio in vitro.
[0153] As células Bacteroides foram diluídas a partir de uma cultura durante a noite 1:10 em meios líquidos BHIS com 16 mM adicionados de oxalato. As culturas foram incubadas anaerobicamente a 37 °C. Depois de 20 horas, as culturas foram centrifugadas para separar as células e o sobrenadante foi retirado para análise. As amostras foram analisadas usando um kit oxalato oxidase de 595 nm (Sigma-Aldrich, Catálogo # MAK315-1KT) e comparadas com uma curva padrão de modo a calcular as taxas de consumo de oxalato.
[0154] As cepas testadas incluíram NB136 (não contendo nenhum gene de consumo de oxalato introduzido), sWW152 (como descrito no Exemplo 4), sWW627 (como descrito no Exemplo 7) e sWW1077. SWW1077 contém a SEQ ID NO: 82, que inclui uma via de consumo de oxalato projetada junto com os RBSs projetados identificados no Exemplo 8 (incluindo RBS2-FCOCT de E. coli (SEQ ID NO: 137), RBS2-OXC de O. formigenes (SEQ ID NO: 113), RBS2-OxIT de O. formigenes (SEQ ID NO: 145), RBS1-ACOCT de E. coli (SEQ ID NO: 128) e RBS1-OXS de S. cerevisiae (SEQ ID NO: 104)). Os resultados são mostrados na FIGURA 16. Como representado, o consumo de oxalato de cada cepa projetada foi aumentado em relação à cepa controle e o maior consumo de oxalato foi observado para sWW1077.
INCORPORAÇÃO POR REFERÊNCIA
[0155] A divulgação completa de cada uma das patentes e documentos científicos referidos aqui é incorporada por referência para todos os propósitos.
EQUIVALENTES
[0156] A divulgação pode ser incorporada em outras formas específicas sem se afastar do espírito ou características essenciais da mesma. As modalidades anteriores devem, portanto, serem consideradas, em todos os aspectos, ilustrativas em vez de limitativas da divulgação aqui descrita. O escopo da divulgação é, portanto, indicado pelas reivindicações anexas em vez da descrição anterior e todas as alterações que vêm dentro do significado e intervalo de equivalência das reivindicações são intencionados a estarem abrangidos nas mesmas.
LISTAGEM DE SEQUÊNCIAS
[0157] SEQ ID NO: 1 (Acetil-CoA:oxalato CoA-transferase (ACOCT) de cepa Acetobacter aceti 1023; EC 2.8.3.19; Acesso UniProt A9X6P9; Aa_CoAT3):
ATGACTGAAACCACGCCAGCAAAACCGAAGGGGCCCTTTGATGGGCTC
CTCGTTATTGATCTGACACATGTGCTGAATGGTCCGTTCGGCACAACAATTCTAA
CAGATCTGGGGGCTCGTACAATCAAGATCGAGCCACCGGGGCATGGGGATGAT
ACGCGTACCTATGGCCCATATGTTGGAGATCAATCGCTTTACTTCTCTTTTGTAA
ACAGGGGAAAGGAAAGCATTGTCCTTAACCTCAAGGATGAGGGCGATCGAGCG
ATTTTTCTGGAAATGGTGCGTAAGGCCGATGTGCTGGCGGAAAACTTCCGCCCC
GGCGTGATGGACCGTTTGGGTTTCAATTATGAGGAACTGGCAAAGATCAATCCA
CGGTTGATTTATGCATCTTCATCAGGGTTCGGTCAGACAGGCCCGCTCGCACAT
TATCCTGCCTACGATACTATTGTGCAGGCCATGAGCGGCATCATGATGGCCACG
GGCTTTCCCGATGGTCCGCCAACGCGGGTAGGGGGCACATCGCTTTCTGATCT
GTGCGGTGGGGTTTTCATGTTCTGCGGCATTGCCAGTGCGCTTTATGCGCGTG
AGCGCACAGGGAAAGGGGCACACATTGATGTTTCAATGTTTGATGGTACCTTGG
CATTTTTGCAGCATGCTCTGATGTGCTGGTCTGCTACAGGCAAAGCCCCTGCGC
GTATTGGCAATCGCCATCCTTATATGGCGCCTTTTGATGTGTTTCAGGCGCAGG
ACAAGCCTTTTGTCATCTGTTGTGGGAATGACCATCTTTTTAAGGCGCTTTGCGA
TGTGATTGGTGCGCCTGAACTGGCGACAGACCCGCGTTTTGTCGAAAATCATGA
TAGAATGGCCAATAATGATGCGCTGAAAGCTGCATTGGAAAAAGCACTTTCCAA
ACAGCCAGCGGCGCATTGGCTGGATGTTATTCACAAAGCCGGTGTGCCTGTTG
GGCCGTTGCTGGACGTGGCAGAGGCGGCAAATCTGCCACAAACAGCCGCGCG
GAATATGCTGATTAAATCTGGCGGGGTGATGATGCCCGGTAACCCGGTGAAAAT
CAGTGGGTATGATGACCCACATGAACGGCCCGGCGCCCCTAAGCTGGATGAGC
AGGGCGCGGCGTTGCGTAAGGAATTTGCCGCACCAGAGGCAAAATGA
[0158] SEQ ID NO: 2 (Acetil-CoA:oxalato CoA-transferase (ACOCT) de Escherichia coli MG1655; EC 2.8.3.19; Acesso UniProt P76518; Ec_yfdE):
ATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCG
ATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGG
CGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATT
TGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATAT
GCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAAA
ACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATATGC
TTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTACGA
TACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTGATGC
TCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGTCTATTT
ATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGAGAGGGG
CGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGAGCATGGTC
TGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGAAATCGCCATC
CCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCCGATTACGATTTG
TTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACTGGAGCTTACGGA
ACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCGTACAAAACCAGGCT
ATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGT
TAGCCAGAATACATGAAGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTG
AGGCCATTAAATTGCCACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGG
GAATAATGATGCCGGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCAT
GTTATGCCGGGAGCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGA
GTTCTCATCATAA
[0159] SEQ ID NO: 3 (Formiato desidrogenase de Saccharomyces cerevisiae S288C; EC 1.2.1.2; Acesso UniProt Q08911; Sc_FDH1):
ATGTCGAAGGGAAAGGTTTTGCTGGTTCTTTATGAAGGTGGTAAGCATG
CTGAAGAGCAGGAAAAGTTATTGGGGTGTATTGAAAATGAACTTGGTATCAGAA
ATTTCATTGAAGAACAGGGATACGAGTTGGTTACTACCATTGACAAGGACCCTG
AGCCAACCTCAACGGTAGACAGGGAGTTGAAAGACGCTGAAATTGTCATTACTA
CGCCCTTTTTCCCCGCCTACATCTCGAGAAACAGGATTGCAGAAGCTCCTAACC
TGAAGCTCTGTGTAACCGCTGGCGTCGGTTCAGACCATGTCGATTTAGAAGCTG
CAAATGAACGGAAAATCACGGTCACCGAAGTTACTGGTTCTAACGTCGTTTCTG
TCGCAGAGCACGTTATGGCCACAATTTTGGTTTTGATAAGAAACTATAATGGTGG
TCATCAACAAGCAATTAATGGTGAGTGGGATATTGCCGGCGTGGCTAAAAATGA
GTATGATCTGGAAGACAAAATAATTTCAACGGTAGGTGCCGGTAGAATTGGATA
TAGGGTTCTGGAAAGATTGGTCGCATTTAATCCGAAGAAGTTACTGTACTACGA
CTACCAGGAACTACCTGCGGAAGCAATCAATAGATTGAACGAGGCCAGCAAGCT
TTTCAATGGCAGAGGTGATATTGTTCAGAGAGTAGAGAAATTGGAGGATATGGT
TGCTCAGTCAGATGTTGTTACCATCAACTGTCCATTGCACAAGGACTCAAGGGG
TTTATTCAATAAAAAGCTTATTTCCCACATGAAAGATGGTGCATACTTGGTGAATA
CCGCTAGAGGTGCTATTTGTGTCGCAGAAGATGTTGCCGAGGCAGTCAAGTCT
GGTAAATTGGCTGGCTATGGTGGTGATGTCTGGGATAAGCAACCAGCACCAAAA
GACCATCCCTGGAGGACTATGGACAATAAGGACCACGTGGGAAACGCAATGAC
TGTTCATATCAGTGGCACATCTCTGGATGCTCAAAAGAGGTACGCTCAGGGAGT
AAAGAACATCCTAAATAGTTACTTTTCCAAAAAGTTTGATTACCGTCCACAGGAT
ATTATTGTGCAGAATGGTTCTTATGCCACCAGAGCTTATGGACAGAAGAAATAA
[0160] SEQ ID NO: 4 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Bifidobacterium animalis subsp. lactis DSM 10140; EC 2.8.3.16; Acesso UniProt
B9X295; Ba_frc):
ATGGCTGACAAAAGCACTGCCCCACTGGCAGGCATCAAGGTAATCGAC
TGGACGCAGGTTCAGTCTGGCCCTTCGTGCACCCAGATTCTCGCATGGCTGGG
CGCCGAGGTCATCAAGCTCGAGAAGGTGCATGGCGGCGACCCGACCCGTAAC
GAGATGAACGACGTCGACGGCTCGTACTCGCTGTACTTCCTGCAGCTCAACGC
CAACAAGAAGTCGATCACGCTCGACATGAAGGACCCGGAAGGCAAGAAGATCC
TCACCGACCTGCTCAAGGACGCAGACGTGTTCGTAGAGAACATCGGCCCAGGC
GACGTGGAAAAGCTCGGCTTCGGTTGGGACGAGGTCCACAAGATCAACCCGAA
GCTCATCATGGCCTCGCTCAAGGGATTCAACCAGGGCAGCCGCTTCGAACATG
TCAAGGCCTTCGAGCCTGTCGCCCAGTGCGCAGGCGGCGCTGCTTCGACCACC
GGCTGGTGGGAAGGCGACAAGAACATCCCGACGCAGTCCGGCGCTGCCCTTG
GTGATTCGAACACCGGTATGCACCTGACGATTGCAATCCTCACCGCACTGCTGC
AGCGCGAGCGCACCGGCGAAGGCGTGTTCGTGTACCAGTCCATGCAGAATGCA
GTGCTCAACCTATGCCGCATCAAGCTGCGTGATCAGCTCATTCTCGATCACCTA
CACCAGCTTTCCTACTACGACTGCTACCCGGGCTACAAGTTCGGCAAAGCGATT
CCGCGTGCGGCCAATGCCGAGGGCGGACTCGTGCTCGGCTGGTGCTATCGCG
CCAAGGGCTGGGAAACCGATCCGAACGCCTATGTGTACATTGTGATTCAGCAGT
CGCAGAAGGGATTCGAGAACTTCTGCAACGCCATGGGCTTCCAGGATTGGCTC
ACCGATCCGAAGTTCAGCACGCCGAACGCTCGCGATGAGCACAAGCAGGAAGT
GTACAAGCGCGTCGAGGAATACACGATGCAGTACGACAAGTACACGCTCACCA
AGGAACTCGGCGCCAAGGGCGTTCCGGTGGGCCCGGTGCTCGATTGGAACGA
ACTCGAAAACGATCCGGATCTCAACGAGGATGGCACGCTGATCACGATCGATCA
GGGCGACGCCCGCGGCAAGTTCAAGACGATCGGCCTGCCGTTCACGATGAGC
AACTATGCGCCGGATTACCAGCGCGCGCCGAAGCTCGGCGAGAACAACGAGG
AGATTCTCAAGTCCCTCGGCTACACCGACGAGCAGATCGCCGATCTGGCGACC
AAGGGCGTCATCGGCTCGAACGATGGCGTCAAGGCAGACCTCACCGCCGCTCC
GGCACAGGCCTGA
[0161] SEQ ID NO: 5 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.16; Co_frc1):
ATGCCTGCACAACACACCCATGCCACGCCCGCCGGCCCGCTCGACGG
CATCCGCGTGCTCGACCTGACCGCGGTCGTGCTCGGCCCGCTGGCCACGCAG
GTGCTGGCCGATTTTGGCGCCGACGTGATCAAGATCGAGGGGCCGGAAGGCG
ACCTGATGCGCGCCAACGGCGTGTCGCAGCACGCCGGCATGAGCTCGATCTAC
CTGGCGCTGAACCGCAACAAGCGCTCGGTCGTGCTCGACCTGAAAATCCCCGA
GGGCGCCGAAGCGCTGCGCGCGCTGATCGCCGGCGCCGACGTGCTGGTGCA
CAACATGCGCGTGGCGGCGATCGAGCGGCTTGGTTTTGGCTACGAGGCCGTC
GCACGCATCAACCCGCGCATCGTCTACTGCGTCGCCACCGGCTTCGGCCAGGA
CGGCCCGCACCGCGACAAGCCCGCCTTCGACGACATCATCCAGGCCGGCTGC
GGACTGGTGGCGCTGGGCGCCGGCAACGGCGAGCGGCCGGAATACGTGCCC
AGCCTGATCGCCGACAAGACCACCGGGCTGGCGCTGGCCAATGCCGTGCTGG
CCGCGCTGCTGCACCGCGAACGCCATGGCGTGGGCCAGTCGGTCGAAGTGCC
GATGCTGGAAACCATGGCCGCCTTCGTGATGACCGAGCACCTGGGCGGGCTGA
CCTTCGAGCCCGCCCCCGCCGGCGCGGGCTATGCGCGGCTACTGCAGGGCGG
CCGCCGCCCGGCGCCGACGCGCGACGGCTGGATCTGCGCGCTGCCCTATACC
GAGCGCCACTGGCATGCCTTCTTCCGCGCGGTGGGTCGCGATGACCTTGCCGA
CCGTTACGAAGTCGGCGACCGCGCACAGCGCAATGCCAATATCCGCGCGCTGT
ACGGCCATCTTGCCGAACTGACCCCGGAGCGCAGCACCGCAGAATGGATGGC
GCTGTTCGAAGCGCTCGACATCCCCGCCACGCCGATCTACGACCTCGATGCGC
TGGTCGACCATCCGCACCTGCGCGCGGTGGGACTGTTCCAGGCCACGCAGCA
CCCCACCGAAGGCCCGCTGCGCGAAGTGCGCCCGGCCGCGCGCTTCTCGGCC
ACGCCGCTGTCGTTGCGCCGGCATGCGCCGGCACTGGGCGAACACACCGCCG
AAGTCTTGCAGGAAGCCGGCATCGCCCTGCCCGCCGCGCATGCCGGCACACC
CGCCGGCGCTCAGGAATAA
[0162] SEQ ID NO: 6 (Formil-CoA:oxalato CoA-transferase (FCOCT) de
Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.16; Co_frc2):
ATGAACCTCCCGCTCAACGGCATCAAGATCATCGACTTCACGCACGTCC
AGGCCGGCCCCGCGTGCACGCAGCTGCTGGCATGGTTCGGCGCAGACGTCAT
CAAGGTGGAGCGCCCCGGTTCCGGCGACGTGACGCGCACGCAGCTGCGCGAC
ATCCCGGATGTCGACGCGTTGTACTTCACCATGCTCAACTCCAACAAGCGCAGC
CTGACGCTGGACACCAAGAAGCCCGAAGGCAAGAAGATCCTGGAGCAGCTGAT
CCGCGAGTCGGACGTGCTGGTCGAGAACTTCGGCCCGGGTGCGCTGGACCGC
ATGGGCTTCTCGTGGGAACGCATCAACGAGCTGAACCCGAAGATGATCGTGGC
CTCGGTCAAGGGCTTCAGCGACGGCCATCACTATGAAGACCTGAAGGTCTATG
AAAACGTGGCGCAGTGCGCGGGCGGTGCGGCGTCGACCACGGGCTTCTGGGA
TGGTCCTCCCACCGTTTCCGCAGCGGCGCTCGGCGATTCGAACACCGGCATGC
ACCTGGCCATCGGCATCCTGACCGCGCTGATCGGCCGCGACAAGACCGGCAA
GGGCCAGAAGGTGGCCGTGTCGATGCAGGACGCCGTGCTCAACCTGTGCCGC
GTCAAGCTGCGCGACCAGCAGCGCCTGGACCGCCTGGGCTTCCTGGAAGAGT
ATCCGCAGTACCCGCATGGCAGCTTCAGCGACGTGGTGCCGCGCGGCGGCAA
CGCTGGCGGCGGCGGCCAGCCGGGCTGGGTGCTGAAGTGCAAGGGCTGGGA
AACCGACCCCAACGCCTATATCTACTTCACCATCCAGGGCCATGCCTGGGAGC
CGATCTGCAAGGCGCTCGGCAAGCCGGAATGGATCGACGATCCCAACTACGCC
ACCGCCAAGGCACGCCAGCCGCATATCTTCGATATCTTCAACACCATCGAGGAA
TGGCTCGCCGACAAGACCAAGTACGAGGCGGTGGACATCCTGCGCAAGCATGA
CATCCCGTGCTCGCCGGTGCTGTCGATGAAGGAGATCGCGGCCGATCCGTCGC
TGCGCGCCAGCGGCAGCATCACCGAGGTGCCACACAAGGAGCGCGGCACGTA
CCTGACGGTGGGCAGCCCGATCAAGTTCTCCGACCTCAAGCCGGAAATCACGG
GTTCGCCGCTGCTGGGCGAGCATAGCGAAGAAGTGCTGGCCGGCCTGGGGTA
CGGCACGGACGACATCAAGCGCCTGCGCGAGTCCCAGGTGATCTGA
[0163] SEQ ID NO: 7 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Escherichia coli MG1655; EC 2.8.3.16; Acesso UniProt P69902; Ec_frc):
ATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCA
ATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAA
AATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTC
CTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGA
GTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGCGA
AGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGGCTT
CACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGATCAAA
GGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACGTTGCTC
AGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCCGCCGCT
GGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGCTGATCG
GTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAACGAGTC
ACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTACGTGAC
CAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATCCGAAT
GGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGCGGTCA
GCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGCCTATAT
TTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATCGGCAAA
CCAGAATGGATTACCGATCCGGCATACAGTACAGCCCATGCACGACAGCCACAT
ATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATAAACATGA
AGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTTAAGTATG
AAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTG
GAACAACCGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCT
GCCTTTACGCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCT
GTATTGCAGGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAAC
CACGCCATCTGA
[0164] SEQ ID NO: 8 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Oxalobacter formigenes DSM 4420; EC 2.8.3.16; Acesso UniProt O06644; Of_frc):
ATGACTAAACCATTAGATGGAATTAATGTGCTTGACTTTACCCACGTCCA
GGCAGGTCCTGCCTGTACACAGATGATGGGTTTCTTGGGCGCAAACGTCATCAA
GATTGAAAGACGTGGTTCCGGAGATATGACTCGTGGATGGCTGCAGGACAAAC
CAAATGTTGATTCCCTGTATTTCACGATGTTCAACTGTAACAAACGTTCGATTGA
ACTGGACATGAAAACCCCGGAAGGCAAAGAGCTTCTGGAACAGATGATCAAGAA
AGCCGACGTCATGGTCGAAAACTTCGGACCAGGCGCACTGGACCGTATGGGCT
TTACTTGGGAATACATTCAGGAACTGAATCCACGCGTCATTCTGGCTTCCGTTAA
AGGCTATGCAGAAGGCCACGCCAACGAACACCTGAAAGTTTATGAAAACGTTGC
ACAGTGTTCCGGCGGTGCTGCAGCTACCACCGGTTTCTGGGATGGTCCTCCAA
CCGTTTCCGGCGCTGCTCTGGGTGACTCCAACTCCGGTATGCACCTGATGATC
GGTATTCTGGCCGCTCTGGAAATGCGTCACAAAACCGGCCGTGGTCAGAAAGT
TGCCGTCGCTATGCAGGACGCTGTTCTGAATCTGGTTCGTATCAAACTGCGTGA
CCAGCAACGTCTGGAAAGAACCGGCATTCTGGCTGAATACCCACAGGCTCAGC
CTAACTTTGCCTTCGACAGAGATGGTAACCCACTGTCCTTCGACAACATCACTTC
CGTTCCACGTGGTGGTAACGCAGGTGGCGGCGGCCAGCCAGGCTGGATGCTG
AAATGTAAAGGTTGGGAAACCGATGCGGACTCCTACGTTTACTTCACCATCGCT
GCAAACATGTGGCCACAGATCTGCGACATGATCGACAAGCCAGAATGGAAAGA
CGACCCAGCCTACAACACATTCGAAGGTCGTGTTGACAAGCTGATGGACATCTT
CTCCTTCATCGAAACCAAGTTCGCTGACAAGGACAAATTCGAAGTTACCGAATG
GGCTGCCCAGTACGGCATTCCTTGCGGTCCGGTCATGTCCATGAAAGAACTGG
CTCACGATCCTTCCCTGCAGAAAGTTGGTACCGTCGTTGAAGTTGTCGACGAAA
TTCGTGGTAACCACCTGACCGTTGGCGCACCGTTCAAATTCTCCGGATTCCAGC
CGGAAATTACCCGTGCTCCGCTGTTGGGCGAACATACCGACGAAGTTCTGAAA
GAACTGGGTCTTGACGATGCCAAGATCAAGGAACTGCATGCAAAACAGGTAGTT
TAA
[0165] SEQ ID NO: 9 (Oxalato decarboxilase (OXDC) de Bacteroides subtilis 168; EC 4.1.1.2; Acesso UniProt O34714; Bs_oxdC):
ATGAAAAAACAAAATGACATTCCGCAGCCAATTAGAGGAGACAAAGGAG
CAACGGTAAAAATCCCGCGCAATATTGAAAGAGATCGGCAAAACCCTGATATGC
TCGTTCCGCCTGAAACCGATCATGGCACCGTCAGCAATATGAAGTTTTCATTCTC
TGATACTCATAACCGATTAGAAAAAGGCGGATATGCCCGGGAAGTGACAGTACG
TGAATTGCCGATTTCAGAAAACCTTGCATCCGTAAATATGCGGCTGAAGCCAGG
CGCGATTCGCGAGCTTCACTGGCATAAAGAAGCTGAATGGGCTTATATGATTTA
CGGAAGTGCAAGAGTCACAATTGTAGATGAAAAAGGGCGCAGCTTTATTGACGA
TGTAGGTGAAGGAGATCTTTGGTACTTCCCGTCAGGCCTGCCGCACTCCATCCA
AGCGCTGGAGGAGGGAGCTGAGTTCCTGCTCGTGTTTGACGATGGATCATTCT
CTGAAAACAGCACGTTCCAGCTGACAGATTGGCTGGCCCACACTCCAAAAGAAG
TCATTGCTGCGAACTTCGGCGTGACAAAAGAAGAGATTTCCAATTTGCCTGGCA
AAGAAAAATATATATTTGAAAACCAACTTCCTGGCAGTTTAAAAGATGATATTGTG
GAAGGGCCGAATGGCGAAGTGCCTTATCCATTTACTTACCGCCTTCTTGAACAA
GAGCCGATCGAATCTGAGGGAGGAAAAGTATACATTGCAGATTCGACAAACTTC
AAAGTGTCTAAAACCATCGCATCAGCGCTCGTAACAGTAGAACCCGGCGCCATG
AGAGAACTGCACTGGCACCCGAATACCCACGAATGGCAATACTACATCTCCGGT
AAAGCTAGAATGACCGTTTTTGCATCTGACGGCCATGCCAGAACGTTTAATTACC
AAGCCGGTGATGTCGGATATGTACCATTTGCAATGGGTCATTACGTTGAAAACA
TCGGGGATGAACCGCTTGTCTTTTTAGAAATCTTCAAAGACGACCATTATGCTGA
TGTATCTTTAAACCAATGGCTTGCCATGCTTCCTGAAACATTTGTTCAAGCGCAC
CTTGACTTGGGCAAAGACTTTACTGATGTGCTTTCAAAAGAAAAGCACCCAGTA
GTGAAAAAGAAATGCAGTAAATAA
[0166] SEQ ID NO: 10 (Oxalato oxidase (OXO) de Hordeum vulgare; EC
1.2.3.4; Acesso UniProt P45850; Hv_OxOx):
ATGTCCGACCCAGACCCACTCCAGGACTTCTGCGTCGCGGACCTCGAT
GGCAAGGCGGTTTCGGTGAACGGGCATACGTGTAAGCCCATGTCGGAGGCCG
GCGACGACTTCCTCTTCTCGTCCAAGCTGACCAAGGCCGGCAACACGTCCACC
CCGAACGGCTCGGCCGTGACGGAGCTCGACGTGGCCGAGTGGCCCGGTACGA
ACACGCTGGGCGTGTCCATGAACCGTGTGGACTTCGCGCCGGGGGGCACCAA
CCCGCCGCACATCCACCCGCGTGCAACCGAGATCGGCATGGTGATGAAAGGTG
AGCTCCTCGTTGGAATCCTCGGCAGCCTTGACTCCGGAAACAAGCTCTACTCCA
GGGTGGTGCGTGCCGGAGAGACTTTCGTCATCCCGCGCGGCCTCATGCACTTC
CAGTTCAACGTTGGTAAGACGGAAGCCTACATGGTTGTGTCCTTCAACAGCCAG
AACCCTGGCATCGTCTTCGTGCCGCTCACACTCTTCGGCTCCGACCCTCCCATC
CCCACGCCCGTGCTCACCAAGGCTCTCCGGGTGGAGGCCGGAGTCGTGGAAC
TTCTCAAGTCCAAGTTCGCCGGTGGGTCTTAA
[0167] SEQ ID NO: 11 (Oxalato oxidorredutase (OOR) da subunidade alfa de Moorella thermoacetica ATCC 39073; EC 1.2.7.10; Acesso UniProt Q2RI41; Mt_OORA!):
ATGGGTAAAGTAAGGAATATCTCTGGATGTGTGGCGGTAGCACATGGTG
TGCGGTTAGCCGATGTCGACGTTATCTGTTCCTATCCCATCCGGCCTTATACCG
GTATCATGTCCGAGCTGGCACGGATGGTTGCCGACGGCGAGTTGGATGCCGAA
TTTGTCCATGGCGAAGGTGAACACGCCCAGTTGAGTGTCGTTTACGGCGCTTCG
GCTGCCGGAGCACGGGTATTCACCGGTAGTTCCGGTGTCGGCGTAACCTATGC
CATGGAAGTCTATTCACCTATCTCTGGTGAACGTTTACCGGTACAGATGGCCATT
GCCGACCGGACCCTGGACCCGCCCGGTGACTTTGGTGAGGAACATACCGATGC
CGAGTGTTGCCGGGACCAGGGCTGGATCCAGGGTTGGGCCTCCACTCCCCAG
GAAGCCCTGGATAACACCTTGATTTACTACCGGGTAGGTGAAGACCAGCGGGT
CTTGTTGCCCCAGTATGCCTGCCTGGACGGGTACTTCGTCAGCCATATCCTAGG
CCCGGTGGATATTCCCGACGAGGCCCAGGTGAAAGAGTTCCTGCCGCCTTACA
AGAATCACCATGTCCTCGATCCCAGGAAGCCCCAGATTATCGGCCCTCAAATTG
AGCCGGCCATGGGACCTCCCCTCCAATACCAGCGTTACCAGGCCGTTAAAGGC
GTGCACAAGGTTCTAGAAGAGGCCTGTGACGAATTCGCCCGGATTTTCGGCCG
CAAGTACGATCCCTACCTTGATGAATACCTGACTGACGATGCCGAGGTTATAAT
CTTCGGCCAGGGCGCCCACATGGAGACTGCTAAAGCGGTAGCCCGGCGCCTG
CGCAACCTTGGTGAAAAGGTAGGAGTAGCGCGGCTACGTACCTTCCGGCCCTT
CCCGACGGAACAAATTAAAGAGCGACTTTCTAAATTCAAGGCTATTGGTGTCCT
CGATGTTTCGGCCAACTTCGGCATTTCCTGCAGCGGCGGCGTCCTCCTGTCCG
AACTGCGGGCCGCCCTCTATGACTACGGCGACAAAGTAAAGACCGTAGGCTTT
GTAGCCGGCCTAGGCGGCGAAGTCGTCACCCACGATGAGTTCTACCGCATGTT
CCAGAAACTAAAGGAGATCGCCAAGACAGGTAAAGTCGAGCAGACCTCTTATTG
GATCCCCTTTGAATTATAA
[0168] SEQ ID NO: 12 (Oxalato oxidorredutase (OOR) da subunidade beta de Moorella thermoacetica ATCC 39073; EC 1.2.7.10; Acesso UniProt Q2RI42; Mt_OORB):
ATGCTGGATCGGATTGCATCTATTAAAAAGGCACCTGATGAGGAATACT
ATGTTCCCGGGCATCGTACCTGTGCCGGCTGCGGCCCGGCCCTGACCTATCGC
CTGGTGGCCAAAGCCGCCGGTCCCAACACCATCTTCATTGGTCCCACCGGCTG
CATGTACGTGGCCAATACCAGCTACGGCTGCGGTCCCTGGCGGGTACCCTGGA
TCCATGCCCAGATCACCAATGGCGGCGCCGTGGCCTCCGGTATTGAGGCCGCC
TATAAGGCTATGATCCGCAAGAAGAAGACCGACGCCGAGTTCCCGAACATTATC
GTTATGGCCGGTGATGGCGGCGCCGTCGATATCGGCCTCCAGGCACTGTCGG
CCATGCTCTATCGCGGTCATGACGTCCTCTTTATCTGCTACGATAACGAGTCCTA
TGCCAATACCGGTATTCAGACCTCCCCGACGACGCCCTACGGGGCTAATACGA
CTTTTACCCCGCCTGGTGAGGTGGTACCGGAGGGCAAGAAGCTCTTCCCGAAG
GATAACCCCAAGGTTATCGCCCACGGTCACCCGGAACTGAAGTATGTCGCCAC
GGCCTCCATCGGCTGGCCGGTAGACCTGATGAACAAGGTCCGTAAGGGCTTAA
ACCAGGAAGGTCCGGCCTATATCCACATCCACGCTCCTTGCCCCAAGGGCTGG
CAGTTCCCGGCCGACAAGACCATTGAAATGGCCAAATTGGCCGTCCAGACGGG
CATGTTCCAGCTCTACGAATATGAGAATGGTGAGTATAAACTGTCGGTTAAAGTC
GATAAACGGAAACCGGTCAGCGAGTACATGAAACTCCAGAAGCGGTTTGCTCAC
CTGAAGCCCGAGCATATCGCCAAGATGCAGGCCTTTGTCGACGCCCGCTGCGC
TGAAGTAGGTATCACCGTGCCGGTAGTCGCTTCCAACGCTTAA
[0169] SEQ ID NO: 13 (Oxalato oxidorredutase (OOR) da subunidade delta de Moorella thermoacetica ATCC 39073; EC 1.2.7.10; Acesso UniProt Q2RI40; Mt_OORD):
ATGTCCACCAAAGATCTCTTTGCTGAACCCAATCTCAAGCAGATTACTGT
GTGGGCCCGGGGCGTTGTCATGAACAAGGACGCCCGTGATATCGTGGTGGCC
CTGACAGAAGCGGCTGCCAAAGAGGGTAAATATGTTCAGGCCTGGGAGAACTA
TGTTGACCTCCCCGACCGGATCTACGTCCCGGTAAGGGCCTATGCCCGCATCA
GCAGCGATCCCATTGAAAGCAAATACATTTACGAGAATGAGACTCCCGACATTG
TTGTTTTAGTTGAAGAATCCCTGATCAAAGGAGTGCCCATACTGAAGGGCATCC
GTCCGGGTAGTACCCTGGTTGTAAATACCAAACGTTCCATAGATACTATCCTTGA
GTTCCTGGGTGATACCGGCAATCTGGCCCAAATCGTAACGGTGGATGCCAACA
GTATGGCCGAGGCTGTCATGACTTTGTCTGGCGCTGAAGGCGCTACTGACGCT
ACGGGTATTGGCGCCGGCATAGCGGCTCCCATTGCGGGTGCTGTTGTCAAGGC
TACAGGTATAGTTGATGTTGAAAACCTCGCCGCTGTGGTCAAGAATCCCGCCGC
CATGCGCCGGGGCTATGCGGAAGCCCAGGTGCGCCAGCTGCCGCCCCATGAA
GCAGTTGAGGAAGCGGCCGTATCAGCGACTGAATTGTTGAGGCAAATGCCCTTT
GCCGGGACGGTTCCCTCACCGGTAACGGAGAATGAGGGCATGGTAACCGGCA
ACTGGCGCATCCAAAGGCCCATTATCGACCGGGAAGCCTGTACCGAATGTTATA
CCTGCTGGATCTACTGCCCCGATTCCTGCATCACCAGGACCGAAGAAGGACCG
GTATTTAATATGAAGTACTGCAAGGGCTGCGGCCTCTGTACGGCGGTCTGCCCC
AGCGGCGCCCTGACTAATGTACCGGAACTTGACTTCAAAGATTAA
[0170] SEQ ID NO: 14 (Oxalato--CoA ligase / Oxalil-CoA sintetase (OXS) de Arabidopsis thaliana col-1; EC 6.2.1.8; Acesso UniProt Q9SMT7; At_AAE3):
ATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAAAATT
CCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCACGCGCG
TCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACGCTGGAAT
CAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGAGTTTGTTAT
AATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGTTGAACGCAG
CGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGATTCAAAGCTATT
GTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGCTTCAAAGCTGAA
AATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGGACCTTGTACTATC
CGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAACTCGTTAATCACCC
GGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTACGAGCCGTCCAAAGG
GTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTCAAGAACATTAAAGCTGT
GTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTTCTCCCTCTGTTCCATGTT
CATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGGAGCTGGTGCTGCTGTAACT
CTTCCAGCTGCTGGTAGATTCTCAGCAACAACATTTTGGCCAGATATGAAGAAG
TATAACGCTACATGGTATACTGCTGTGCCGACCATTCATCAGATCATATTGGACC
GCCACGCGAGCCACCCTGAAACGGAATATCCTAAACTCCGGTTCATCAGGAGTT
GCAGTGCTTCTTTGGCTCCGGTGATATTGTCCAGGCTTGAGGAAGCGTTTGGAG
CACCGGTGCTCGAGGCCTATGCAATGACAGAGGCAACACATTTGATGAGCTCAA
ACCCCTTACCAGAGGAAGGTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTA
GGTCAAGAAATGGCGATCCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAAC
AAAGGAGAGGTTTGTATAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAAC
CCAGAAGCCAACAAGGCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATC
GGTTACTTTGATACCGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTT
ATTAACCGTGGAGGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTA
ACGCATCCTGACGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATAT
GGGGAAGAGATTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAA
GAGGACATTAAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAG
AGAGTGTTCATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGC
CGTATCGTCGCACAACATTTCCTTGAGAAGCCCTGA
[0171] SEQ ID NO: 15 (Oxalato--CoA ligase / Oxalil-CoA sintetase (OXS) de
Methylobacterium extorquens AM1 / DSM 1338; EC 6.2.1.8; Acesso UniProt C5APP0; Me_oxs):
ATGACTATGTTATTACCTGAACCATCAGCTTTGTTACCAACAGATTCAAA
GGAAGCCTCAGTCCCAGCAACAACATTGCATGAGTTGATACAAGCTGGTGCAGA
CGCTGCCCCTGCCTTATCTTCTCCAGGAGGAGTACCATTAACCTTTCAAGCATTA
AGAGCCTTAACCGAGAGAACCGTCGCCGACTTGAACGCAAGGGGTATTGGTAG
AGGTGATAGAGTTGCCATTGTTTTGCCAAATGGACCAGAAATGGCTGCAGCTTT
CATTGCAGTAGCAGCCGGTACAACTTCAGCACCTTTAAATCCTTCTTACAAGGC
GGACGAATTTGAGTTCTATATGTCAGATTTAGGTGCAAAATTATTATTAGTCGCA
GAGGGTTCTGAGACTCCTGCCGTTGCCGTGGCTGAGAAATTGGGTGTTTCAGTA
GCTAGATTAAGACCAACTCCAGATGAAGGAGCAGGTTCTTTTACTTTACATTTTG
CCTCAGAGTCTACTGGTCCAACCGAAAAGTCAGGTCCTGCAGGTTCAGATGATA
TAGCTTTGGTATTGCACACATCAGGTACCACATCTAGGCCTAAGATTGTCCCATT
GACTCAAGCAAATGTATGCGCATCTGCTAGAAACATTAGGACTGCATTAGCCTTT
GGCCCGGAAGATAGAGGATTAAACATAATGCCTTTGTTCCATATACACGGATTAA
TCGCTGGAATTTTAGCCCCATTATCTGTCGGTGGTCAAGTCTCTTGCACTCCAG
GTTTCAACGCATTGAAATTCTTTGGATGGATGGATGAAGTCAATCCAACCTGGTA
CACCGGAGTACCAACAATGCATCAAGCCATTTTAGGAAGGGCAGCAAGAAATAA
AGAAATTATCGCCAGGAACCCTTTAAGATTTATCAGATCTTCTTCATCATCTTTGC
CACCACAAGTCATGAAAGAGTTGGAGGAAACCTTCGGTGCTCCTGTTATTGAAG
CATACGGAATGACCGAAGCTGCACATCAAATGGCCTCAAACCCATTACCTCCTA
AGCCTCACTATGCTGGTTCTGTAGGTTTGGCTGCAGGTCCTGAGATTGCTGTTG
TCGACTTAGACGGTGAACCTTTACCAGCTGGAGAGACAGGTGAAATAGTCATAA
GAGGTGACAACGTTATGAAGGGTTACGAAAACAACGAGAAGGCAAATGCAGAA
GCATTCACCAAGCAGGGTTGGTTCAGAACTGGTGACCAAGGTGTCTTGTCTCCA
GAGGGATACTTATCTATCACTGGAAGGTTAAAGGAGATAATCAATAGGGGTGGT
GAGAAAATCTCACCAAGAGAAGTAGATGAAATTTTGATGGACCATCCTGCAGTAT
CACAATGCGTTACATTTGCGGTTCCTCATGATAAATTGGGTGAAGATGTTGCTGC
TGCCATCGTCTTAAGGGAGGGTGTTGAAGCCGTTGAAAAGGACATTCGTAGCTT
CGCTTCAGAAAGATTAGCAGCATTTAAAGTACCTGCCAAAATCTTAATTTTGGAT
GAAATCCCAAAAGGTGCCACAGGTAAGTTGCAAAGAATAGGTTTGGCACAGAAA
TTGGGATTGGTTTAA
[0172] SEQ ID NO: 16 (Oxalato--CoA ligase / Oxalil-CoA sintetase (OXS) de Saccharomyces cerevisiae S288C; EC 6.2.1.8; Acesso UniProt P38137; Sc_YBR222C):
ATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGT
ATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAG
GGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCT
CCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAAT
GGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGC
GCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACC
TGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTG
AAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGA
TGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAA
AAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTT
AAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAGT
GGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGAGAA
GCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCTTATGT
CGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTA
GAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGG
ACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCAT
GATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGA
TCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTC
AATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACC
TCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACA
AGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAA
AGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAA
TCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGG
TGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAA
AGAGCTTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCAT
TATGCTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGA
TATGTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAAT
GACCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATT
CCAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCC
AGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGT
TGTAA
[0173] SEQ ID NO: 17 (Oxalato:formiato antiportadora (oxlT) de Bifidobacterium animalis subsp. lactis DSM 10140; Acesso UniProt B9X293; Ba_OxlT):
ATGACAAAGATATTGATAGACGACATCATCCCCATCATCGTCATCATGG
CGTTGGGCTATGTCTGTGGAAAACTCAGCTACTTCGACAACGATCAGCGTCAGG
GCCTCAACAAGCTCGTGCTGAACATCGCCCTCCCTGCCGCACTGTTCATCTCGA
TCGTCAAGGCGACCCGTGAGATGCTCGCACAGGATGCGGTGCTCACAATTCTC
GGCTTCATCGGCATCATCGTGATGTTCATGTTGAGCTACTACCTGTGCCGACTG
ATGTTCCACCATTCGATCCAGGAAGCGGCCGTATGCGCGTTGATCGCCGGCTC
GCCGACCATCGGCTTCCTCGGCTTCGCCGTGCTCGACCCGATCTACGGCGACA
CCGTGAGCACGAACCTCGTCATCGCGATCATCTCGATCGTCGTCAACGCCGTC
ACGATTCCGATCGGCATGTATCTGATCAACCTCGGCCAGAGCAAGGATCGCGA
GCGCCTGTCGAAGGCCGCCGTCACGAACTCGAAGGGCCAGGTCAGCATCGCC
AATCCGAAGGACGATATCGCCGTCGATCCGAACAAGGATGCGAAGACCGACAA
GACGGCAGAGGTGATGATCTCCAAGTCGTCGAACATGGGCAAGAAGAAGAACC
AGAACCTCGAAGCGCTCATCAACGCACTCAAGCAGCCTGTGTGCTGGGCTCCG
CTGCTCGCCATCGTGCTCGTGCTCATCGGCGTGCGCGTGCCGTCCGGTTTCGC
TCCCACCTTCGACCTGATTGCCAAAGCGAACTCCGGTGTCGCCGTGCTGGCCG
CCGGCCTCGCGCTCTCCACTGTGAAGTTCTCGCTGGGCTGGGAAACGATCTGG
AACACGTTCTACCGCTTGATTCTCACCCCTGCGGCATTCCTCGGCGTCGGCCTG
CTGCTGGGCATGGGCAGCAATGTGAACAAGCTCTCCATGCTCGTCATGGCTGT
GGCCCTGCCGCCTGCATTCTCCGGCATCATCATCTCGAGCCGCTACAACATCTA
CGTCAAGGAAGGTGCGTCGACCACCGCGGTTTCCACGGTTGCGTTCGCCGTCA
CCTGCCTGCTGTGGATCTGGCTCGTGCCGCTGTGCTGCCACTGA
[0174] SEQ ID NO: 18 (Oxalato:formiato antiportadora (oxlT) de Cupriavidus oxalaticus ATCC 11883; Co_OxlT1):
ATGAGTAACGCAACGGCAGGGGCCCTGAGCCCCAATCAGGGAGCTTCG
GAATCCACGCGCTGGATCCAGCTGCTCGTCGGCGTGGTCTGCATGATCGCCAC
GGCCAACATCCAGTACGCCTGGACGCTGTTCGTGCCTGAGATCCAGGATACCT
ACGGCTGGTCACGCGCCAGCATCCAGATTGCCTTTACCGTGTTCGTGCTGGTG
CAGACCTGGCTGGCGCCGATCGAGGGCTACTTCATCGACAAGTTCGGGCCGCG
CATGATGGTGGCCTTCGGCGCGCTCTTTATCGGCACGGCGTGGGTCATCAACT
CGCAGGCGACCACGCTGATGGGCTTCTACGTCGGCGCCGCCGTCGGCGGCCT
GGGCGTGGGCTCCATCTACGCGACCTGCATCAACAACGCGCTGAAGTGGTTCC
CGGACCGCCGCGGCCTCGCGGTCGGCCTGACCGCCGGCGGCTATGGCGCGG
GCTCGGCGGCGACCATCCTGCCGATCGCGGCGATGATCGAGTCGCAGGGTTT
CCAGCACACCTTCCTGTTCTTCGGCCTGCTGCAGGGGTCGCTGGCCTTTGTCG
CGGCGTGGTTCCTGCGCTCGCCCAAGACCGGCGAGGTGCGGGGGTCGAAGAA
GCTGGCCCAGGCCACGCGCGACTACACCCTCAAGGAAGCGCTGTGCACCAGG
CTGTTCTGGCTGATGCTGGTGATGTTCGTGCTGGTGGTCACGGGCGGCATGAT
GGCCGTGGCGCAGCTCGGTGTCATCGCCAAGGACCTTGGCGTGAAGGAATTCC
AGGTCGACCTGCACTTCTTCGTGATGGCTGCACTGCCGCTCGCCCTGATGCTG
GACCGCATCATGAACGGCATCTCGCGTCCGCTGTTCGGCTGGATCTCGGACAA
CATCGGCCGTGAAAAGACCATGGTGATCGCCTTTACGCTGGAAGGGCTGGGCA
TCATCGCGCTGGGCTACTTCGGCAGCAACCCGTACGCCTTCCTGATCCTGTCC
GGCGTGGTGTTCCTGGCCTGGGGCGAAGTCTACTCGCTGTTCTCGGCACTGGC
GGGCGATGCCTTCGGCACCAAGCACATCGGCAAGATCTACGGCGTGCTGTACA
CCGCCAAGGGCATCGGCGCACTGTTCGTGCCGATCGGCAACCTGCTGATGGAA
GCCACCGGCACGTGGTCGACGGTGCTCTACACGGTGGCGGTGATGGACCTGA
CCGCGGCGTTCCTTGCCATCATGGTGCTGCGGCCGGTGCTTGCCTCGCACGTT
GCGACATCGAGGCAGCGGTTTGCGCAGGAATCTGCCGCGGCCGGCGCGCAAG
TGGCGGCTTGA
[0175] SEQ ID NO: 19 (Oxalato:formiato antiportadora (oxlT) de Cupriavidus oxalaticus ATCC 11883; Co_OxlT2):
ATGGAATTGCAGCAGAGGGAGTCCACGTCGCGCTTTGCGTCGCCGTGG
GTGCAATTGGTCTTTGGCGTGATCTGCATGGCGATGATCGCCAACATGCAGTAC
GGCTGGACGCTGTTCGTCAACCCGATCGACGACAAATACCACTGGGGCCGCAC
CGCGATCCAGGTGGCATTCACCATCTTCGTCGTGACGGAAACCTGGCTGGTAC
CGATCGAGGGCTACCTCGTCGACAAGTACGGCCCGCGCCCGGTAGTGGTGGG
CGGCGGGTTGCTGTGCGCCATCGCGTGGGCGCTGAACTCGGTGGCGTCCTCG
CTGCCGATGCTGTACTTCGCGGCCGCAATCGGCGGCGTGGGTGCCGGCGCGG
TCTACGGCACCTGCGTGGGCAATGCGCTCAAGTGGTTCCCCAACCGGCGCGG
GCTGGCGGCGGGCATTACCGCAGCAGGCTTTGGCGCTGGTTCCGCGATGACC
GTGGTGCCGATCGCCAACATGATCAAGACCTCGGGCTATGAAGCCACCTTCCT
GTGGTTCGGGCTGGGGCAGGGCCTGATCGTCTTCATCCTCGGCCTGGCCCTGT
ATCCGCCGTCGGCCAGGATCCTGAGCGAGGTCAAGACCACGCTCAAGGCCGC
CGCGACCTACAACGCCACGCCGCGCCAGGTGCTGAAGTCGCCGATCTTCTGGA
TCATGTACGCCATGTTCGTGATGATGGCCGCCGGCGGGCTGATGGCCACCGCG
CAGTTGGGCCCGATCGCCAAGGACTTCGGCCTGCATGACTCGCCGGTGTCGAT
CCTCGGCCTGACGCTGCCCGCGCTGACCTTCGCGCTGACCATCGACCGCGTG
CTCAACGGCCTGACCCGCCCGTTCTTCGGCTGGATCTCCGACCATATCGGCCG
CGAGCGCACCATGTTCTTCGCCTTCGCGGTGGAGGCGGTCGGCATCCTGCTGC
TGTCCAAGTACGGCCACAACCCGGTGGCGTTCGTGGTGCTGACCGGCATCGTG
TTCTTTGCCTGGGGTGAGATCTACAGCCTGTTCCCGGCCACCTGCGGCGATAC
CTTCGGTCCCAAGTTCGCCGCCACCAACGCCGGCTTGCTGTACACCGCCAAGG
GCACGGCTGCGTTGCTGGTGCCGTTCTCCAGCGTGATCACCGCCGCCACCGG
CGACTGGCACGCGGTGTTCATGCTCGCCTCCGGCATGGCGGCGCTGTCGGCG
GTGCTGGCGCTGTTCGTGCTCAAGCCGATGCGTGAAGCCCATGCCCGCAAGTA
TGTCCACGCCAATACCGCGGCGCCGATGGGCTATCGTGCCGTGCAGGAAGACC
TGACCTGA
[0176] SEQ ID NO: 20 (Oxalato:formiato antiportadora (oxlT) de Escherichia coli MG1655; Acesso UniProt P37662; Ec_YhjX):
ATGACACCTTCAAATTATCAGCGTACCCGCTGGCTGACACTCATCGGTA
CTATCATTACCCAGTTTGCGCTGGGGTCGGTTTATACCTGGAGCCTGTTTAATG
GCGCGCTTTCCGCCAAGCTGGATGCGCCGGTAAGCCAGGTCGCTTTCTCTTTC
GGCTTGTTAAGTCTGGGGCTGGCAATTTCGTCTTCTGTTGCGGGCAAATTACAG
GAACGTTTTGGCGTTAAACGCGTCACCATGGCTTCCGGCATTTTGCTGGGATTA
GGCTTCTTCCTGACAGCGCATTCTGACAACCTGATGATGCTGTGGTTAAGCGCC
GGTGTGCTGGTGGGACTGGCAGATGGCGCGGGTTATCTGCTGACGCTCTCTAA
CTGTGTGAAGTGGTTCCCGGAGCGTAAAGGTCTGATCTCCGCGTTCGCTATCG
GTTCTTATGGTCTGGGTAGCCTGGGTTTCAAATTTATCGACACGCAGCTGCTGG
AAACGGTCGGTCTGGAAAAAACCTTTGTGATTTGGGGAGCGATTGCGCTGTTGA
TGATTGTTTTCGGCGCAACGTTAATGAAAGACGCACCAAAACAGGAAGTGAAAA
CCAGCAATGGTGTGGTGGAGAAAGATTACACGCTGGCAGAGTCGATGCGTAAA
CCGCAGTACTGGATGTTAGCGGTAATGTTCCTGACCGCCTGCATGAGCGGCCT
GTACGTGATTGGGGTAGCGAAAGATATCGCCCAAAGTCTGGCACACCTTGATGT
GGTTTCCGCAGCCAATGCAGTCACTGTTATTTCCATCGCCAACCTTTCAGGTCG
TCTGGTGCTGGGTATTCTGTCTGACAAAATCGCCCGTATCCGTGTTATTACCATT
GGTCAGGTGATATCGCTGGTGGGTATGGCGGCCCTGCTGTTTGCACCATTGAA
TGCAGTGACGTTCTTTGCAGCGATTGCCTGCGTGGCATTTAACTTTGGCGGCAC
TATTACCGTCTTTCCGTCACTGGTCAGTGAGTTCTTTGGCCTCAATAACCTGGCG
AAAAACTACGGTGTGATTTATCTCGGTTTCGGTATCGGTAGCATTTGTGGTTCGA
TTATCGCCTCACTGTTTGGCGGCTTCTATGTGACCTTCTACGTGATTTTCGCCCT
GCTGATTCTGTCATTGGCGCTTTCTACGACGATTCGTCAGCCAGAGCAGAAAAT
GTTGCGTGAGGCGCATGGCTCCCTTTAA
[0177] SEQ ID NO: 21 (Oxalato:formiato antiportadora (oxlT) de Oxalobacter formigenes DSM 4420; Acesso UniProt Q51330; Of_oxlT):
ATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTT
GGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATA
TTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGC
TGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCC
TGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGT
GGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCT
GCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGT
ATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTTC
CGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACTGAT
CAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGGTTT
GATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGCCAG
CAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGCGAA
ATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGTTAACT
TTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGCCTCGGT
CTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGTTCAATGGT
GGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGTTACAAAACC
ATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTCCCGACGATTG
CTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCGCATTCTTCACAT
GGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGATATTTTCGGTACGG
CATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAAAGCAACTGCCTCGA
TCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAACTTCGGATGGAATACCG
CTTTCCTGATTACTGCGATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTCGTT
ATTCCAAGAATGGGCCGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAAGAA
AAAGCTGTACATTAG
[0178] SEQ ID NO: 22 (Oxalil-CoA decarboxilase (OXC) de Bifidobacterium animalis subsp. lactis DSM 10140; EC 4.1.1.8; Acesso UniProt B9X297; Ba_oxc):
ATGGTTGATGTAAGTGTAACTGCTACAAGCTCAGACCAGAATCTCACGG
ATTCTCCCCACTACCTCGCCGAAACGCTCATCAAGAACGGTGTCAAGCATATGT
ACGGCGTCGTCGGAATCCCGGTCACTGATTTCGCACGTATCGCACAGGGCATG
GGCATCCGCTTCATCGGCATGCGCCATGAGGAGGACGCGGTGAACGCTGCCG
CTGCCGAAGGATTCCTCACCGGTCGCCCAGCTGTGGCGCTCACCGTTTCCGCG
CCGGGCTTCCTCAATGGTCTGGCACCGCTGCTTGAAGCCACCACGAACGGCTT
CCCGGTCATCATGATCGGCGGTTCGTCCACTCGCCATGTCGTCGACATGCACG
AAGGCGAATACGAAGGCCTCGACCAAATGAACTATGCGAAGCAGTTCTGCAAG
GAATCGTTCCGCATCGACAAGATCGAAGACATTCCGCTTGCTGTGGCCCGCGC
CATGCACATCGCATGCTCCGGCCGTCCGGGCGGTGTCTACATCGATTTCCCGG
ACGACGCCGTCGCCCAGACGCTCGACAAGGATGTCGCCGAGTCGCAGCTGTG
GGTCGCGAACCAGCCGGCTCCGGCAATGCCGCCGGCGCAGTCCTCTGTGGAT
GAAGCGCTCAAGCTGCTCTCCGAGGCCAAGAACCCTCTCATGCTTGTGGGCAA
GGGTGCGGCGCTGGCCCAGGCCGAGGACGAACTGCGTGAATTCGTCGAGAAG
ACCGACATGCCATTCCAGCCGATGTCGATGGCCAAGGGCGTCATTCCGGACGA
TGACCCACACTGCACGGCGAGCTGCCGCGGACTCGCGCTGCGCACCGCCGAC
GTCGTGCTGCTCGTCGGCGCTCGTCTGAACTGGATGCTCAATTTCGGCGAGGG
CAAGGAATGGAACCCGAACGTCAAGTTCATCCAGATCGATATCGACCCGAACGA
GATCGAGAACGCCCGTTCCATCGCATGCCCGGTGGTCGGCGACATCAAGTCCG
CCATGCAGATGATCAATGCCGGACTCGAGAAGACGCCAGTGAAGGCGTCCGCG
CAGTGGCTCGACATGCTCAAGGCCGACGCCGAGAAGAACGATGCCAAGTTCGC
CGCCCGCGTGAACTCGAACACCGTGCCGATGGGTCACTACGACGCGCTCGGC
GCCATCAAGAAGGTGTACGACCAGCACAAGGACATGATCCTGACCAACGAGGG
CGCGAACACGCTCGACGATTGCCGCAACATCATCGACATCTACCAGCCGCGCC
ATCGTCTAGACTGCGGCACGTGGGGCGTTATGGGCTGCGCGGTCGGCTATTCA
ATCGGCGCCGCAGTGGCCACCGGCAAGCCTGTCCTGTACGTCGGCGGTGATTC
CGGCTTCGGCTTTGACGGCATGGAAGTCGAGGTCGCCTGCCGCTACAATCTGC
CGATCACCTTCGTCGTGCTCAACAACGGCGGCATCTACCGCGGCGATTTCGAG
AATCTCGGCGACGACGGCGACCCGTCGCCGCTGACGCTGAGCTACGACGCCC
ACTACGAGCGCATGATCGAGGCGTTCGGCGGCAACGGCTATTACGCGACCACC
CCGGCGGAAGTCGAGCAGATGGTCGGCGAGGCCGTCGCCTCCGGCAAGCCGA
GCCTCGTGCACGTGCAGCTCGCCGATTATGCGGGCAAGGAGTCCGGGCACATC
TCCAACCTGAACCCGAAGCCCGTCGTCGGCCCGCTCGCCACTTCCGAAATGAC
CGCGAACCCCTACCTCAAGGGCGCCCATATGTGA
[0179] SEQ ID NO: 23 (Oxalil-CoA decarboxilase (OXC) de Cupriavidus oxalaticus ATCC 11883; EC 4.1.1.8; Co_oxc):
ATGGCAGAAGTCGGAAACGAGCTGCAGCGTCACGCCGCGGAAGAGCA
TCAGGCACAAACCGATGGTTTTCATCTGGTCATCGACGCGCTGAAGCTGAACGG
CATCGAAAACATCTACGGCCTGCCCGGCATTCCGGTCACCGACCTGGCTCGGC
TGGCGCAGGCAAACGGCATGCGCGTCATCAGCTTCCGCCACGAGCAGAACGCA
GGCAACGCCGCAGCGATTGCCGGCTTTCTGACGCAAAAGCCAGGCGTTTGCCT
GACCGTGTCTGCGCCAGGGTTCCTGAACGGGCTCACGGCGCTGGCGCATGCG
ACCACCAACTGCTTCCCGATGATCCTGATCAGCGGCTCGAGCGAGCGCGAGAT
CGTCGATCTGCAGCAGGGTGACTACGAAGAGATGGACCAGCTGGCCATCGCCC
GTCCGCACGCCAAGGCTGCCTTCCGCGTGCTGCACGCCGAAGACATCGGCGT
CGGGATCGCGCGTGCCATCCGTGCCGCCGTGTCGGGCCGCCCGGGCGGTGT
GTACCTGGACCTGCCGGCCAAGCTGCTGGGCCAGTCGATGGAAGCCGAGAAG
GGCCGCAAGTCGCTGATCAAGGTGGTGGATCCGGCCCCGCGCCAGCTGCCTG
CTCCGGACTCGGTCGACCGTGCCGTCGCGCTGCTGAAGAGCGCCAAGCGCCC
GCTGATCCTGGTAGGCAAGGGTGCTGCGTACGCACGCGCCGAAGCGGATATCC
GCACGCTGGTCGAGAAGACGGGCATTCCGTACCTGCCGATGTCGATGGCCAAG
GGCCTGTTGCCCGATACGCACCCGCAATCGGCCTCCGCCGCACGCTCGTATGT
GCTGGCCGAAGCCGACGTGGTGCTGCTGGTCGGCGCCCGCCTGAACTGGCTG
CTGTCGCACGGCAAGGGCAAGACCTGGGGCAAGCCGAAGCAATTCATCCAGAT
CGACATCGCGCCGACCGAGATGGACAGCAACGTCGCCATCGCCGCGCCGGTC
GTGGGTGACATCGGTTCGTGCGTGTCGGCGATCCTCGACAAGGTCGGCGACGA
CTTTGCCAGGCCGGGCGCCGACTGGCTGAACGCGGTGGCTGACCGCAGGGAC
ACCAACCTGGCGAAGATGGCCGAAACCCTGGCCAGGTCCAGGGACGCCTCGC
CGATGAACTTCCACGGTGCGCTCGGCGTGCTGAAGGATGTGGTCAAGGCCAAC
CCGAACATCTCGTTCGTCAACGAAGGCGCCAACACGCTGGACTACGCCCGTGC
CGTGATCGACATGTACGAGCCGCGCAAGCGCCTGGACGTAGGCACCTGGGGC
GTGATGGGCGTGGGCATGGGCTACGCGGTCGCCGCCGCGGTCGAAACCGGCA
AGCCGGTGCTGGCGCTGTGCGGTGACAGTGCGTTCGGCTTCTCGGGCATGGA
AGTCGAAACGATCTGCCGCTACAACCTGCCGGTCTGCATCGTCATTTTCAACAA
CAACGGCGTCTACAAGGGGATCGACGTGAATCCGACCGGCGGCAGGGATCCG
GCGGTCACGACGTTCGTCCCGGGCGCGCGCTACGACAAGATGATGGAAGCGTT
CGGTGGTGTCGGTGCCAATGTCACCACGCCGGCGGAACTCGAAGCCGCGGTA
AACGAAGCGCTGCGCTCGGGCAAGCCCACGCTGGTCAACGCCGTCATCGACC
CGGCTGCCGGCACCGAAAGCGGTCGCCTGACCAATCTGAATCCGCAAAGCTCG
GCCAAGAAGTAA
[0180] SEQ ID NO: 24 (Oxalil-CoA decarboxilase (OXC) de Escherichia coli
MG1655; EC 4.1.1.8; Acesso UniProt P0AFI0; Ec_oxc):
ATGTCAGATCAACTTCAAATGACAGATGGTATGCATATCATCGTTGAAGC
ATTAAAACAGAATAATATTGACACTATTTATGGTGTTGTAGGTATTCCTGTGACG
GATATGGCACGCCATGCCCAGGCGGAAGGCATTCGTTATATTGGTTTTCGTCAT
GAGCAGTCGGCAGGCTATGCCGCTGCGGCAAGCGGTTTTCTTACCCAAAAACC
GGGGATCTGCCTGACAGTTTCTGCGCCAGGATTCCTCAATGGTTTGACCGCATT
GGCCAACGCAACGGTAAATGGTTTTCCGATGATCATGATTAGCGGCTCCAGCGA
CCGCGCGATCGTCGACCTACAGCAAGGTGATTATGAAGAGCTGGACCAAATGA
ATGCGGCAAAACCGTATGCCAAAGCAGCATTTCGCGTTAATCAGCCGCAGGATC
TTGGCATTGCATTGGCACGCGCTATCCGGGTTTCTGTATCGGGTCGCCCTGGC
GGAGTTTATCTTGATTTGCCAGCAAATGTCCTGGCCGCGACGATGGAAAAAGAC
GAAGCGTTAACCACGATTGTTAAAGTTGAAAATCCGTCGCCAGCATTATTGCCAT
GCCCGAAGTCAGTCACTAGCGCAATTTCGCTTTTAGCAAAAGCTGAACGGCCAT
TAATTATCCTTGGCAAAGGCGCGGCGTATTCACAAGCTGATGAACAGCTTCGTG
AATTTATTGAAAGTGCTCAGATTCCATTCCTGCCAATGTCTATGGCGAAAGGGAT
CCTTGAAGATACGCATCCACTTTCTGCGGCAGCTGCGCGTTCGTTTGCCCTGGC
AAATGCTGACGTTGTCATGCTTGTTGGTGCACGACTGAATTGGTTATTGGCACA
CGGTAAAAAAGGATGGGCGGCAGATACACAGTTTATTCAACTGGATATTGAACC
GCAGGAAATTGACAGCAACCGCCCCATTGCTGTGCCAGTCGTTGGTGATATTGC
ATCCAGTATGCAAGGTATGCTGGCAGAACTGAAACAAAACACATTTACGACTCC
ACTGGTATGGCGCGATATTTTAAATATCCACAAGCAGCAAAATGCACAAAAAATG
CATGAAAAATTAAGTACAGATACTCAACCATTAAATTACTTTAATGCATTAAGTGC
TGTGCGCGACGTATTGCGCGAGAACCAGGATATTTATTTAGTTAATGAAGGTGC
AAATACCCTGGATAATGCACGAAATATTATTGATATGTATAAACCACGTCGTCGT
CTGGATTGTGGTACCTGGGGTGTCATGGGCATCGGTATGGGCTATGCCATCGG
TGCTAGCGTGACTTCTGGTTCTCCGGTTGTCGCCATTGAAGGTGATAGTGCTTT
TGGTTTCAGTGGGATGGAAATTGAAACGATTTGTCGATATAACCTGCCGGTGAC
GATCGTTATTTTTAATAATGGCGGCATCTACAGAGGAGATGGTGTTGATCTCAGT
GGCGCTGGTGCACCATCACCAACGGATCTGTTGCACCATGCAAGGTATGACAA
ATTAATGGATGCGTTTCGTGGCGTTGGCTATAACGTCACCACGACAGATGAACT
TCGTCATGCTTTAACCACCGGTATTCAGTCGCGCAAACCGACCATTATTAATGTG
GTCATCGACCCTGCAGCAGGAACTGAAAGTGGCCATATTACCAAACTTAACCCA
AAACAAGTCGCTGGTAATTAA
[0181] SEQ ID NO: 25 (Oxalil-CoA decarboxilase (OXC) de Oxalobacter formigenes DSM 4420; EC 4.1.1.8; Acesso UniProt P40149; Of_oxc):
ATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGAT
CGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCC
TATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTT
CCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGG
AAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGAC
TTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTC
CAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCA
GATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAA
GACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTCCA
GGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTA
GAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACAGATT
CCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGT
CCAGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATC
CGCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAA
GGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGC
ACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGAT
GCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGA
TCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTG
TTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTC
CAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAAC
AAAGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAA
CTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGA
CATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTAT
TGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCG
CTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCT
GCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAA
AGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAA
TACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACC
ATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTAT
CAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAG
[0182] SEQ ID NO: 26 (Oxalil-CoA decarboxilase (OXC) de Saccharomyces cerevisiae S288C; EC 4.1.1.8; Acesso UniProt P39994; Sc_YEL020C):
ATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATATG
GCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGGATA
CGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCTGCCT
CATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTTACTTAT
TGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAACTCAATGAG
TAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGTGATATACAT
AAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGT
TTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTCAGAAGGCTTTGAA
TTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGACGTCCCTGCAGATTTT
ATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTACAGGAAATGAATTACCG
ATGATATTAACTCCAAACATATGTGGCCCTGATCCGTCGAAGATCAAAAAAGTCG
TACAGCTTATTTTGCAACATAAAAATAAAAATATTCTGATTGTTATTGGAAAGGGT
GCGGTAAAAAACTCACACGAAATCCGCAGACTAGTAAATACGTTCAATCTACCAT
TTTTACCCACCCCAATGGCTAAGGGAATTGTCCCAGACTCTTCTCCACTGAACG
TTTCATCTGCAAGATCTCAAGCATTGAAAATAGCGGATATTGTTCTTGTTCTCGG
GGCAAGATTAAACTGGATATTGCATTTTGGTACTTCACCCAAATGGAACTCAGAA
TCCATATTCATCCAGTTCGATTCCAATCCCGAAACCTTGGGGGATAACAATGTCT
CACCTGGTGCTGACCTTTCCATATGGGGAGATATAGGCTTGAGCGTAACCGCTT
TAGTTGAGGAATTGACTCGCCAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGC
AAGAAATACGAGAGAAAATTCAACTGAATCAAACTCGTCTATTGAGGAAAGAGAA
GACTAGAGGGGCACAATTGAATTACAACCAGGTTTATGGAACATTGAGGCCTCT
TATCGATGATTACAGGACAATACTTGTGACGGAGGGAGCAAATACTATGGATATT
GCGCGTATTTCATTCCCTACAGACGCTCCAAGGCGCCGTTTAGACGCAGGGAC
CAACGCGACTATGGGGATTGGGCTCGGATATGCTCTTGCATGCAAGGCATCTCA
TCCGGAACTCGATGTGGTGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGC
CATGGAAATTGAAACGGCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGAT
GAACAATAGCGGTATTTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCC
AACGGCACTAAGCAAGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTG
CCAATGATTTTTTTGTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGC
CGTGCAGCTTTCTCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGA
GCCTGGCGAACAAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTATG
A
[0183] SEQ ID NO: 27 (Oxalil-CoA redutase / Glioxilato:NADP+ oxidorredutase (OXR) de Methylobacterium extorquens AM1 / DSM 1338; EC
1.2.1.17; Acesso UniProt C5APN9; Me_PanE):
ATGTCAATTGCCATTGTTGGTGCCGGTGCAATTGGAGGATATTTAGGTG
TCAGATTAGCTGAAGCTGGTGAGGATGTTACATTCATAGCTAGATCTAATGCTGC
AGCCATACAAGCAGATGGAATGAGATTGATTGAAGAGGATGGGACCGAAATTCA
CTCTAAATCTGTCAAAGCCACTCGTTCAATGCAAGAAGCAGGAGTTCACGAGGT
TGTTTTATTAACAGTTAAGGCACACCAAGTTGGTCCTATAGCTGCCGATTTACAT
CACTTGATAGGTCCAGACACCGTAGTCGTCACTATGCAGAATGGTATTCCTTGG
TGGTACTTTCTAGGTGGATACTCTGGAGATCATGCAGGAACAAGGTTGGAATCA
GCTGATCCAGGAGGTTTAATTGCTGATCATTTAGACCCTAAGCATGTCATTGGTT
CTGTTGTTTACCCTGCAACTGTATTGACAGACCCAGGTACTGTTAAAGTTATCGA
GGGTAATAGGTTTGGTTTGGGAGAATTGGATGGTTCAAAATCTGAAAGAGTTTTA
GCCTTATCTCAGAGGTTAGCAAGGGCCGGTTTTAGAGCCCCAGTCACTTCAGAC
ATTAGAGCAGAGATCTGGTTGAAGTTGTGGGGAAATTTATCTTTCAATCCCATTA
GCGCCTTAACACATGCAACCTTGGAGGACATCTGTAGATTTCCTGATACTAGGG
CTATCGCCGCAGAGATGATGAGAGAGGCCGAAGTCATCGCCAATAAATTGGGT
GTAACATTTAGATTAGGAATAGATAAGAGAATAGCTGGAGCTGAAAAGGTCGGT
CCACACAAGACCTCTATGTTGCAAGACGTAGAAGCTGGTAGACCAATTGAGTTG
GAAGCCTTAGTCGGATCTGTAATCGAATTAGGAAGGTTAACTGGTACTCCTACT
CCACATATTGATACAGTCTTTGCTTTGATGAGATTATTGGCCCAATCTTTAGAAA
GAGCACAAGGTAGATTGGCTATTCAGGGAGCATAA
[0184] SEQ ID NO: 28 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_ACOCT):
ATGACGCAATCCAACCTGCCCGATTTGCCCGACCTGCCGCTGACCGGC
CTGCGCGTGATCGATTTCTCGCGCGTGCTGGCCGGCCCCTATTGCACCGCGCT
GCTCGGCGACCTCGGCGCCGAGGTGATCAAGGTCGAGCCGCCCGGCGGCGAC
GACTATCGCGCGGTGGGTCCCTTCGCCGGCGGCAAGAGCGGCCTGTTCTGCG
CGATGAACCGCAACAAGCAGAGCATCGTGATCGACCTGAAGACGGAGGACGGC
CTGGCTGTCGCCCGCGCGCTGTGCCGCGGTGCCGACGTGGTGGTGGAAAACT
TCCGCCCCGGCGTGGCCGACAAGCTTGGCATCGGCTACGCCGCGCTGCGCGA
ACTGAACCCCTCGCTGGTCTATGCCAGCGTGTCGGGCTTCGGCCAGACCGGCC
CGGAATCGCACCGCCCGGCCTACGACATCATCCTGCAGGCGATGTGCGGGCT
GATGGACGCCACCGGCGCGCCCGACGGCGCGCCGACCATGCTTGGCGAAGCC
GTGTCCGATGCGGTCAGCGGCCTGTTCGCCTCGTGGGGCGTGCTGGCCGCGC
TGCTGGCGCGCGAGAAGACAGGGCGCGGCACGCATGTCGATGTGTCGATGTT
CGATGCCACGCTCAGCCTCAGCGCCACGCTGGTCGCGCGCTACGCGGCCACC
GGGCTGGCGCCGCGGCGCGTGGGCAACCGCCACCCGTCGTCGGCGCCGTTT
GGCGCCTACCGCGCCGCGGATGGCTTCTACGTGGTCGCGGTGCTGAACAACAA
GCTGTTCCAGGCGCTTGCCGACGCCATCGGCCGGCCCGCGATGGCGCACGAC
CCGCGCTTTGCCGATGACGAAACGCGCTGCCGCTTCGAGTCCGACCTGCGCGC
CATGCTGGAAAACTGGTCGGCCACGCGCACGGTGGCGGAGGTGAACGCAGCG
CTCGGCGCCGCCGGCATCCCGGTCGCACCGATCCGCAATGTCAAGGAAGCGC
TGGAAAGCGAGCACGCGGCGCATCGCCGCCTGCTGACCGAGGTGCCCGACAC
GGACGGCGGCACCGTGCGCCTGCCGTCGCAGCCGGTCAAGTTCTCCGCGTAC
GGCACCAACCGCGTGACGCCCGCGCCGGCACTGGGCCAGCACACCGGGGCC
ATCCTGGCCGCGCCCGATTTCAGTAATTTCAATAAGGAGAAGCAACATGCATAA
[0185] SEQ ID NO: 29 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_CaiB):
ATGGGAGCCTTAAGCCATCTCCGCGTCCTCGACCTGACCCGTGTCCTT
GCCGGGCCCTGGTGCGCCCAGAACCTTGCCGACTTCGGCGCCGATGTGATCAA
GATCGAGCGCCCCGGCGCCGGCGACGACACCCGCACCTGGGGCCCGCCCTG
GCTCAAAGACGAAGACGGCCGCGACACCGCCGAGGCCGCCTACTACCTGGCC
GCCAACCGCAACAAGCGCTCGGTCACCTGCGACATCAGCACGCCCGAAGGCCA
GCAGATCGTGCGCGACCTCGCCGCGCAGAGCGACGTGGTGCTGGAGAACTAC
AAGGTCGGCCAACTCAAGAAATACGGGCTGGACTACGAGTCGCTCAGGCAGGT
CAAGCCCGACCTGATCTACTGCTCGGTCACCGGCTTCGGCCAGACCGGCCCGT
ACGCCGCGCGCCCCGGCTATGACTTCATCATCCAGGGCATGGGCGGCTTCATG
AGCCTGACCGGCGAGCGCGACGACCTGCCCGGCGGCGGCCCGCAGAAGGCC
GGCGTGGCGATTTCCGACCTGATGACGGGCCAGTACGCCACCATCGCCGTGCT
GGCGGCGCTGGCGCATCGCGAGCGCACCGGCGAAGGCCAGTACATCGACATG
GCGCTGCTGGACGTGCAGGTGGCCATGCTGGCCAACATGAACACCAACTACCT
GGCCAGCGGCGAGGCGCCGCGCCGCTGGGGCAATGCGCACCCCAACATCGTG
CCCTACCAGACCTTCCAGGCCGCCGACGGCTGGATCATCGTCGCGGTGGGCAA
CGACGGGCAGTTCCGCAAGTTCGTCACCGACGGCGGCATGCCCGAACTGGCC
GACGATCCGCGCTTTGCCAAAAACCCGCAGCGCGTGGCCAACCGCGACGTGCT
GGTGCCGATCCTGGCCGAGATGGTGCGCCCGCGCACCCGCGCGCAGTGGATC
CGCGACCTGGAAGCCGCGGGCGTGCCGTGCGGCCCGATCAACACGCTCGACG
ATGTGTTCGAGGACGACCAGGTCAAGGCGCGCGGCCTGCGCGTGGACCTGCC
GCACCCCAGCGCCGGCGAGGTCAAGCTGGTCGCCAGCCCGATCAAGATGAGC
GCGACGCCGCCGCAGGCGCTGCGCCACCCGCCGCTGCTGGGCGAGCACACC
GACACGGTGCTGGCCGAAACCCTGGGCTACAGCGCCGGGCAGATCGCGGCAC
TTCGCGCAAAAGGTGTGCTGTAA
[0186] SEQ ID NO: 30 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_SCACT):
ATGGACAAGGAACGCATTCGCCTGGCGAGGCTGCATGACAAGGTAGTC
TCGGCCGACGAGGCCGCCGCGCTGATCCGCGACGGCATGACCGTAGGCATGA
GCGGTTTCACCCGCGCGGGCGACTGCAAGGAAGTCCCGTTCGCGCTGGCGCG
GCGCGCGGCGACCGAGCCGCTGCGCATCACCCTGATGACGGGCGCCTCGCTC
GGCAACGACATCGACCGCGTCCTGGCCGAGGCCGACGTGATCGCGCGCCGCC
TGCCGTTCCAGTCCGATGGCACGCTGCGCCGCAAGATCAACGCCGGCGAGGT
GATGTTCATCGACCAGCACCTGTCCGAAACCGTCGAGCAGCTGCGTTCCGGCC
AGATCGCGCCGGTGGACGTGGCGGTGGTCGAGGCCGTGGCGATTACCGAGCA
GGGCGGCATCATCCCCAGCACCTCGGTGGGCAATTCGGCAAGCTTTGCCATGC
TGGCGCGCAAGGTGATCGTCGAGATCAACATGAACATGCCGCTGGAGCTGGAA
GGGCTGCACGACATCTATTTCCCGGTCCAGCGCCCGTACCGCCAGCCGATCCC
GCTGATCGCGCCGGAACAGCGCATCGGACTCCCGTATATTCCGATCGATCCGG
AGAAGATTGCCGCCATCGTCATCACCGCCAAGGACGACAGCCCGTCCAATGCG
CTGCCGCCGGACGACGAAACCCGCAGCATCGCCGGCCACCTCAATGACTTCCT
GCTGCGCGAAGTGCGCGCGGGCAAGCTGTCGCCGTCGCTGCAGCCGCTGCAG
GCCGGCATCGGCACCATTGCCAATGCCGTGCTGCACGGGCTGGTCGAGTCGC
CGTTCCGCGACCTGAAGATGTATTCCGAGGTGCTGCAGGACAGCACCATCGAG
TTGCTCGATGCGGGCCGGCTGTCGTTCGCGTCGGCGTCGTCGGTGACGCTGA
CGCGCGAGGTCTACCAGCGCTTCCTGTCGAACCTGGACCGCTACCGTTCGCGC
CTGCTGCTGCGCCCGCAGGAGATCAGCAACCATCCCGAGATCCTGCGCCGGCT
GGGGCTGATCACCATCAACACCGCGCTGGAGTGCGACATCTACGGCAACGTCA
ACTCCACGCATGTGGGTGGCACGCACATGATGAACGGCATCGGCGGCTCCGG
CGACTTTGCGCGCAATGCGCACGTGTCGGTGTTCGTGACCAAGTCGGTGGCCA
AGGGCGGCGAAGTCTCGAGCATCGTGCCGATGGTGGCGCACGTGGACCACAC
CGAGCACGATGTCGACATCATCGTCACCGAGCACGGCCTGGCCGACCTGCGC
GGCCTGGCACCGCGCGAGCGCGCGCGCACCGTCATCGCCAATTGCGCCGATC
CGCAATACCGCGAGTTGCTGGGCGACTATTTCCGCCGCGCCAGCGCCCACGG
CGGCCAGACGCCGCACCTGCTGGAAGAGGCGTTGTCCTGGCATGTCGGCTTG
CGCGATCGCGGCACCATGCGGTCCGCACAGCCGGCGCAGGCCCTGGCTGCCT
GA
[0187] SEQ ID NO: 31 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_SCMCT):
ATGGTCAACGAAGCGAACAAGGAAAAGATGCCGCTGCAAGGCGTGCGC
GTGTTGGAGCTGGGATCGCTGATCGCCGGCCCGTATGCCGGCGGCCTGCTCG
CCCAGTTCGGCGCCGAGGTGCTGAAGATCGAAGCGCCGGGCGAAGGCGATCC
GCTGCGCAAATGGCGCAAGCTGTACGAGGGCACCTCGCTGTGGTGGTACAGCC
AGAGCCGCAACAAGAAGTCGCTGACGCTGGACCTGCGCAGCGCGCAAGGCCA
GGACATCGTGCGCAAGCTGGTGGCCGGCGCCGATATCGTGATCGAGAACTTCC
GCCCCGGCACGCTGGAGAAATGGGGCCTGGGCTGGGAAGACCTGCGCAAGGT
GAATCCGGCCCTGGTCATGGTGCGCATTTCCGGCTATGGCCAGACCGGCCCCT
ACAAGGACCGCCCGGGGTTTGCCGCGATCGCGGAATCGATGGGCGGGCTGCG
CTATGTCAGCGGCTACCCCGACCGGCCGCCGGTGCGGTCCGGCGTCAGCATC
GGCGACACGCTGGCGTCGCTGTACGGCGTGATCGGCGCGCTGCTGGCCATGC
ACCATCTGCGCAACAACGATGGCGAAGGGCAGTTTGTGGACGTGGCCCTGTAC
GAGTCGGTCTTTGCCGTGATGGAAAGCCTGGTGCCGGAGTTCGACAAGTTCGG
CCATGTGCGCGAGCGTTCCGGCGCCAGCCTCCCCGGCATTTCGCCGTCGAACA
CATATCCCTGCCAGGATGGACAGTACGTGATCATCGCGGGCAATGGCGACGCC
ATCTTCCGGCGCTTCATGACGGCGATCGGCCGCGACGACCTCGGCCAGGATCC
GCGCCTGGCTCACAACGATGGCCGCGTGCAGCACAACGCCATGCTCGACGAC
GCCATCGCCGCATGGACCGCCGCGCACGACCTCGACACCGTGCTGGCGACGC
TGGAAGCCGCGGCGGTGCCTTGCGGGCGCATCTACACCGCGCAGGACATCTG
CAGCGACCCCCACTACAGTGCGCGCGGCATGATCGAGCCGCACCAGCTTCCG
GACGGCTCGCCGCTGGCCCTGTCGGGCATCGTGCCCAGGCTCAGTGAAACCC
CCGGGCGTACCAACTGGATCGGCCCGGCGCTGGGCGAGCACACCGAAGAGAT
CCTGGCGGGCATCGGCATTGCCGGCGCCGAATTCCGCGCGCTGCGCGAGGCC
GGCGTGGTCTGA
[0188] SEQ ID NO: 32 (Acetil-CoA:oxalato CoA-transferase (ACOCT) de cepa Acetobacter aceti 1023; EC 2.8.3.19; Acesso UniProt A9X6P9; Aa_CoAT3):
MTETTPAKPKGPFDGLLVIDLTHVLNGPFGTTILTDLGARTIKIEPPGHGDDT
RTYGPYVGDQSLYFSFVNRGKESIVLNLKDEGDRAIFLEMVRKADVLAENFRPGVM
DRLGFNYEELAKINPRLIYASSSGFGQTGPLAHYPAYDTIVQAMSGIMMATGFPDGP
PTRVGGTSLSDLCGGVFMFCGIASALYARERTGKGAHIDVSMFDGTLAFLQHALMC
WSATGKAPARIGNRHPYMAPFDVFQAQDKPFVICCGNDHLFKALCDVIGAPELATD
PRFVENHDRMANNDALKAALEKALSKQPAAHWLDVIHKAGVPVGPLLDVAEAANLP
QTAARNMLIKSGGVMMPGNPVKISGYDDPHERPGAPKLDEQGAALRKEFAAPEAK
[0189] SEQ ID NO: 33 (Acetil-CoA:oxalato CoA-transferase (ACOCT) de Escherichia coli MG1655; EC 2.8.3.19; Acesso UniProt P76518; Ec_yfdE):
MTNNESKGPFEGLLVIDMTHVLNGPFGTQLLCNMGARVIKVEPPGHGDDT
RTFGPYVDGQSLYYSFINHGKESVVLDLKNDHDKSIFINMLKQADVLAENFRPGTME
KLGFSWETLQEINPRLIYASSSGFGHTGPLKDAPAYDTIIQAMSGIMMETGYPDAPP
VRVGTSLADLCGGVYLFSGIVSALYGREKSQRGAHVDIAMFDATLSFLEHGLMAYIA
TGKSPQRLGNRHPYMAPFDVFNTQDKPITICCGNDKLFSALCQALELTELVNDPRFS
SNILRVQNQAILKQYIERTLKTQAAEVWLARIHEVGVPVAPLLSVAEAIKLPQTQARN
MLIEAGGIMMPGNPIKISGCADPHVMPGAATLDQHGEQIRQEFSS
[0190] SEQ ID NO: 34 (Formiato desidrogenase de Saccharomyces cerevisiae S288C; EC 1.2.1.2; Acesso UniProt Q08911; Sc_FDH1):
MSKGKVLLVLYEGGKHAEEQEKLLGCIENELGIRNFIEEQGYELVTTIDKDP
EPTSTVDRELKDAEIVITTPFFPAYISRNRIAEAPNLKLCVTAGVGSDHVDLEAANER
KITVTEVTGSNVVSVAEHVMATILVLIRNYNGGHQQAINGEWDIAGVAKNEYDLEDKI
ISTVGAGRIGYRVLERLVAFNPKKLLYYDYQELPAEAINRLNEASKLFNGRGDIVQRV
EKLEDMVAQSDVVTINCPLHKDSRGLFNKKLISHMKDGAYLVNTARGAICVAEDVAE
AVKSGKLAGYGGDVWDKQPAPKDHPWRTMDNKDHVGNAMTVHISGTSLDAQKRY
AQGVKNILNSYFSKKFDYRPQDIIVQNGSYATRAYGQKK
[0191] SEQ ID NO: 35 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Bifidobacterium animalis subsp. lactis DSM 10140; EC 2.8.3.16; Acesso UniProt B9X295; Ba_frc):
MADKSTAPLAGIKVIDWTQVQSGPSCTQILAWLGAEVIKLEKVHGGDPTRN
EMNDVDGSYSLYFLQLNANKKSITLDMKDPEGKKILTDLLKDADVFVENIGPGDVEK
LGFGWDEVHKINPKLIMASLKGFNQGSRFEHVKAFEPVAQCAGGAASTTGWWEGD
KNIPTQSGAALGDSNTGMHLTIAILTALLQRERTGEGVFVYQSMQNAVLNLCRIKLR
DQLILDHLHQLSYYDCYPGYKFGKAIPRAANAEGGLVLGWCYRAKGWETDPNAYV
YIVIQQSQKGFENFCNAMGFQDWLTDPKFSTPNARDEHKQEVYKRVEEYTMQYDK
YTLTKELGAKGVPVGPVLDWNELENDPDLNEDGTLITIDQGDARGKFKTIGLPFTMS
NYAPDYQRAPKLGENNEEILKSLGYTDEQIADLATKGVIGSNDGVKADLTAAPAQA
[0192] SEQ ID NO: 36 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.16; Co_frc1):
MPAQHTHATPAGPLDGIRVLDLTAVVLGPLATQVLADFGADVIKIEGPEGDL
MRANGVSQHAGMSSIYLALNRNKRSVVLDLKIPEGAEALRALIAGADVLVHNMRVA
AIERLGFGYEAVARINPRIVYCVATGFGQDGPHRDKPAFDDIIQAGCGLVALGAGNG
ERPEYVPSLIADKTTGLALANAVLAALLHRERHGVGQSVEVPMLETMAAFVMTEHL
GGLTFEPAPAGAGYARLLQGGRRPAPTRDGWICALPYTERHWHAFFRAVGRDDLA
DRYEVGDRAQRNANIRALYGHLAELTPERSTAEWMALFEALDIPATPIYDLDALVDH
PHLRAVGLFQATQHPTEGPLREVRPAARFSATPLSLRRHAPALGEHTAEVLQEAGI
ALPAAHAGTPAGAQE
[0193] SEQ ID NO: 37 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.16; Co_frc2):
MNLPLNGIKIIDFTHVQAGPACTQLLAWFGADVIKVERPGSGDVTRTQLRDI
PDVDALYFTMLNSNKRSLTLDTKKPEGKKILEQLIRESDVLVENFGPGALDRMGFSW
ERINELNPKMIVASVKGFSDGHHYEDLKVYENVAQCAGGAASTTGFWDGPPTVSA
AALGDSNTGMHLAIGILTALIGRDKTGKGQKVAVSMQDAVLNLCRVKLRDQQRLDR
LGFLEEYPQYPHGSFSDVVPRGGNAGGGGQPGWVLKCKGWETDPNAYIYFTIQG
HAWEPICKALGKPEWIDDPNYATAKARQPHIFDIFNTIEEWLADKTKYEAVDILRKHD
IPCSPVLSMKEIAADPSLRASGSITEVPHKERGTYLTVGSPIKFSDLKPEITGSPLLGE
HSEEVLAGLGYGTDDIKRLRESQVI
[0194] SEQ ID NO: 38 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Escherichia coli MG1655; EC 2.8.3.16; Acesso UniProt P69902; Ec_frc):
MSTPLQGIKVLDFTGVQSGPSCTQMLAWFGADVIKIERPGVGDVTRHQLR
DIPDIDALYFTMLNSNKRSIELNTKTAEGKEVMEKLIREADILVENFHPGAIDHMGFT
WEHIQEINPRLIFGSIKGFDECSPYVNVKAYENVAQAAGGAASTTGFWDGPPLVSA
AALGDSNTGMHLLIGLLAALLHREKTGRGQRVTMSMQDAVLNLCRVKLRDQQRLD
KLGYLEEYPQYPNGTFGDAVPRGGNAGGGGQPGWILKCKGWETDPNAYIYFTIQE
QNWENTCKAIGKPEWITDPAYSTAHARQPHIFDIFAEIEKYTVTIDKHEAVAYLTQFDI
PCAPVLSMKEISLDPSLRQSGSVVEVEQPLRGKYLTVGCPMKFSAFTPDIKAAPLLG
EHTAAVLQELGYSDDEIAAMKQNHAI
[0195] SEQ ID NO: 39 (Formil-CoA:oxalato CoA-transferase (FCOCT) de Oxalobacter formigenes DSM 4420; EC 2.8.3.16; Acesso UniProt O06644; Of_frc):
MTKPLDGINVLDFTHVQAGPACTQMMGFLGANVIKIERRGSGDMTRGWLQ
DKPNVDSLYFTMFNCNKRSIELDMKTPEGKELLEQMIKKADVMVENFGPGALDRMG
FTWEYIQELNPRVILASVKGYAEGHANEHLKVYENVAQCSGGAAATTGFWDGPPTV
SGAALGDSNSGMHLMIGILAALEMRHKTGRGQKVAVAMQDAVLNLVRIKLRDQQRL
ERTGILAEYPQAQPNFAFDRDGNPLSFDNITSVPRGGNAGGGGQPGWMLKCKGW
ETDADSYVYFTIAANMWPQICDMIDKPEWKDDPAYNTFEGRVDKLMDIFSFIETKFA
DKDKFEVTEWAAQYGIPCGPVMSMKELAHDPSLQKVGTVVEVVDEIRGNHLTVGA
PFKFSGFQPEITRAPLLGEHTDEVLKELGLDDAKIKELHAKQVV
[0196] SEQ ID NO: 40 (Oxalato decarboxilase (OXDC) de Bacteroides subtilis 168; EC 4.1.1.2; Acesso UniProt O34714; Bs_oxdC):
MKKQNDIPQPIRGDKGATVKIPRNIERDRQNPDMLVPPETDHGTVSNMKFS
FSDTHNRLEKGGYAREVTVRELPISENLASVNMRLKPGAIRELHWHKEAEWAYMIY
GSARVTIVDEKGRSFIDDVGEGDLWYFPSGLPHSIQALEEGAEFLLVFDDGSFSENS
TFQLTDWLAHTPKEVIAANFGVTKEEISNLPGKEKYIFENQLPGSLKDDIVEGPNGEV
PYPFTYRLLEQEPIESEGGKVYIADSTNFKVSKTIASALVTVEPGAMRELHWHPNTH
EWQYYISGKARMTVFASDGHARTFNYQAGDVGYVPFAMGHYVENIGDEPLVFLEIF
KDDHYADVSLNQWLAMLPETFVQAHLDLGKDFTDVLSKEKHPVVKKKCSK
[0197] SEQ ID NO: 41 (Oxalato oxidase (OXO) de Hordeum vulgare; EC
1.2.3.4; Acesso UniProt P45850; Hv_OxOx):
MSDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTS
TPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGEL
LVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIV
FVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS
[0198] SEQ ID NO: 42 (Oxalato oxidorredutase (OOR) da subunidade alfa de Moorella thermoacetica ATCC 39073; EC 1.2.7.10; Acesso UniProt Q2RI41; Mt_OORA!):
MGKVRNISGCVAVAHGVRLADVDVICSYPIRPYTGIMSELARMVADGELDA
EFVHGEGEHAQLSVVYGASAAGARVFTGSSGVGVTYAMEVYSPISGERLPVQMAIA
DRTLDPPGDFGEEHTDAECCRDQGWIQGWASTPQEALDNTLIYYRVGEDQRVLLP
QYACLDGYFVSHILGPVDIPDEAQVKEFLPPYKNHHVLDPRKPQIIGPQIEPAMGPPL
QYQRYQAVKGVHKVLEEACDEFARIFGRKYDPYLDEYLTDDAEVIIFGQGAHMETA
KAVARRLRNLGEKVGVARLRTFRPFPTEQIKERLSKFKAIGVLDVSANFGISCSGGV
LLSELRAALYDYGDKVKTVGFVAGLGGEVVTHDEFYRMFQKLKEIAKTGKVEQTSY
WIPFEL
[0199] SEQ ID NO: 43 (Oxalato oxidorredutase (OOR) da subunidade beta de Moorella thermoacetica ATCC 39073; EC 1.2.7.10; Acesso UniProt Q2RI42; Mt_OORB):
MMDRIASIKKAPDEEYYVPGHRTCAGCGPALTYRLVAKAAGPNTIFIGPTGC
MYVANTSYGCGPWRVPWIHAQITNGGAVASGIEAAYKAMIRKKKTDAEFPNIIVMAG
DGGAVDIGLQALSAMLYRGHDVLFICYDNESYANTGIQTSPTTPYGANTTFTPPGEV
VPEGKKLFPKDNPKVIAHGHPELKYVATASIGWPVDLMNKVRKGLNQEGPAYIHIHA
PCPKGWQFPADKTIEMAKLAVQTGMFQLYEYENGEYKLSVKVDKRKPVSEYMKLQ
KRFAHLKPEHIAKMQAFVDARCAEVGITVPVVASNA
[0200] SEQ ID NO: 44 (Oxalato oxidorredutase (OOR) da subunidade delta de Moorella thermoacetica ATCC 39073; EC 1.2.7.10; Acesso UniProt Q2RI40; Mt_OORD):
MSTKDLFAEPNLKQITVWARGVVMNKDARDIVVALTEAAAKEGKYVQAWE
NYVDLPDRIYVPVRAYARISSDPIESKYIYENETPDIVVLVEESLIKGVPILKGIRPGSTL
VVNTKRSIDTILEFLGDTGNLAQIVTVDANSMAEAVMTLSGAEGATDATGIGAGIAAPI
AGAVVKATGIVDVENLAAVVKNPAAMRRGYAEAQVRQLPPHEAVEEAAVSATELLR
QMPFAGTVPSPVTENEGMVTGNWRIQRPIIDREACTECYTCWIYCPDSCITRTEEG
PVFNMKYCKGCGLCTAVCPSGALTNVPELDFKD
[0201] SEQ ID NO: 45 (Oxalato--CoA ligase / Oxalil-CoA sintetase (OXS) de Arabidopsis thaliana col-1; EC 6.2.1.8; Acesso UniProt Q9SMT7; At_AAE3):
MDSDTLSGLLENVAKKFPDRRALSVSGKFNLTHARLHDLIERAASRLVSDA
GIKPGDVVALTFPNTVEFVIMFLAVIRARATAAPLNAAYTAEEFEFYLSDSDSKLLLTS
KEGNAPAQEAASKLKISHVTATLLDAGSDLVLSVADSDSVVDSATELVNHPDDGALF
LHTSGTTSRPKGVPLTQLNLASSVKNIKAVYKLTESDSTVIVLPLFHVHGLLAGLLSSL
GAGAAVTLPAAGRFSATTFWPDMKKYNATWYTAVPTIHQIILDRHASHPETEYPKLR
FIRSCSASLAPVILSRLEEAFGAPVLEAYAMTEATHLMSSNPLPEEGPHKPGSVGKP
VGQEMAILNEKGEIQEPNNKGEVCIRGPNVTKGYKNNPEANKAGFEFGWFHTGDIG
YFDTDGYLHLVGRIKELINRGGEKISPIEVDAVLLTHPDVSQGVAFGVPDEKYGEEIN
CAVIPREGTTVTEEDIKAFCKKNLAAFKVPKRVFITDNLPKTASGKIQRRIVAQHFLEK
P
[0202] SEQ ID NO: 46 (Oxalato--CoA ligase / Oxalil-CoA sintetase (OXS) de Methylobacterium extorquens AM1 / DSM 1338; EC 6.2.1.8; Acesso UniProt C5APP0; Me_oxs):
MTMLLPEPSALLPTDSKEASVPATTLHELIQAGADAAPALSSPGGVPLTFQA
LRALTERTVADLNARGIGRGDRVAIVLPNGPEMAAAFIAVAAGTTSAPLNPSYKADE
FEFYMSDLGAKLLLVAEGSETPAVAVAEKLGVSVARLRPTPDEGAGSFTLHFASEST
GPTEKSGPAGSDDIALVLHTSGTTSRPKIVPLTQANVCASARNIRTALAFGPEDRGL
NIMPLFHIHGLIAGILAPLSVGGQVSCTPGFNALKFFGWMDEVNPTWYTGVPTMHQ
AILGRAARNKEIIARNPLRFIRSSSSSLPPQVMKELEETFGAPVIEAYGMTEAAHQMA
SNPLPPKPHYAGSVGLAAGPEIAVVDLDGEPLPAGETGEIVIRGDNVMKGYENNEK
ANAEAFTKQGWFRTGDQGVLSPEGYLSITGRLKEIINRGGEKISPREVDEILMDHPA
VSQCVTFAVPHDKLGEDVAAAIVLREGVEAVEKDIRSFASERLAAFKVPAKILILDEIP
KGATGKLQRIGLAQKLGLV
[0203] SEQ ID NO: 47 (Oxalato--CoA ligase / Oxalil-CoA sintetase (OXS) de Saccharomyces cerevisiae S288C; EC 6.2.1.8; Acesso UniProt P38137; Sc_YBR222C):
MTSAATVTASFNDTFSVSDNVAVIVPETDTQVTYRDLSHMVGHFQTMFTNP
NSPLYGAVFRQDTVAISMRNGLEFIVAFLGATMDAKIGAPLNPNYKEKEFNFYLNDL
KSKAICVPKGTTKLQSSEILKSASTFGCFIVELAFDATRFRVEYDIYSPEDNYKRVIYR
SLNNAKFVNTNPVKFPGFARSSDVALILHTSGTTSTPKTVPLLHLNIVRSTLNIANTYK
LTPLDRSYVVMPLFHVHGLIGVLLSTFRTQGSVVVPDGFHPKLFWDQFVKYNCNWF
SCVPTISMIMLNMPKPNPFPHIRFIRSCSSALAPATFHKLEKEFNAPVLEAYAMTEAS
HQMTSNNLPPGKRKPGTVGQPQGVTVVILDDNDNVLPPGKVGEVSIRGENVTLGY
ANNPKANKENFTKRENYFRTGDQGYFDPEGFLVLTGRIKELINRGGEKISPIELDGIM
LSHPKIDEAVAFGVPDDMYGQVVQAAIVLKKGEKMTYEELVNFLKKHLASFKIPTKV
YFVDKLPKTATGKIQRRVIAETFAKSSRNKSKL
[0204] SEQ ID NO: 48 (Oxalato:formiato antiportadora (oxlT) de Bifidobacterium animalis subsp. lactis DSM 10140; Acesso UniProt B9X293; Ba_OxlT):
MTKILIDDIIPIIVIMALGYVCGKLSYFDNDQRQGLNKLVLNIALPAALFISIVKA
TREMLAQDAVLTILGFIGIIVMFMLSYYLCRLMFHHSIQEAAVCALIAGSPTIGFLGFAV
LDPIYGDTVSTNLVIAIISIVVNAVTIPIGMYLINLGQSKDRERLSKAAVTNSKGQVSIAN
PKDDIAVDPNKDAKTDKTAEVMISKSSNMGKKKNQNLEALINALKQPVCWAPLLAIV
LVLIGVRVPSGFAPTFDLIAKANSGVAVLAAGLALSTVKFSLGWETIWNTFYRLILTPA
AFLGVGLLLGMGSNVNKLSMLVMAVALPPAFSGIIISSRYNIYVKEGASTTAVSTVAF
AVTCLLWIWLVPLCCH
[0205] SEQ ID NO: 49 (Oxalato:formiato antiportadora (oxlT) de Cupriavidus oxalaticus ATCC 11883; Co_OxlT1):
MSNATAGALSPNQGASESTRWIQLLVGVVCMIATANIQYAWTLFVPEIQDT
YGWSRASIQIAFTVFVLVQTWLAPIEGYFIDKFGPRMMVAFGALFIGTAWVINSQATT
LMGFYVGAAVGGLGVGSIYATCINNALKWFPDRRGLAVGLTAGGYGAGSAATILPIA
AMIESQGFQHTFLFFGLLQGSLAFVAAWFLRSPKTGEVRGSKKLAQATRDYTLKEA
LCTRLFWLMLVMFVLVVTGGMMAVAQLGVIAKDLGVKEFQVDLHFFVMAALPLALM
LDRIMNGISRPLFGWISDNIGREKTMVIAFTLEGLGIIALGYFGSNPYAFLILSGVVFLA
WGEVYSLFSALAGDAFGTKHIGKIYGVLYTAKGIGALFVPIGNLLMEATGTWSTVLYT
VAVMDLTAAFLAIMVLRPVLASHVATSRQRFAQESAAAGAQVAA
[0206] SEQ ID NO: 50 (Oxalato:formiato antiportadora (oxlT) de Cupriavidus oxalaticus ATCC 11883; Co_OxlT2):
MELQQRESTSRFASPWVQLVFGVICMAMIANMQYGWTLFVNPIDDKYHW
GRTAIQVAFTIFVVTETWLVPIEGYLVDKYGPRPVVVGGGLLCAIAWALNSVASSLP
MLYFAAAIGGVGAGAVYGTCVGNALKWFPNRRGLAAGITAAGFGAGSAMTVVPIAN
MIKTSGYEATFLWFGLGQGLIVFILGLALYPPSARILSEVKTTLKAAATYNATPRQVLK
SPIFWIMYAMFVMMAAGGLMATAQLGPIAKDFGLHDSPVSILGLTLPALTFALTIDRV
LNGLTRPFFGWISDHIGRERTMFFAFAVEAVGILLLSKYGHNPVAFVVLTGIVFFAWG
EIYSLFPATCGDTFGPKFAATNAGLLYTAKGTAALLVPFSSVITAATGDWHAVFMLA
SGMAALSAVLALFVLKPMREAHARKYVHANTAAPMGYRAVQEDLT
[0207] SEQ ID NO: 51 (Oxalato:formiato antiportadora (oxlT) de Escherichia coli MG1655; Acesso UniProt P37662; Ec_YhjX):
MTPSNYQRTRWLTLIGTIITQFALGSVYTWSLFNGALSAKLDAPVSQVAFSF
GLLSLGLAISSSVAGKLQERFGVKRVTMASGILLGLGFFLTAHSDNLMMLWLSAGVL
VGLADGAGYLLTLSNCVKWFPERKGLISAFAIGSYGLGSLGFKFIDTQLLETVGLEKT
FVIWGAIALLMIVFGATLMKDAPKQEVKTSNGVVEKDYTLAESMRKPQYWMLAVMF
LTACMSGLYVIGVAKDIAQSLAHLDVVSAANAVTVISIANLSGRLVLGILSDKIARIRVIT
IGQVISLVGMAALLFAPLNAVTFFAAIACVAFNFGGTITVFPSLVSEFFGLNNLAKNYG
VIYLGFGIGSICGSIIASLFGGFYVTFYVIFALLILSLALSTTIRQPEQKMLREAHGSL
[0208] SEQ ID NO: 52 (Oxalato:formiato antiportadora (oxlT) de Oxalobacter formigenes DSM 4420; Acesso UniProt Q51330; Of_oxlT):
MNNPQTGQSTGLLGNRWFYLVLAVLLMCMISGVQYSWTLYANPVKDNLGV
SLAAVQTAFTLSQVIQAGSQPGGGYFVDKFGPRIPLMFGGAMVLAGWTFMGMVDS
VPALYALYTLAGAGVGIVYGIAMNTANRWFPDKRGLASGFTAAGYGLGVLPFLPLIS
SVLKVEGVGAAFMYTGLIMGILIILIAFVIRFPGQQGAKKQIVVTDKDFNSGEMLRTPQ
FWVLWTAFFSVNFGGLLLVANSVPYGRSLGLAAGVLTIGVSIQNLFNGGCRPFWGF
VSDKIGRYKTMSVVFGINAVVLALFPTIAALGDVAFIAMLAIAFFTWGGSYALFPSTNS
DIFGTAYSARNYGFFWAAKATASIFGGGLGAAIATNFGWNTAFLITAITSFIAFALATF
VIPRMGRPVKKMVKLSPEEKAVH
[0209] SEQ ID NO: 53 (Oxalil-CoA decarboxilase (OXC) de Bifidobacterium animalis subsp. lactis DSM 10140; EC 4.1.1.8; Acesso UniProt B9X297; Ba_oxc):
MVDVSVTATSSDQNLTDSPHYLAETLIKNGVKHMYGVVGIPVTDFARIAQG
MGIRFIGMRHEEDAVNAAAAEGFLTGRPAVALTVSAPGFLNGLAPLLEATTNGFPVI
MIGGSSTRHVVDMHEGEYEGLDQMNYAKQFCKESFRIDKIEDIPLAVARAMHIACS
GRPGGVYIDFPDDAVAQTLDKDVAESQLWVANQPAPAMPPAQSSVDEALKLLSEA
KNPLMLVGKGAALAQAEDELREFVEKTDMPFQPMSMAKGVIPDDDPHCTASCRGL
ALRTADVVLLVGARLNWMLNFGEGKEWNPNVKFIQIDIDPNEIENARSIACPVVGDIK
SAMQMINAGLEKTPVKASAQWLDMLKADAEKNDAKFAARVNSNTVPMGHYDALGA
IKKVYDQHKDMILTNEGANTLDDCRNIIDIYQPRHRLDCGTWGVMGCAVGYSIGAAV
ATGKPVLYVGGDSGFGFDGMEVEVACRYNLPITFVVLNNGGIYRGDFENLGDDGD
PSPLTLSYDAHYERMIEAFGGNGYYATTPAEVEQMVGEAVASGKPSLVHVQLADYA
GKESGHISNLNPKPVVGPLATSEMTANPYLKGAHM
[0210] SEQ ID NO: 54 (Oxalil-CoA decarboxilase (OXC) de Cupriavidus oxalaticus ATCC 11883; EC 4.1.1.8; Co_oxc):
MAEVGNELQRHAAEEHQAQTDGFHLVIDALKLNGIENIYGLPGIPVTDLARL
AQANGMRVISFRHEQNAGNAAAIAGFLTQKPGVCLTVSAPGFLNGLTALAHATTNC
FPMILISGSSEREIVDLQQGDYEEMDQLAIARPHAKAAFRVLHAEDIGVGIARAIRAAV
SGRPGGVYLDLPAKLLGQSMEAEKGRKSLIKVVDPAPRQLPAPDSVDRAVALLKSA
KRPLILVGKGAAYARAEADIRTLVEKTGIPYLPMSMAKGLLPDTHPQSASAARSYVL
AEADVVLLVGARLNWLLSHGKGKTWGKPKQFIQIDIAPTEMDSNVAIAAPVVGDIGS
CVSAILDKVGDDFARPGADWLNAVADRRDTNLAKMAETLARSRDASPMNFHGALG
VLKDVVKANPNISFVNEGANTLDYARAVIDMYEPRKRLDVGTWGVMGVGMGYAVA
AAVETGKPVLALCGDSAFGFSGMEVETICRYNLPVCIVIFNNNGVYKGIDVNPTGGR
DPAVTTFVPGARYDKMMEAFGGVGANVTTPAELEAAVNEALRSGKPTLVNAVIDPA
AGTESGRLTNLNPQSSAKK
[0211] SEQ ID NO: 55 (Oxalil-CoA decarboxilase (OXC) de Escherichia coli MG1655; EC 4.1.1.8; Acesso UniProt P0AFI0; Ec_oxc):
MSDQLQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFR
HEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRA
IVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLD
LPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAY
SQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARL
NWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTF
TTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEG
ANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFG
FSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAF
RGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHITKLNPKQVAGN
[0212] SEQ ID NO: 56 (Oxalil-CoA decarboxilase (OXC) de Oxalobacter formigenes DSM 4420; EC 4.1.1.8; Acesso UniProt P40149; Of_oxc):
MSNDDNVELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFY
SFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSS
EREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVY
VDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGA
AYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGA
RLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKAL
KGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLAN
PDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVI
AVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGR
YDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVESGRIKSLN
VVSKVGKK
[0213] SEQ ID NO: 57 (Oxalil-CoA decarboxilase (OXC) de Saccharomyces cerevisiae S288C; EC 4.1.1.8; Acesso UniProt P39994; Sc_YEL020C):
MTTTATQHFAQLLQKYGIDTVFGIVGIPIVQLADTMVANGIKFIPCRNEQAAS
YAASAYGYISDKPGVLLIVGGPGLIHALAGIYNSMSNRWPLLVIAGSSSQSDIHKGGF
QELDQVSLLSPFLKFTGKLTPDNIDMITQKALNYCIQGTAGVSYIDVPADFIEYEKPLE
GNDRTGNELPMILTPNICGPDPSKIKKVVQLILQHKNKNILIVIGKGAVKNSHEIRRLV
NTFNLPFLPTPMAKGIVPDSSPLNVSSARSQALKIADIVLVLGARLNWILHFGTSPKW
NSESIFIQFDSNPETLGDNNVSPGADLSIWGDIGLSVTALVEELTRQDSCWKYSGVK
QEIREKIQLNQTRLLRKEKTRGAQLNYNQVYGTLRPLIDDYRTILVTEGANTMDIARIS
FPTDAPRRRLDAGTNATMGIGLGYALACKASHPELDVVLIQGDSAFGFSAMEIETAV
RCQLALVIVVMNNSGIYHGEKDIEGDLPPTALSKNCRYDLVGKGLGANDFFVNTISE
LSRCFQQAVQLSRTKRETSVINVIIEPGEQKQIAFAWQNKPRL
[0214] SEQ ID NO: 58 (Oxalil-CoA redutase / Glioxilato:NADP+ oxidorredutase (OXR) de Methylobacterium extorquens AM1 / DSM 1338; EC
1.2.1.17; Acesso UniProt C5APN9; Me_PanE):
MSIAIVGAGAIGGYLGVRLAEAGEDVTFIARSNAAAIQADGMRLIEEDGTEIH
SKSVKATRSMQEAGVHEVVLLTVKAHQVGPIAADLHHLIGPDTVVVTMQNGIPWWY
FLGGYSGDHAGTRLESADPGGLIADHLDPKHVIGSVVYPATVLTDPGTVKVIEGNRF
GLGELDGSKSERVLALSQRLARAGFRAPVTSDIRAEIWLKLWGNLSFNPISALTHAT
LEDICRFPDTRAIAAEMMREAEVIANKLGVTFRLGIDKRIAGAEKVGPHKTSMLQDVE
AGRPIELEALVGSVIELGRLTGTPTPHIDTVFALMRLLAQSLERAQGRLAIQGA
[0215] SEQ ID NO: 59 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_ACOCT):
MTQSNLPDLPDLPLTGLRVIDFSRVLAGPYCTALLGDLGAEVIKVEPPGGDD
YRAVGPFAGGKSGLFCAMNRNKQSIVIDLKTEDGLAVARALCRGADVVVENFRPGV
ADKLGIGYAALRELNPSLVYASVSGFGQTGPESHRPAYDIILQAMCGLMDATGAPD
GAPTMLGEAVSDAVSGLFASWGVLAALLAREKTGRGTHVDVSMFDATLSLSATLVA
RYAATGLAPRRVGNRHPSSAPFGAYRAADGFYVVAVLNNKLFQALADAIGRPAMA
HDPRFADDETRCRFESDLRAMLENWSATRTVAEVNAALGAAGIPVAPIRNVKEALE
SEHAAHRRLLTEVPDTDGGTVRLPSQPVKFSAYGTNRVTPAPALGQHTGAILAAPD
FSNFNKEKQHA
[0216] SEQ ID NO: 60 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_CaiB):
MGALSHLRVLDLTRVLAGPWCAQNLADFGADVIKIERPGAGDDTRTWGPP
WLKDEDGRDTAEAAYYLAANRNKRSVTCDISTPEGQQIVRDLAAQSDVVLENYKVG
QLKKYGLDYESLRQVKPDLIYCSVTGFGQTGPYAARPGYDFIIQGMGGFMSLTGER
DDLPGGGPQKAGVAISDLMTGQYATIAVLAALAHRERTGEGQYIDMALLDVQVAML
ANMNTNYLASGEAPRRWGNAHPNIVPYQTFQAADGWIIVAVGNDGQFRKFVTDGG
MPELADDPRFAKNPQRVANRDVLVPILAEMVRPRTRAQWIRDLEAAGVPCGPINTL
DDVFEDDQVKARGLRVDLPHPSAGEVKLVASPIKMSATPPQALRHPPLLGEHTDTV
LAETLGYSAGQIAALRAKGVL
[0217] SEQ ID NO: 61 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_SCACT):
MDKERIRLARLHDKVVSADEAAALIRDGMTVGMSGFTRAGDCKEVPFALAR
RAATEPLRITLMTGASLGNDIDRVLAEADVIARRLPFQSDGTLRRKINAGEVMFIDQH
LSETVEQLRSGQIAPVDVAVVEAVAITEQGGIIPSTSVGNSASFAMLARKVIVEINMN
MPLELEGLHDIYFPVQRPYRQPIPLIAPEQRIGLPYIPIDPEKIAAIVITAKDDSPSNALP
PDDETRSIAGHLNDFLLREVRAGKLSPSLQPLQAGIGTIANAVLHGLVESPFRDLKM
YSEVLQDSTIELLDAGRLSFASASSVTLTREVYQRFLSNLDRYRSRLLLRPQEISNHP
EILRRLGLITINTALECDIYGNVNSTHVGGTHMMNGIGGSGDFARNAHVSVFVTKSV
AKGGEVSSIVPMVAHVDHTEHDVDIIVTEHGLADLRGLAPRERARTVIANCADPQYR
ELLGDYFRRASAHGGQTPHLLEEALSWHVGLRDRGTMRSAQPAQALAA
[0218] SEQ ID NO: 62 (Succinil Putativo-CoA:oxalato CoA-transferase (SCOCT) de Cupriavidus oxalaticus ATCC 11883; EC 2.8.3.2; Co_SCMCT):
MVNEANKEKMPLQGVRVLELGSLIAGPYAGGLLAQFGAEVLKIEAPGEGDP
LRKWRKLYEGTSLWWYSQSRNKKSLTLDLRSAQGQDIVRKLVAGADIVIENFRPGT
LEKWGLGWEDLRKVNPALVMVRISGYGQTGPYKDRPGFAAIAESMGGLRYVSGYP
DRPPVRSGVSIGDTLASLYGVIGALLAMHHLRNNDGEGQFVDVALYESVFAVMESL
VPEFDKFGHVRERSGASLPGISPSNTYPCQDGQYVIIAGNGDAIFRRFMTAIGRDDL
GQDPRLAHNDGRVQHNAMLDDAIAAWTAAHDLDTVLATLEAAAVPCGRIYTAQDIC
SDPHYSARGMIEPHQLPDGSPLALSGIVPRLSETPGRTNWIGPALGEHTEEILAGIGI
AGAEFRALREAGVV
[0219] SEQ ID NO: 63 (pZR748 - vetor de expressão Sc_YBR222C, Sc_YEL020C, Of_oxlT):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGAT
AATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTA
TCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGT
ACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCT
TGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCT
AAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTA
AAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACC
AGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTT
ATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCC
CTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCA
CCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTT
GAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATG
CCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCA
GGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTT
GTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGC
TGAACATGCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTC
TTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACC
TGTCTTGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAA
TCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCA
CCGTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAG
CTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAG
GTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTAT
CAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATC
GCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGG
CCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGA
AGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAG
GTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGA
GTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGT
TCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGGTAAG
CCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGG
GCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATC
TATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAG
TGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATG
AAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGAC
CACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATATGGCATCGACACA
GTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGGATACGATGGTTGCC
AACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCTGCCTCATATGCAGCC
TCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTTACTTATTGTCGGGGGC
CCCGGTTTAATCCACGCACTGGCTGGTATATACAACTCAATGAGTAATAGGTGG
CCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGTGATATACATAAAGGCGGGT
TTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGTTTACCGGAAA
GTTAACCCCTGACAATATTGACATGATTACTCAGAAGGCTTTGAATTACTGTATA
CAAGGCACTGCAGGGGTTTCTTACATAGACGTCCCTGCAGATTTTATTGAGTAT
GAAAAACCCTTAGAAGGAAACGACCGTACAGGAAATGAATTACCGATGATATTA
ACTCCAAACATATGTGGCCCTGATCCGTCGAAGATCAAAAAAGTCGTACAGCTT
ATTTTGCAACATAAAAATAAAAATATTCTGATTGTTATTGGAAAGGGTGCGGTAAA
AAACTCACACGAAATCCGCAGACTAGTAAATACGTTCAATCTACCATTTTTACCC
ACCCCAATGGCTAAGGGAATTGTCCCAGACTCTTCTCCACTGAACGTTTCATCT
GCAAGATCTCAAGCATTGAAAATAGCGGATATTGTTCTTGTTCTCGGGGCAAGA
TTAAACTGGATATTGCATTTTGGTACTTCACCCAAATGGAACTCAGAATCCATATT
CATCCAGTTCGATTCCAATCCCGAAACCTTGGGGGATAACAATGTCTCACCTGG
TGCTGACCTTTCCATATGGGGAGATATAGGCTTGAGCGTAACCGCTTTAGTTGA
GGAATTGACTCGCCAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAAT
ACGAGAGAAAATTCAACTGAATCAAACTCGTCTATTGAGGAAAGAGAAGACTAG
AGGGGCACAATTGAATTACAACCAGGTTTATGGAACATTGAGGCCTCTTATCGA
TGATTACAGGACAATACTTGTGACGGAGGGAGCAAATACTATGGATATTGCGCG
TATTTCATTCCCTACAGACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGC
GACTATGGGGATTGGGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGA
ACTCGATGTGGTGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGA
AATTGAAACGGCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAA
TAGCGGTATTTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGC
ACTAAGCAAGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGA
TTTTTTTGTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCA
GCTTTCTCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGG
CGAACAAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTATAGGGTTC
CTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCT
GGCGTGGTGCTCGCATAGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGG
CCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCT
ATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGT
GTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGA
AAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTAATGAATA
ATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTTGG
TATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGGACACT
GTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGTTCAGAC
GGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTGGTGGTTA
CTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTGGTGCGATGGTT
CTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTGCTCTGTATGCT
CTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGTATCGCGATGAAC
ACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTTCCGGTTTCACCGC
TGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACTGATCAGCTCCGTTCT
GAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGGTTTGATCATGGGTAT
CCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAA
AAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGCGAAATGCTGAGAACA
CCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGC
TGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGT
GTGCTGACGATCGGTGTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCT
TTCTGGGGTTTCGTTTCCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTT
TCGGTATCAATGCTGTTGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCG
ATGTAGCCTTTATCGCCATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCT
ACGCTCTGTTCCCATCGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCA
GAAACTATGGTTTCTTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTG
GTCTGGGTGCTGCAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTA
CTGCGATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAAT
GGGCCGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACA
TTAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACT
GCTATGACTAAACGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTG
GTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCA
GCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAG
TGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGC
TGACGCCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCT
GTATATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCG
AAGCAGGGTTATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACA
AAAAGGTGTTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAG
GTATCATTTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAAC
AAATTTTAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTT
TCATATTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATAC
CTTTTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTC
AGAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATA
TACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAA
CATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAG
TAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATAA
TGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGGAA
AGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATAGAA
ATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTAACTA
TCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCCATATA
AAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAAAATTGTT
TTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTTGCTAAAAT
GTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAGGTAGATATT
TCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTAAAGTGGATAG
CACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTAAAGAGAGAAAA
AAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACGAAAAACTGTTTA
CAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATATGATATAAACAAT
ATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAAATATTTAACGGCTA
AAAACAATAGGCCACATGCAACTGTAAATGTTTACGCGGGTACCGACACCGCGG
TGGAGGGGAATTACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTA
TAGTTGATTAAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGT
AGGGTTTCATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTG
CCGGGATTCCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGG
TACTGAGCAAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTA
GTAGGTTTCCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAG
GTAATCGTTCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAA
ATGGATGTCCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATC
GTCAGGCTGTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACA
TCGCTTCTTTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAG
AACAGGAAAACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGG
TAGTCTTTCAGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGG
TGGTTTTCAGTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTT
CTTGAAGCTCCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGT
GCTGTTTCTCATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCA
AACTCGTTGAAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCC
TCACTGCTGCAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCA
CTCTTTTACAAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGG
CTGTTCTTCACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGG
GTCGTTGGCATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGG
CATAGTATTTCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTT
GGTACATCCGTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATC
CGGTAGCCCGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACG
GATGGGTACGTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGC
AAAAATGATGTTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCC
AAATATACACCCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTAC
TCTATATTGTAATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGT
GAAAGTATAAGTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAG
ATTGCAAAACAAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTG
TTTTATTTAAGATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAA
TCCGATGAGAAAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTT
TACATCGTCCTGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGA
TTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTAT
CAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAG
GCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCC
AACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAG
AAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATT
TCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCG
CATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGC
GATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGA
ACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATAC
CTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGG
AGTACGGATAAAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTT
TAGTCTGACCATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTC
AGAAACAACTCTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCT
GATTGCCCGACATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGT
TGGAATTTAATCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAA
CACCCCTTGTATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATA
TTTTTATCTTGTGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTT
GAATAAATCGAACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTT
GATAGTACGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTA
CTAAGCTCTCATGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCA
TGGCTAACGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAA
TAAAATTAATATAAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAG
AAAAAAAAGAATATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACA
ACAAGCCAGGGATGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTT
TGAGTGACACAGGAACACTTAACGGCTGACATGGGGCGGCCGCTCAAGTAG
[0220] SEQ ID NO: 64 (pZR753 - vetor de expressão Ec_frc, Of_oxc, Sc_YBR222C, Of_oxlT):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATCTGGC
CCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAATTGAAC
GTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCCTGATATC
GATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGAGTTAAATA
CCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGCGAAGCTGAT
ATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGGCTTCACCTGG
GAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGATCAAAGGGTTTG
ATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACGTTGCTCAGGCAG
CGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCCGCCGCTGGTAAGC
GCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGCTGATCGGTTTACTT
GCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAACGAGTCACCATGTC
AATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTACGTGACCAGCAGCG
TCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATCCGAATGGTACATTT
GGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCT
GGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGCCTATATTTATTTCAC
TATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATG
GATTACCGATCCGGCATACAGTACAGCCCATGCACGACAGCCACATATTTTCGA
TATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTG
GCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAA
TTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAAC
CGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTAC
GCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCA
GGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCAT
CTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGAC
TGGTAAGCCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAA
AGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATG
GTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATA
TTTGCAGTGTCGAAAGAAACAAAGTAGCCTGAGCTGTCACCGGATGTGCTTTCC
GGTCTGATGAGTCCGTGAGGACGAAACAGCCTCTACAAATAATTTTGTTTAATCC
ATCAATTTAAAATTTAAAATAATGGTTTTTACTCTGGAAGATTTTGTTGGCGATTG
GCGTCAGACCGCGGGTTATAATTTGGATCAAGTCCTGGAACAGGGTGGCGTAA
GCTCTCTGTTCCAGAACCTGGGTGTGAGCGTGACGCCGATTCAGCGCATCGTT
CTGTCCGGCGAGAACGGTCTGAAAATTGATATTCATGTGATCATCCCGTACGAA
GGCCTGAGCGGTGACCAAATGGGTCAAATCGAGAAAATCTTTAAAGTCGTCTAC
CCAGTTGACGATCACCACTTCAAGGTTATCTTGCATTACGGTACGCTGGTGATT
GATGGTGTGACCCCGAATATGATTGACTATTTCGGCCGTCCGTATGAAGGCATT
GCCGTTTTTGACGGTAAAAAGATCACCGTCACCGGTACCCTGTGGAATGGCAAT
AAGATTATTGACGAGCGTCTGATTAACCCGGACGGCAGCCTGCTGTTCCGCGT
GACCATCAACGGTGTCACGGGTTGGCGTCTGTGCGAGCGCATCCTGGCAGGTT
CAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCGA
TGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCTATC
ACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTTCCGT
CACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGGAAAA
CCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCC
CTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTCCAGT
GAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCAGATG
AATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACA
TTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGT
GGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAA
GAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCT
GCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCC
AGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCC
GCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAA
GGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGC
ACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGAT
GCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGA
TCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTG
TTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTC
CAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAAC
AAAGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAA
CTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGA
CATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTAT
TGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCG
CTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCT
GCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAA
AGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAA
TACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACC
ATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTAT
CAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAGCTGAT
TAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCTGGCGTGGTG
CTCGCATAGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT
TACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAAT
TTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAA
ACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGA
AAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACAAGTGCCGCTA
CTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTAT
TGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGG
TCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTC
AGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCT
TTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTAT
AAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCG
TCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCAC
GTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGA
GTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTG
AACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTT
CCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAA
CGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACAC
TTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTC
CATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGG
TTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTG
TAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAA
CCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTC
CAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCT
ATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAA
AGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTA
GATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGA
GGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAAC
TTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCT
GAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATC
GATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAA
GCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAAC
TTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTG
ATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAA
CTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTA
GAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCCCGACGAACGGACTAAT
CCTGACGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTA
CAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTT
AAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAAC
AAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAA
AGAGATTCAAAGGTAATATTAACAATAATTTATTTTAATGAATAATCCACAAACAG
GACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTTGGTATTAGCAGTTTT
GCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGGACACTGTACGCTAACCC
GGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGTTCAGACGGCTTTCACACT
CTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTGGTGGTTACTTCGTTGATAA
ATTCGGTCCAAGAATTCCATTGATGTTCGGTGGTGCGATGGTTCTCGCTGGCTG
GACCTTCATGGGTATGGTTGACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTG
GCCGGTGCAGGTGTTGGTATCGTTTACGGTATCGCGATGAACACGGCTAACAG
ATGGTTCCCGGACAAACGCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACG
GTCTGGGTGTTCTGCCGTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAG
GTGTTGGCGCAGCATTCATGTACACCGGTTTGATCATGGGTATCCTGATTATCC
TGATCGCTTTCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCG
TTGTTACCGACAAGGATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTG
GGTTCTGTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGC
CAACAGCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGA
TCGGTGTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTT
TCGTTTCCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAA
TGCTGTTGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTT
TATCGCCATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTT
CCCATCGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGG
TTTCTTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGC
TGCAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACT
TCTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAG
TCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTA
GCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCTATGACTAAA
CGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCC
ATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGC
AGGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAAC
ACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGG
ATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCG
AAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTAT
GCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTC
TCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTAT
CGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAGCA
TTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTTTTG
CATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTCCGAC
CGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAAAGATGA
GAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACAGACCGA
TACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACATAAATATT
CGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGTAAATATAAA
AGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATAATGAATTGCA
TAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGGAAAGGTCATTT
TACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATAGAAATTGATTCT
AAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTAACTATCAAATAGT
AAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCCATATAAAATATTTG
GCAGCATACCTTACAACATAAGCACAAATATAATTCGAAAAATTGTTTTTGAAAGT
TCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTTGCTAAAATGTTATTAGA
TACAAACAGATCACTAGCATTGCTGTTAATGGCAGAGGTAGATATTTCTATATTA
GCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTAAAGTGGATAGCACATTAA
TTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTAAAGAGAGAAAAAAATATGA
AACTTTTGTAATGAAATGGGTTAACAAAGAGTACGAAAAACTGTTTACAAAAAAT
CAATTTAATAAAGCTTTAAAACATGCGAGAATATATGATATAAACAATATTAGTTT
CGAACAATTTGTATCGCTATTTAATAGTTATAAAATATTTAACGGCTAAAAACAAT
AGGCCACATGCAACTGTAAATGTTTACGCGGGTACCGACACCGCGGTGGAGGG
GAATTACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTATAGTTGAT
TAAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGTAGGGTTT
CATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTGCCGGGAT
TCCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGGTACTGAG
CAAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTAGTAGGTT
TCCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATCG
TTCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAAATGGATG
TCCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGGC
TGTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACATCGCTTC
TTTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAGAACAGGA
AAACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGGTAGTCTTT
CAGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTTC
AGTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTTCTTGAAGC
TCCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGTGCTGTTTC
TCATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCAAACTCGTT
GAAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGCT
GCAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCACTCTTTTA
CAAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCTT
CACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTGG
CATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGGCATAGTAT
TTCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTTGGTACATC
CGTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATCCGGTAGC
CCGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACGGATGGGTA
CGTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGAT
GTTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCCAAATATACA
CCCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTACTCTATATTG
TAATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGTGAAAGTATA
AGTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAGATTGCAAAA
CAAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTAA
GATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAATCCGATGAG
AAAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTTTACATCGTC
CTGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGATTAGAAAAA
CTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCAT
ATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCA
TAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAAT
ACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACCA
TGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAG
ACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAACC
AAACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCTG
TTAAAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGCC
AGCGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAATG
CTGTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACGG
ATAAAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTG
ACCATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACA
ACTCTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGCC
CGACATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAATT
TAATCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCT
TGTATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATC
TTGTGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAAT
CGAACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTTGATAGTAC
GTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTC
TCATGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAAC
GTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAA
TATAAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAG
AATATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAG
GGATGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACA
CAGGAACACTTAACGGCTGACATGGGGCGGCCGCTCAAGTAG
[0221] SEQ ID NO: 65 (pZR761 - vetor de expressão Sc_YBR222C, Sc_YEL020C):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGAT
AATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTA
TCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGT
ACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCT
TGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCT
AAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTA
AAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACC
AGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTT
ATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCC
CTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCA
CCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTT
GAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATG
CCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCA
GGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTT
GTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGC
TGAACATGCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTC
TTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACC
TGTCTTGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAA
TCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCA
CCGTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAG
CTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAG
GTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTAT
CAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATC
GCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGG
CCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGA
AGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAG
GTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGA
GTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGT
TCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGGTAAG
CCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGG
GCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATC
TATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAG
TGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATG
AAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGAC
CACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATATGGCATCGACACA
GTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGGATACGATGGTTGCC
AACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCTGCCTCATATGCAGCC
TCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTTACTTATTGTCGGGGGC
CCCGGTTTAATCCACGCACTGGCTGGTATATACAACTCAATGAGTAATAGGTGG
CCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGTGATATACATAAAGGCGGGT
TTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGTTTACCGGAAA
GTTAACCCCTGACAATATTGACATGATTACTCAGAAGGCTTTGAATTACTGTATA
CAAGGCACTGCAGGGGTTTCTTACATAGACGTCCCTGCAGATTTTATTGAGTAT
GAAAAACCCTTAGAAGGAAACGACCGTACAGGAAATGAATTACCGATGATATTA
ACTCCAAACATATGTGGCCCTGATCCGTCGAAGATCAAAAAAGTCGTACAGCTT
ATTTTGCAACATAAAAATAAAAATATTCTGATTGTTATTGGAAAGGGTGCGGTAAA
AAACTCACACGAAATCCGCAGACTAGTAAATACGTTCAATCTACCATTTTTACCC
ACCCCAATGGCTAAGGGAATTGTCCCAGACTCTTCTCCACTGAACGTTTCATCT
GCAAGATCTCAAGCATTGAAAATAGCGGATATTGTTCTTGTTCTCGGGGCAAGA
TTAAACTGGATATTGCATTTTGGTACTTCACCCAAATGGAACTCAGAATCCATATT
CATCCAGTTCGATTCCAATCCCGAAACCTTGGGGGATAACAATGTCTCACCTGG
TGCTGACCTTTCCATATGGGGAGATATAGGCTTGAGCGTAACCGCTTTAGTTGA
GGAATTGACTCGCCAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAAT
ACGAGAGAAAATTCAACTGAATCAAACTCGTCTATTGAGGAAAGAGAAGACTAG
AGGGGCACAATTGAATTACAACCAGGTTTATGGAACATTGAGGCCTCTTATCGA
TGATTACAGGACAATACTTGTGACGGAGGGAGCAAATACTATGGATATTGCGCG
TATTTCATTCCCTACAGACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGC
GACTATGGGGATTGGGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGA
ACTCGATGTGGTGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGA
AATTGAAACGGCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAA
TAGCGGTATTTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGC
ACTAAGCAAGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGA
TTTTTTTGTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCA
GCTTTCTCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGG
CGAACAAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTATAGGGTTC
CTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCT
GGCGTGGTGCTCGCATAGTAGACTAGAGATCTATGTGAGGATCCTAACTCGAGA
TCGAGACTGCTATGACTAAACGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGG
TTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAG
CCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAA
GGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCT
GCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTGGC
AAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAAT
GACCCCGAAGCAGGGTTATGCAGCGGAAAAGTTATATACATTCATGTCCATTTAT
GTAAAAAATCCTGCTGACCTTGTTTATGTCTTGTCAGTCACCATTTGCAAAACCA
TATTTGACCCTCAAAGAGGCTGAATTTGATAAGCAACTTGCTACATACTCATAAT
AAGGAGCTAAATAGAACACGAATGGGAAATACTCAAATGCCAAACTAAAGAAGA
TATTGGCCAAAATAAACGCTATACCGAGAGAGAAACTTGATTTTTCAACTTCCTA
AAACAGTGTTGTTCAAACATTTCTACTTATTTGTACTTACCAGTTGAACCTACGTT
TCCCTAATAAAATGTCTATGGTAAAAAGTTAAAAAATCCTCCTACTTTTGTTAGAT
ATATTTTTTTGTGTAATTTTGTAATCGTTATGCGGCAGTAATAATATACATATTAAT
ACGAGTTAGGAATCCTGTAGTTCTCATATGCTACGAGGAGGTATTAAAAGGTGC
GTTTCGACAATGCATCTATTGTAGTATATTATTGCTTAATCCAAATGAATATTATA
AATTTAGGAATTCTTGCTCACATTGATGCAGGAAAAACTTCCGTAACCGAGAATC
TGCTGTTTGCCAGTGGAGCAACGGAAAAGTGCGGCTGTGTGGATAATGGTGAC
ACCATAACGGACTCTATGGATATAGAGAAACGTAGAGGAATTACTGTTCGGGCT
TCTACGACATCTATTATCTGGAATGGTGTGAAATGCAATATCATTGACACTCCGG
GACACATGGATTTTATTGCGGAAGTGGAGCGGACATTCAAAATGCTTGATGGAG
CAGTCCTCATCTTATCCGCAAAGGAAGGCATACAAGCGCAGACAAAGTTGCTGT
TCAATACTTTACAGAAGCTGCAAATCCCGACAATTATATTTATCAATAAGATTGAC
CGAGCCGGTGTGAATTTGGAGCGTTTGTATCTGGATATAAAAGCAAATCTGTCT
CAAGATGTCCTGTTTATGCAAAATGTTGTCGATGGATCGGTTTATCCGGTTTGCT
CCCAAACATATATAAAGGAAGAATACAAAGAATTTGTATGCAACCATGACGACAA
TATATTAGAACGATATTTGGCGGATAGCGAAATTTCACCGGCTGATTATTGGAAT
ACGATAATCGCTCTTGTGGCAAAAGCCAAAGTCTATCCGGTGCTACATGGATCA
GCAATGTTCAATATCGGTATCAATGAGTTGTTGGACGCCATCACTTCTTTTATAC
TTCCTCCGGCATCGGTTTCAAACAGACTTTCATCTTATCTTTATAAGATAGAGCA
TGACCCCAAAGGACATAAAAGAAGTTTTCTAAAAATAATTGACGGAAGTCTGAGA
CTTCGAGATGTTGTAAGAATCAACGATTCGGAAAAATTCATCAAGATTAAAAATC
TAAAAACTATCAATCAGGGCAGAGAGATAAATGTTGATGAAGTGGGCGCCAATG
ATATCGCGATTGTAGAGGATATGGATGATTTTCGAATCGGAAATTATTTAGGTGC
TGAACCTTGTTTGATTCAAGGATTATCGCATCAGCATCCCGCTCTCAAATCCTCC
GTCCGGCCAGACAGGCCCGAAGAGAGAAGCAAGGTGATATCCGCTCTGAATAC
ATTGTGGATTGAAGATCCGTCTTTGTCCTTTTCCATAAACTCATATAGTGATGAAT
TGGAAATCTCGTTATATGGTTTAACCCAAAAGGAAATCATACAGACATTGCTGGA
AGAACGATTTTCCGTAAAGGTCCATTTTGATGAGATCAAGACTATATACAAAGAA
CGACCTGTAAAAAAGGTCAATAAGATTATTCAGATCGAAGTGCCGCCCAACCCT
TATTGGGCCACAATAGGGCTGACTCTTGAACCCTTACCGTTAGGGACAGGGTTG
CAAATCGAAAGTGACATCTCCTATGGTTATCTGAACCATTCTTTTCAAAATGCCG
TTTTTGAAGGGATTCGTATGTCTTGCCAATCCGGGTTACATGGATGGGAAGTGA
CTGATCTGAAAGTAACTTTTACTCAAGCCGAGTATTATAGCCCGGTAAGTACACC
AGCTGATTTCAGACAGCTGACCCCTTATGTCTTTAGGCTGGCCTTGCAACAGTC
AGGTGTGGACATTCTCGAACCGATGCTCTATTTTGAGTTGCAGATACCCCAAGC
GGCAAGTTCCAAAGCTATTACAGATTTGCAAAAAATGATGTCTGAGATTGAAGAT
ATCAGTTGCAATAATGAGTGGTGTCATATTAAAGGGAAAGTTCCATTAAATACAA
GTAAAGACTATGCATCAGAAGTAAGTTCATACACTAAGGGCTTAGGCATTTTTAT
GGTTAAGCCATGCGGGTATCAAATAACAAAAGGCGGTTATTCTGATAATATCCG
CATGAACGAAAAAGATAAACTTTTATTCATGTTCCAAAAATCAATGTCATCAAAAT
AACCACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTATAGTTGATT
AAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGTAGGGTTTC
ATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTGCCGGGATT
CCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGGTACTGAGC
AAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTAGTAGGTTT
CCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATCGT
TCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAAATGGATGT
CCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGGCT
GTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACATCGCTTCT
TTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAGAACAGGAA
AACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGGTAGTCTTTC
AGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTTCA
GTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTTCTTGAAGCT
CCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGTGCTGTTTCT
CATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCAAACTCGTTG
AAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGCTG
CAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCACTCTTTTAC
AAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCTTC
ACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTGGC
ATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGGCATAGTATT
TCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTTGGTACATCC
GTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATCCGGTAGCC
CGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACGGATGGGTAC
GTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGATG
TTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCCAAATATACAC
CCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTACTCTATATTGT
AATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGTGAAAGTATAA
GTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAGATTGCAAAAC
AAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTAAG
ATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAATCCGATGAGA
AAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTTTACATCGTCC
TGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGATTAGAAAAACT
CATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCATAT
TTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCATA
GGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAATAC
AACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACCATG
AGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAGAC
TTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAACCAAA
CCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCTGTTA
AAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGCCAG
CGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAATGCT
GTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACGGATA
AAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACC
ATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACAACT
CTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGCCCGA
CATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAATTTAA
TCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGT
ATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTG
TGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGA
ACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTTGATAGTACGTA
CTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCA
TGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTA
CTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATAT
AAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAAT
ATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGA
TGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAG
GAACACTTAACGGCTGACATGGGGCGGCCGCTCAAGTAG
[0222] SEQ ID NO: 66 (pZR856 - vetor de expressão Of_oxlT):
GATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATT
GGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTGAAATTTAAAG
TTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAG
TAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAAAGAG
ATTCAAAGGTAATATTAACAATAATTTATTTTAATGAATAATCCACAAACAGGACA
ATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTTGGTATTAGCAGTTTTGCTG
ATGTGTATGATCTCGGGTGTCCAATATTCCTGGACACTGTACGCTAACCCGGTT
AAAGACAACCTTGGCGTTTCTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCT
CAGGTCATTCAAGCTGGTTCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTC
GGTCCAAGAATTCCATTGATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACC
TTCATGGGTATGGTTGACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCG
GTGCAGGTGTTGGTATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGT
TCCCGGACAAACGCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTG
GGTGTTCTGCCGTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTT
GGCGCAGCATTCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATC
GCTTTCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTT
ACCGACAAGGATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTT
CTGTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACA
GCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGT
GTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTT
CCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGT
TGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATC
GACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTC
TGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAAT
TGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTC
ATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAG
AAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAGCTGA
TTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCTATGACTTGAGACC
GGCTATTACGAGCGCTTAAACGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGG
TTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAG
CCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAA
GGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCT
GCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTGGC
AAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAAT
GACCCCGAAGCAGGGTTATGCAGCGGAAAAGTTATATACATTCATGTCCATTTAT
GTAAAAAATCCTGCTGACCTTGTTTATGTCTTGTCAGTCACCATTTGCAAAACCA
TATTTGACCCTCAAAGAGGCTGAATTTGATAAGCAACTTGCTACATACTCATAAT
AAGGAGCTAAATAGAACACGAATGGGAAATACTCAAATGCCAAACTAAAGAAGA
TATTGGCCAAAATAAACGCTATACCGAGAGAGAAACTTGATTTTTCAACTTCCTA
AAACAGTGTTGTTCAAACATTTCTACTTATTTGTACTTACCAGTTGAACCTACGTT
TCCCTAATAAAATGTCTATGGTAAAAAGTTAAAAAATCCTCCTACTTTTGTTAGAT
ATATTTTTTTGTGTAATTTTGTAATCGTTATGCGGCAGTAATAATATACATATTAAT
ACGAGTTAGGAATCCTGTAGTTCTCATATGCTACGAGGAGGTATTAAAAGGTGC
GTTTCGACAATGCATCTATTGTAGTATATTATTGCTTAATCCAAATGAATATTATA
AATTTAGGAATTCTTGCTCACATTGATGCAGGAAAAACTTCCGTAACCGAGAATC
TGCTGTTTGCCAGTGGAGCAACGGAAAAGTGCGGCTGTGTGGATAATGGTGAC
ACCATAACGGACTCTATGGATATAGAGAAACGTAGAGGAATTACTGTTCGGGCT
TCTACGACATCTATTATCTGGAATGGTGTGAAATGCAATATCATTGACACTCCGG
GACACATGGATTTTATTGCGGAAGTGGAGCGGACATTCAAAATGCTTGATGGAG
CAGTCCTCATCTTATCCGCAAAGGAAGGCATACAAGCGCAGACAAAGTTGCTGT
TCAATACTTTACAGAAGCTGCAAATCCCGACAATTATATTTATCAATAAGATTGAC
CGAGCCGGTGTGAATTTGGAGCGTTTGTATCTGGATATAAAAGCAAATCTGTCT
CAAGATGTCCTGTTTATGCAAAATGTTGTCGATGGATCGGTTTATCCGGTTTGCT
CCCAAACATATATAAAGGAAGAATACAAAGAATTTGTATGCAACCATGACGACAA
TATATTAGAACGATATTTGGCGGATAGCGAAATTTCACCGGCTGATTATTGGAAT
ACGATAATCGCTCTTGTGGCAAAAGCCAAAGTCTATCCGGTGCTACATGGATCA
GCAATGTTCAATATCGGTATCAATGAGTTGTTGGACGCCATCACTTCTTTTATAC
TTCCTCCGGCATCGGTTTCAAACAGACTTTCATCTTATCTTTATAAGATAGAGCA
TGACCCCAAAGGACATAAAAGAAGTTTTCTAAAAATAATTGACGGAAGTCTGAGA
CTTCGAGATGTTGTAAGAATCAACGATTCGGAAAAATTCATCAAGATTAAAAATC
TAAAAACTATCAATCAGGGCAGAGAGATAAATGTTGATGAAGTGGGCGCCAATG
ATATCGCGATTGTAGAGGATATGGATGATTTTCGAATCGGAAATTATTTAGGTGC
TGAACCTTGTTTGATTCAAGGATTATCGCATCAGCATCCCGCTCTCAAATCCTCC
GTCCGGCCAGACAGGCCCGAAGAGAGAAGCAAGGTGATATCCGCTCTGAATAC
ATTGTGGATTGAAGATCCGTCTTTGTCCTTTTCCATAAACTCATATAGTGATGAAT
TGGAAATCTCGTTATATGGTTTAACCCAAAAGGAAATCATACAGACATTGCTGGA
AGAACGATTTTCCGTAAAGGTCCATTTTGATGAGATCAAGACTATATACAAAGAA
CGACCTGTAAAAAAGGTCAATAAGATTATTCAGATCGAAGTGCCGCCCAACCCT
TATTGGGCCACAATAGGGCTGACTCTTGAACCCTTACCGTTAGGGACAGGGTTG
CAAATCGAAAGTGACATCTCCTATGGTTATCTGAACCATTCTTTTCAAAATGCCG
TTTTTGAAGGGATTCGTATGTCTTGCCAATCCGGGTTACATGGATGGGAAGTGA
CTGATCTGAAAGTAACTTTTACTCAAGCCGAGTATTATAGCCCGGTAAGTACACC
AGCTGATTTCAGACAGCTGACCCCTTATGTCTTTAGGCTGGCCTTGCAACAGTC
AGGTGTGGACATTCTCGAACCGATGCTCTATTTTGAGTTGCAGATACCCCAAGC
GGCAAGTTCCAAAGCTATTACAGATTTGCAAAAAATGATGTCTGAGATTGAAGAT
ATCAGTTGCAATAATGAGTGGTGTCATATTAAAGGGAAAGTTCCATTAAATACAA
GTAAAGACTATGCATCAGAAGTAAGTTCATACACTAAGGGCTTAGGCATTTTTAT
GGTTAAGCCATGCGGGTATCAAATAACAAAAGGCGGTTATTCTGATAATATCCG
CATGAACGAAAAAGATAAACTTTTATTCATGTTCCAAAAATCAATGTCATCAAAAT
AACCACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTATAGTTGATT
AAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGTAGGGTTTC
ATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTGCCGGGATT
CCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGGTACTGAGC
AAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTAGTAGGTTT
CCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATCGT
TCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAAATGGATGT
CCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGGCT
GTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACATCGCTTCT
TTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAGAACAGGAA
AACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGGTAGTCTTTC
AGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTTCA
GTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTTCTTGAAGCT
CCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGTGCTGTTTCT
CATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCAAACTCGTTG
AAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGCTG
CAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCACTCTTTTAC
AAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCTTC
ACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTGGC
ATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGGCATAGTATT
TCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTTGGTACATCC
GTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATCCGGTAGCC
CGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACGGATGGGTAC
GTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGATG
TTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCCAAATATACAC
CCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTACTCTATATTGT
AATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGTGAAAGTATAA
GTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAGATTGCAAAAC
AAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTAAG
ATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAATCCGATGAGA
AAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTTTACATCGTCC
TGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGATTAGAAAAACT
CATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCATAT
TTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCATA
GGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAATAC
AACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACCATG
AGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAGAC
TTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAACCAAA
CCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCTGTTA
AAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGCCAG
CGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAATGCT
GTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACGGATA
AAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACC
ATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACAACT
CTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGCCCGA
CATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAATTTAA
TCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGT
ATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTG
TGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGA
ACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTTGATAGTACGTA
CTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCA
TGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTA
CTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATAT
AAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAAT
ATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGA
TGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAG
GAACACTTAACGGCTGACATGGGGCGGCCGCTCAACGTACCGGTCTCAGTAGG
GAGAGCTGTATGTGGGTAG
[0223] SEQ ID NO: 67 (pZR878 - vetor de expressão Ec_frc, Of_oxc, Sc_YBR222C, Sc_YEL020C, At_AAE3, Ec_yfdE):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATCTGGC
CCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAATTGAAC
GTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCCTGATATC
GATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGAGTTAAATA
CCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGCGAAGCTGAT
ATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGGCTTCACCTGG
GAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGATCAAAGGGTTTG
ATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACGTTGCTCAGGCAG
CGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCCGCCGCTGGTAAGC
GCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGCTGATCGGTTTACTT
GCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAACGAGTCACCATGTC
AATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTACGTGACCAGCAGCG
TCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATCCGAATGGTACATTT
GGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCT
GGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGCCTATATTTATTTCAC
TATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATG
GATTACCGATCCGGCATACAGTACAGCCCATGCACGACAGCCACATATTTTCGA
TATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTG
GCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAA
TTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAAC
CGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTAC
GCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCA
GGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCAT
CTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGAC
TGGTAAGCCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAA
AGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATG
GTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATA
TTTGCAGTGTCGAAAGAAACAAAGTAGCCTGAGCTGTCACCGGATGTGCTTTCC
GGTCTGATGAGTCCGTGAGGACGAAACAGCCTCTACAAATAATTTTGTTTAATCC
ATCAATTTAAAATTTAAAATAATGGTTTTTACTCTGGAAGATTTTGTTGGCGATTG
GCGTCAGACCGCGGGTTATAATTTGGATCAAGTCCTGGAACAGGGTGGCGTAA
GCTCTCTGTTCCAGAACCTGGGTGTGAGCGTGACGCCGATTCAGCGCATCGTT
CTGTCCGGCGAGAACGGTCTGAAAATTGATATTCATGTGATCATCCCGTACGAA
GGCCTGAGCGGTGACCAAATGGGTCAAATCGAGAAAATCTTTAAAGTCGTCTAC
CCAGTTGACGATCACCACTTCAAGGTTATCTTGCATTACGGTACGCTGGTGATT
GATGGTGTGACCCCGAATATGATTGACTATTTCGGCCGTCCGTATGAAGGCATT
GCCGTTTTTGACGGTAAAAAGATCACCGTCACCGGTACCCTGTGGAATGGCAAT
AAGATTATTGACGAGCGTCTGATTAACCCGGACGGCAGCCTGCTGTTCCGCGT
GACCATCAACGGTGTCACGGGTTGGCGTCTGTGCGAGCGCATCCTGGCAGGTT
CAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCGA
TGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCTATC
ACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTTCCGT
CACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGGAAAA
CCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCC
CTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTCCAGT
GAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCAGATG
AATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACA
TTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGT
GGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAA
GAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCT
GCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCC
AGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCC
GCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAA
GGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGC
ACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGAT
GCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGA
TCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTG
TTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTC
CAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAAC
AAAGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAA
CTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGA
CATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTAT
TGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCG
CTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCT
GCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAA
AGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAA
TACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACC
ATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTAT
CAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAGCTGAT
TAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCTGGCGTGGTG
CTCGCATAGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT
TACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAAT
TTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAA
ACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGA
AAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACAAGTGCCGCTA
CTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTAT
TGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGG
TCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTC
AGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCT
TTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTAT
AAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCG
TCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCAC
GTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGA
GTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTG
AACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTT
CCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAA
CGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACAC
TTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTC
CATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGG
TTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTG
TAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAA
CCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTC
CAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCT
ATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAA
AGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTA
GATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGA
GGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAAC
TTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCT
GAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATC
GATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAA
GCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAAC
TTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTG
ATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAA
CTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTA
GAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCCCGACGAACGGACTAAT
CCTGACGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTA
CAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTT
AAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAAC
AAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAA
AGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACCACGACCGCTAC
CCAACACTTCGCTCAACTTTTACAAAAATATGGCATCGACACAGTCTTTGGAATT
GTGGGCATCCCTATTGTCCAACTAGCGGATACGATGGTTGCCAACGGTATCAAA
TTCATTCCATGCAGGAACGAACAGGCTGCCTCATATGCAGCCTCTGCTTATGGT
TATATTAGTGATAAGCCCGGCGTGTTACTTATTGTCGGGGGCCCCGGTTTAATC
CACGCACTGGCTGGTATATACAACTCAATGAGTAATAGGTGGCCTCTTCTAGTA
ATTGCAGGGAGTTCTTCTCAAAGTGATATACATAAAGGCGGGTTTCAAGAGTTG
GATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGTTTACCGGAAAGTTAACCCCTG
ACAATATTGACATGATTACTCAGAAGGCTTTGAATTACTGTATACAAGGCACTGC
AGGGGTTTCTTACATAGACGTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTA
GAAGGAAACGACCGTACAGGAAATGAATTACCGATGATATTAACTCCAAACATAT
GTGGCCCTGATCCGTCGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAA
AAATAAAAATATTCTGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAA
ATCCGCAGACTAGTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTA
AGGGAATTGTCCCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAG
CATTGAAAATAGCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATT
GCATTTTGGTACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGAT
TCCAATCCCGAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCC
ATATGGGGAGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGC
CAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATT
CAACTGAATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTG
AATTACAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAA
TACTTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTAC
AGACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTG
GGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTGC
TGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGCAG
TAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTTACC
ATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAAGAACT
GCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTGTCAACA
CAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCTCGGACTA
AAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACAAAAGCAAA
TTGCCTTTGCCTGGCAGAATAAACCGCGTTTATAGGGTTCCTAGCTGATTAGAA
GGCCATCCTGACGGATGGCCTTTTTTTTGACTGCTCTGGGTCTGACGGCCATCA
AGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAA
TTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAA
GTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAA
GTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAAAGA
GATTCAAAGGTAATATTAACAATAATTTATTTTCAATGGATAGCGATACTCTCTCA
GGATTATTGGAAAACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTT
TCTGGAAAATTCAATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCC
GCTTCACGCCTTGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTC
ACCTTCCCTAACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTA
GAGCCACGGCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTT
TACCTCTCCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCAC
CGGCTCAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGC
TTGACGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTG
ACTCAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACA
CTTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAG
CTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTAC
GGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGC
TCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCA
ACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGC
CGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAAT
ATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGA
CAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACACA
AGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATGAG
AAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGGTCCA
AATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTTTCGAG
TTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGGTATTTGC
ATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAAGATATCTC
CAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCAGGGTGTTG
CATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTGCGGTGATTC
CAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTTTGTAAGAAGA
ATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGATAACCTCCCCA
AAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAACATTTCCTTGAGA
AGCCCTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTT
TGACTGGGTGTTCCGATACACTCAATTTGTGTAGGATAAAACGAAAGGCTCAGT
CGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGC
AATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCT
TATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAA
ATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTA
TTTTCAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCG
ATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGG
CGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATT
TGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATAT
GCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAAA
ACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATATGC
TTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTACGA
TACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTGATGC
TCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGTCTATTT
ATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGAGAGGGG
CGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGAGCATGGTC
TGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGAAATCGCCATC
CCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCCGATTACGATTTG
TTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACTGGAGCTTACGGA
ACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCGTACAAAACCAGGCT
ATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGT
TAGCCAGAATACATGAAGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTG
AGGCCATTAAATTGCCACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGG
GAATAATGATGCCGGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCAT
GTTATGCCGGGAGCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGA
GTTCTCATCATAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTT
TTTTTTGACTTAGTTTCAATTTTACATTCCAGGAAGTAGACTAGAGATCTATGTGA
GGATCCTAACTCGAGATCGAGACTGCTATGACTAAACGGCGCGCCTGATAGGT
GGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCT
GTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCA
CCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGG
GCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTC
TACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAAAAAGGATGGATATAC
CGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATGCAGCGGAAAAGCGGG
ATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTCTCTCTTTAAGAGAAATAT
CGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTATCGTAAAAGACATTTTTGC
TCAACAATTGCTTGACGGAAATCAACAAATTTTAGCATTTTGTAAAAAAGTCGCTA
TATAATTTGGTGAATTGGAGTTATTTTCATATTTTTGCATCCCGAAGAGTTTCTCT
TAAAGAGAGAAACATCTTTTGCATACCTTTTCCGACCGAATTTTTATGTCGTAAA
GAGGGGCTTTGCAGGGGGTGGACTCAGAAAGATGAGAATAGATGACTATTGTA
GTTGAAACACATAGAAAGTTGCTGATATACAGACCGATACGCATATCGGGATGA
ACCATGAGTACGTTCTTTTCTCAAAAAACATAAATATTCGAAAAGAGATGCAATAA
ATTAAGGAGAGGTTATAATGAACAAAGTAAATATAAAAGATAGTCAAAATTTTATT
ACTTCAAAATATCACATAGAAAAAATAATGAATTGCATAAGTTTAGATGAAAAAGA
TAACATCTTTGAAATAGGTGCAGGGAAAGGTCATTTTACTGCTGGATTGGTAAAG
AGATGTAATTTTGTAACGGCGATAGAAATTGATTCTAAATTATGTGAGGTAACTC
GTAATAAGCTCTTAAATTATCCTAACTATCAAATAGTAAATGATGATATACTGAAA
TTTACATTTCCTAGCCACAATCCATATAAAATATTTGGCAGCATACCTTACAACAT
AAGCACAAATATAATTCGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATT
TAATAGTGGAATATGGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCA
TTGCTGTTAATGGCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTA
TTTCCATCCAAAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCA
GCAAAAATGGCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGG
TTAACAAAGAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAA
CATGCGAGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATT
TAATAGTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAAT
GTTTACGCGGGTACCGACACCGCGGTGGAGGGGAATTACGAGTCATTGGTAAC
TATCTATGAAACTGTTTGATACTTTTATAGTTGATTAAACTTGTTCATGGCATTTG
CCTTAATATCATCCGCTATGTCAATGTAGGGTTTCATAGCTTTGTAGTCGCTGTG
TCCCGTCCATTTCATGACCACCTGTGCCGGGATTCCGAGAGCCAGCGCATTGC
AGATGAATGTCCTTTTTCCTGCATGGGTACTGAGCAAAGCGTATTTGGGTGTGA
CTTCATCAATACGTTCATTTCCCTTGTAGTAGGTTTCCCGTACAGGCTCGTTGAT
TTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATCGTTCATCTTCTGGTTGCTGATG
ACGGGCAGAGCCATGTAATTCTCGAAATGGATGTCCTTGTATTTGTCCAGTATG
GCTTTGCTGTATTTGTTCAGTTCAATCGTCAGGCTGTCGGCAGTCTTGACTGTG
GTTATTTCGATGTGGTCGGACTTCACATCGCTTCTTTTCAGATTGCGAACATCCG
AATACCGCAAACTCGTAAAGCAGCAGAACAGGAAAACATCACGCACACGTTCCA
GGTATTGCTTATCCTTGGGTATCTGGTAGTCTTTCAGCTTGTTCAGTTCATCCCA
AGTCAGGAAGATTACTTTTTTCGAGGTGGTTTTCAGTTTCGGTTTGAACGTATCG
TATGCAATGTTCTGATGATGTCCTTTCTTGAAGCTCCAGCGCAGGAACCATTTGA
GGAATCCCATTTGCTTGCCGATGGTGCTGTTTCTCATATCCTTGGTGTCACGCA
GGAAGTTGACGTATTCGTTCAATCCAAACTCGTTGAAATAGTTGAACGTTGCATC
CTCCTTGAACTCTTTGAGGTGGTTCCTCACTGCTGCAAATTTTTCATAGGTGGAT
GCCGTCCAGTTATTCTGGTTACCGCACTCTTTTACAAACTCATCGAACACCTCCC
AAAAGCTGACAGGGGCTTCTTCCGGCTGTTCTTCACTGGTATCTTTCATTCTCAT
GTTGAAAGCTTCCTTCAACTGTTGGGTCGTTGGCATGACCTCCTGCACCTCAAA
TTCCTTGAAAATATTCTGGATTTCGGCATAGTATTTCAGCAAGTCCGTATTGATTT
CGGCTGCACTTTGCTTTAGCTTGTTGGTACATCCGTTCTTTACCCGCTGCTTATC
TGCATCCCATTTGGCTACGTCAATCCGGTAGCCCGTTGTAAACTCGATACGTTG
GCTGGCAAAGATGACACGCATACGGATGGGTACGTTCTCTACGATTGGCACAC
CGTTCTTTTTCCGGCTCTCCAATGCAAAAATGATGTTGCGCTTGATATTCATAATT
GGGTGCGTTTGAAATTCTACACCCAAATATACACCCAATTATTGAGATAGCAAAA
GACATTTAGAAACATTTACTTTTACTCTATATTGTAATTTACACTTGATTATCAGTC
GTTTGCAGTCTTATGATATTCTGTGAAAGTATAAGTTCGAGAGCCTGTCTCTCCG
CAAAAAACGCTGAAAATCAGCAGATTGCAAAACAAACACCCTGTTTTACACCCAA
GAATGTAAAGTCGGGTGTTTTTGTTTTATTTAAGATAATACAACCACTACATAATA
AAAGAGTAGCGATATTAAAAGAATCCGATGAGAAAAGACTAATATTTATCTATCC
ATTCAGTTTGATTTCTCAGGACTTTACATCGTCCTGAAAGTATTTGTTGCCAGTG
TTACAACCAATTAACCAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACT
GCAATTTATTCATATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGT
AATGAAGGAGAAAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTAT
CGGTCTGCGATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGT
CAAAAATAAGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTG
AGAATGGCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATT
ACGCTCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGC
GCCTGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGG
AATCGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACC
TGAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGT
GGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAG
AGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTG
GCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCA
TACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTAT
ACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACG
TTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGAT
TTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAGGA
TCAGCCGCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCACGT
ACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACCCTC
ATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTCACGT
ACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAATAGCC
TCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAAAGCTTT
TAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGAGAAGCC
CTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACGGCTGACA
TGGGGCGGCCGCTCAAGTAG
[0224] SEQ ID NO: 68 (P_BfP1E6):
GATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATT
GGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGT
TTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGT
AG
[0225] SEQ ID NO: 69 (P_BfP4E5):
GATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATT
GGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTGAAATTTAAAG
TTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAG
TAG
[0226] SEQ ID NO: 70 (Consenso do promotor de fago): GTTAA(n)4-7GTTAA(n)34-38TA(n)2TTTG
[0227] SEQ ID NO: 71 (Consenso do promotor de fago): GTTAAnnnnnnnGTTAAnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnTAnnT
TTG
[0228] SEQ ID NO: 72 (PUL porfirano de NB001):
TAAGGATTGATTCGCTAGCTCAGCAGGTAGAGCACAACACTTTTAATGTT
GGGGTCCTGGGTTCGAGCCCCAGGCGGATCACTGAAACAAAAAGCAAAACAAT
GAAAACCGCTGATAATCAATCATTATCAGCGGTTTTTCTTTTTATCCATACTGCAA
ATTGAAGCAGAATACCGCATTTTACTGGAGGTGAAATAGGTGGACTTAATTTCCA
CATAAAAACAAGTCCACCTGATTGGATTATATTTCACTGATTCTCTGCGTTTTGCA
TAAAACAAACTCTTTTCAAAACATGTATTTTTACACCATCAAAAAAAGAAGAGTAT
GGCAATGCAAAGAAACTATTTTACGGTATTGTTTTTCCTGAAGAAATCAAAGCTG
CTTAAAAATGGAGAAGCACCAATCTGTATGCGTATCACAATAAACGGAAAACGT
GCAGAGGTACAAATCAAGCGAAGTATAGATGTTACAAAATGGAATACGCAAAAA
GAATGCGCGATTGGCAGGGAAAAGAAGTATCAAGAAATAAACCACTATCTTGAT
ACGATAAGAACTAAAATCCTTCAAATTCACCGTGAACTTGAGCAGGACGGTAAA
CCTATTACAGCAGATATTATAAAAAATATCTATTATGGAGAACACTCTACTCCCAA
AATGCTGCTTGAAGTATTCCAGGAACACAATTCGGAATATCGGGAATTAATGAAC
AAGGAATATGCCGAAGGTACTGTACTTCGATACGAACGTACAGCAAGATATTTG
AAGGAGTTTATCAGTGAACAATATAAACTGGCTGATATTCCATTAAAATCAATCAA
CTATGAATTTATAACCAAATTCGAACATTTCATTAAAATACAGAAAAACTGTGCGC
AAAATGCGACAGTGAAATATCTGAAAAATTTAAAGAAAATCATCAAAACTGCATT
GATAAAGAAGTGGATAACTGATGATCCGTTTGCAGAAATACACTTCAAACAGACC
AAGTGTAACCGTGAATTCTTAAACGAAATGGAACTTCGCAAAATCATCAATAAAG
ATTTTGATATTCAACGATTACAAACCGTAAGGGACATATTCATCTTCTGTTGTTTC
ACCGGTTTGGCTTTCACAGACGTAAAGAATCTGAAAAAGGAACACCTTGTACAG
GCTGATAATGGTGAATGGTGGATAAGAAAAGCAAGGGAAAAGACCGATAATATG
TGCGACATTCCATTGTTGGATATACCAAGACTTATTTTAGAGAAATATCAGTCAA
ATCCAATCTGCAATGAAAAAGGATTATTACTTCCTGTTCCCAGCAACCAACGAAT
GAACAGTTATTTGAAAGAAATAGCTGATGTATGTGGTATTCAGAAGAATCTTTCC
ACACATATTGCAAGACATACATTTGCATCACTGGCTATTGCAAATAAGGTTTCCT
TGGAATCCATTGCCAAAATGTTAGGACACACGGACATTCGTACAACTCGTATTTA
TGCCAAAATAATGAATTCTACCATTGCCAATGAAATGAAAGTACTGCAAAACAAG
TTCGCAATATAATTTTCAACCATTATTTCATTTCTTACAGCAAATATCGCACTTTG
CCACTGACTGTGCAAGGCGGCCCTGTCGGGCTGGTTGGCGGAAAAAAATCATC
CTCGCTTCGCTCCGGTATTTTTTTCCGCCAAGCCTTGCACCGGTCATTGGCAAA
GAACAGCCGGGCCAGTAAGAAATTGAAATACTGGCTCCACGGAGCCGGTCATG
TCTAATTTAAATAAAAGAATATGACTGAAGAAGTTGGAAAGAAGGTATGTGAAGG
TACAGTAGCAGACCTCATGAAGGACAAGACCGGAAAACAGACGGTTGTCACGTT
GACAAGAAAGAATGCTTACCGAGTGAAGAAAATCAGAGAACAAGGGACGGATG
ACGAAGCTGTCCTTTTTCATTTCCGTGAACGCTGTACGGGAATGGGCTCCTATG
TACACACAATCGAAGCGGCAGACGGAGAAACAGAACTTCATCCGTCTGAATTTG
AAAAATGGGAAGCTGTGGAATTCCTGTATCCCGGCTATCTGGAAGACCTGCTTG
ATGCTGCATACAACGCATACAGATGGAGTTCCTTCGAACCTGAAGCAAGGGCG
GAAACAGACATCATGCAATATGAAAAACAACTTGTAGAGGATCTGAAACAGATTC
CGGAAGAAAAACAGAACGAGTATACCAGTGCATACCATAGCAAGTTCTCTGCCT
TGCTGGGCTGTCTCTCACGATGTGCCAGTCCGATGGTGACAGGGCCTGCCAAA
TTCAACTGCCAGCGCAACAACAAAGCCTTGGATGCATACCAGAACAGATTTGAT
GAATTTCATGATTGGCGTAACCGCTTCAAGGCTGCCATGGAAAGGATGAAAGAG
GCTGCCAAACCGGAAGAACAGAAGCAAGAGGAGGCATGGAACCGCCTGAAGC
GTGACATTGCAAGCAGCGCACAGACCATTCATGATATTGATACCGGTAAAGCAA
GAGGATACAGCCGTGCCTTGTTTGTCAGCAGTATCCTTAATAAAGTAAGCACCT
ATGCAGGAAAAGGAGAAGTGGAAATCGTACAGAAAGCGGTGGACTTCATTACAG
ACTTCAATGCACAATGCAAAAAACCGGTTATCACTCCGCGGAACCGTTTCTTCCA
ACTGCCGGAAATGGCACGCCAGGCCAGACTGAAACTTCAGGAAATCAGAGAAC
GGGAAAACCGTGAACTGAAATTTGAAGGCGGAACGCTGGTATGGAACTATGAG
GCAGACCGCCTGCAAATCCAGTTTGACAATATTCCGGATGACCAGAGGCGCAA
GGAACTGAAATCATACGGTTTCAAATGGTCGCCGAGATACCAGGCATGGCAACG
GCAACTTACACAGAATGCCGTATATGCAGTCAAAAGAGTGTTGAACCTTCAAAAC
CTATAAGACATGAAAGACCGATTGAAATATGTAATCGATTCCCGCTACTTCGACG
GAACATGCCTGACAAGTATGAGTGACGGATTCCATAATGACTATGGTGGGGAAA
CAATCGAAGAACTGCGCATACGGGAAAACAATCCCTATCTGAAAGCAGTAACAC
CTTCTGATATAGACAAGAAGCTGCGGCTATACAATCAGTCCCTGTCCGAACCGT
TCAAGGAAATCACTGAAGAAGAATACTATGACCTGCTGGATGTACTGCCACCCT
TGCGCATGAGACAAAACTCGTTCTTTGTAGGAGAACCGTATTACGGAAATATGTA
CTCTTTCTGCTTTACTCGTCAAGGAAGATATTTCAAGGGCCTACGCTCCGTACTT
ACTCCGCAATCCGAACTGGACAGTCAGATAGACCGTCACATGGAAATCATCAAC
CGGAAAGCCGTGATCTCAAAAGAGGAAACAAGTAAAACGGTCACAACCGGAAC
CAGACTCATTCCCTATTATTTTTCACTGGACGGAAAACAGCCCGTATTCATCTGC
AACCTTGTCATCCAATCAGATTCCAGTCAAGCAAGGACGGACATGGCGAATACC
CTGAAAAGTCTTCGCCGGAACCATTATCAGTTCTATAAAGGAAAAGGGCATTAC
GAAACTCCGGACGAACTGATAGACCATGTATCAGGAAAGAAGCTCACCCTTGTT
TCCGACGGACATTTCTTTCAATATCCTCCCGGCAGGGAATCCGCAACTTTCATC
GGACACATCAAGGAGACATCAGAGGAATTTCTTTTCCGGATCTATGACCGTGAA
TATTTCCTGTATCTTCTTAAAAGACTGAGGACCGTGAAAAAGGAATCGGCACAG
GAACAAATAAATATCAAATCATAACATTCGGGGGAATGCGGTAAAATGACTGCC
GTATTCCCTCATAAAAACAATACAAGTATGAACAAATCAAACACTCTATACTGGA
AAACAGCCACAGATCCGGCTGAACGCATTGAGGTCAGACTCGTCCTGAACAGTT
ATATCGACAATGACAATCTGTATGTAGGACTTGAATCCCGGTCTAAGGAGAATC
CGGAATGCTGGGAATCCTACACGGACATCACCGTCAACCTCAATTCTCTTCCCC
CGTTCCATGCCTATGTGGACAACCGGGACTGCAACAGACATGTGCATGATTTTC
TGACCAGTAACAGAATAGCAGAACCTGCCGGATTTGAATATCAGGGATTCAGAA
TGTTCCGCTTCAATCCTGACAGGTTGAAGGAACTCGCACCCGAACAGTTCAAGA
CAATCAGCGCCAAACTGCCACCACAGGATGACATGATAAAGGACATCATCTATC
AGGAAAGACGTTTCCCTTTGAGAACTGTTCAAGACATTCACGGAATATATCTTGT
TTCAAGCAAGGAACTGGAAGAATCTCTGATCGAAGGAGTACGGAACCTGGATGC
TGCGGCATATGAACTGCTGGATGGCATCTGCCTGTTCTGCTCCACACAGGAACT
GCGCTATCTTACGGATGCAGAACTGATAGAAACAATCTACGCACAATAAAAAGG
AGGAACAAATATGAAAACCGGAGACATTGTATTTCTGAGACGTCCCTATAAGGG
ATACCGTGCCGTCGAACTGATGGAAAGACTGGAATGCCGCTGGCTGGTCAGGA
TTGTCGAGAGCGGTCTTGAACTGGAGGTATATGAAGATGAACTTATATCAGAATT
TTAATACAGACAAAGTGTTATGGAAAAATATCAGTTTGCATTCCATTCGGAAATAA
TCGGCTATACCTCTCCTCATATCGGTGAGGTCAGAAAAGCCATACACAGAAAAG
TGGAAAAGGAAAAGTCTGCCGCCATAAAGAATGATATTGAGCTGCACATGTACA
AAGTGCATGACGGCATACCGGTTCTCCTTAACACCTGCTACCTGTACGATGAAA
AAGGATGTATGGTACACGGAAGTATCAAGGGAACCAAGGATTATCTGCTTGAGA
CATGGAGATACCATACAAACAGACATTCTAAAGGCATCAGTTCCACAAGAATCA
GGCCTTGCACGACAAGCAGGGCTTTTTCATTTGTATAACTCTTAAAATCAGAAAT
CATGAACCAGACATTACAACTTACAGACTATATTCCACAGAATGTAAGCCTCTAC
TACGTGGACTACCGGGATGATCTTGATGAGCATGAAGACATCCAGGAGGAATG
CATCCGTTCCAACAAAATGGAAAAACTCTATGAAAAGGCATACGAATGGTATGA
GGAACAGGAAAGTTCAAACATGCACGACTATCTGGAGGAGACAAGAAAGAATAT
GGAAACGGACAATTTAGCCGGAGAGTTTGAAGAGCATGAAGATGAAATCAGGG
AACTTATCTACGACCGGAACGATTCCGACCCGGTAAAGGATATGATACGCAACT
CGTCCGTCACTAATTTCTTCTATTCGCTCGGAGTGGAAATCAGCGGATATCTGA
CCGGTTGTTCACTGCGGGGAGAATCAGTCGCCATGGCCTGCCATAAGGTACGT
CGCGCACTGCATCTGAAAAAGGGGCAGTTTGACGAGAAGATTGAAGAACTGGT
AGAGAATGCCACATACGGTGGAGAACTGCGCATCTACTTCAACGCCATGTTTGA
CAGGCTCATCAGCAAAGGCCCTGAGAACGATTTCAAGAGCATCCGTTTCCACGG
GAATGTAGTGGTGGTCATTGCCGACAGCCGGAACGGTTCCGGACATCATGTAC
GGATTCCGCTGGACATCACTTTCCCTTTCCGAAGGGAGAACCTGTTTGTCGATT
CACAGGTACACTATTCCTATGCCAATGAAGTCTGCGGCATGACCAATGACTGGT
GTGATTCCACAAAATGGGAAACAGGCATGATACCTTTTACCGGATCTGTCCGAA
AAAGCCGGATGGCTGAATACAAGAAACAGGAAGCCGCTTATGAGCAGACATTCC
GAGACGGGAAATGCACCTTCGGTGACATGAACTACAAACGCCACCGTGACGTG
CGGTATTCGAATGAATATCCTGCCGGATGCAGGTGCCCTCATTGCGGTACATTC
TGGATTGACTGAAAAAACATTTACCAACCAATAAATTCAAACGATATGAAAATCT
GCTGTTCACAAGAGCATTACGACAAGGTCGTACAGTATGCAAAATCAATCAATG
ACAAGACACTGGAAAACTGTCTTGAACGTCTAAAACAATGGGAGAAGAACGAGA
ACCGTCCATGCGAAATCGAACTCTATTACGATCATGCGCCGTATTCGTTCGGAT
TCTGCGAACGTTATCCGGACGGAAATACAGGCATTGTCGGAGGACTGCTGTATC
ATGGAAATCCGGACGAATCCTTTGCCGTCACCATGGAACGTTTCCACGGATGGA
GCATACATACCTGACATATATGCGACAGTCTGTATTGGGGAGCCTCATGCAATA
TGGGGTTCCCTTTTTTTATGCCGCAGACATGATGACAGCATCCTCATTTCTTGCT
GCAAAAATAGCTGTTTGCCGCGCAACTCCCGCAAGGCGGCCCTGCCGGGCTGG
TTGTCTGGAAAAAAATCATCCTCGCTTCGCTCCGGTATTTTTTTCCGCCAAGCCT
TGCAGGGATGCGGGCAAACAGACAACAGGGACAACAAGAAATAAGAATGCCTG
TACCTTACAGGCAGACAATGTATAACAATAAATATCAGAAGTCATGATTACAGAC
CAGAAGACACAGAACAGGCTTCACGCGGATACCGGAACGGAACTGTTCTCCAT
CAGACAAAGGAAGGAAGCCGTCACAAGGATGCTGGACATTCTGAAAGAGACTC
CGGAATACCTGCAGGTTATGAACCATATACCGGCTTATGCCATGGATGACGATA
CGTCAGAATGGTGGAAATCGGAAGAATCGGAAAATTTCATGAACTCACTCCTGG
AAGTGATGGAAAGCTATACTCCGGACGGATACAGGTTCGGACCGAAATCCGGC
ACGACTGACCTTTACGGCTACTGGGAAAGCAAGACCGGGCGGACAACCCTCTT
CCATCTGCTTTTCAGTCTGGAAAGCGGATATGAATGGGGAAAAGGTCTTTCCCA
TGAGAAAACGGACGCATTCTACAAGGAAATAAAAGAGAAATTTCATGGAGAAGG
ATTCGACACGGACAGAACCGGCTGTACATCACAGGCCATGTATCTTGTAAAAGG
AAAAACACGCCTGTACGTGCATCCGATGGAAATAAGCGGCTACTGTGAAACACT
GCATATTCCACAGATTACAGCCATACTGAAAAAAGGAGGCCGTACATTCCGTCT
TGTAAAGGATACGATAGCGGAAGAGGTGTATTCCTTCACCGATGAAGAAGAACT
GGAATATTACCGTGCCAGATACGGAACGTGCATCCACCGGAATATACTGGATGC
CTTCAGCAACCGCCACGCAGGGAAAGAGGACATACTTTCCATGATGGCATCAC
GGATAAATGTGGCTACGACATCACATCTTTACGGTATCGGATATGATTCGCCTG
CATACAGGTTTGTGCATGAGGCATACGACAGACTGGTAAACAATGGAAAGCTGA
AGGAGAATGTCCGGGAAATCGGTTGCTGCAACATCATAATGGCCATTTCAAATA
CCAACGCAATATGAGACTGAATTACAATGACATGCTGCTTCTGGCAATATGGGA
ATACAACAGGAGACAGGACGAGGATCTGACCCTGGAACTGTTTCAGGAAACATT
CGGACAGGTTCCCGGCGCACATTTCCATGACAAATGGGTGCATTATTACAACAA
GAACCTGCTGATGATGGCCGCCTATTTCAGGGGTGAGGAAGAAAACGGCCAGA
AATTCTGTGATATGATCACCCGACAGGTTGAACGCTATACACAAAACAGGAGGA
GAACAGGATGAATACAAAGATACGATATGACCTTGACAGTCTTGAACTGGCAAA
CGGTGACTTCGGGTATCCCATTACAGAAAAGGAAGTACGGAAAGTGAACCGTAT
GCTGGAACTGATGGAGAATGTCCGAAGCAGGCAGATGTGCCCGACAGAAGGAG
ACTGCGTGGAATTTGTCTCACGTTCTGGTGACTATTTCGGAAAAGCTCATATAGA
ACGGATAACAGGAAAATATGCGGATATATGCCTGATACCGGAAACGGTATTCTG
TTTTGATGACATGGGAAAAGCCGCCTATGATACCACCGGAAGTCCCTGGACGCA
GGTCAATATCCGGAACATGAAACCCGCAGGTTCTGAAATCCGCATATTCAGAAC
ATGGGGATTCGGGAAGCGCAGCAATACGGGCAGTCTCAGGTTCGATGCTCCGG
TCAGGAAATGGGAATACAGAGAACCGAATCCGTTATATGACGGTTACACCACCC
GTAACTGGTTCCGCTATCATATCATGAAACACCGGGACAGGGAAAGGACAGGC
GAATACACCTTCCGCAGCGATTCATTCACGCTGTACAGCCGGAGCGAGCTGGA
CGAGCTGGCCGCAATCCTGAAAGGCAGACTCTACAAGGGAATCCTGCCTGACT
CTCTTGTACTTTGGGGATACCGCATGGATATTAAGGAAATATCACGTGAACAGT
GGAACGGTATGGGACAGCACGGACAAATCCGCATGAAATTCATGGGATACGGT
CCGGTCAGAATCCACACGGACAATGAAAACCATACCGTAACAGTATACAGAATC
AACGACATATTGTCTTCAACTATCAGAATTTTCATATTTTTTCAGTTCTTTTTTTGT
TTCTTCTATTAATATTTTAAGCCACTCCATGATTTGTATTGCATGTTCATGAACAG
TTTCATTTTGGCTATCACTGTCGTGTAGTAGCCTTTGAAAATCACGTAAAATATTG
TCTTTCCCAAGCATCTCCCATACAGGCATCATCCGGTGGATTATTTTTCTCATGG
TCTCACGGTCGGTTATCCTGTCAGCAGATTCCATCTCCTCCAGTTCTTTTTCAGA
TTCCATAACAACGAGAGAAAGCATATGACTATAATCATCCGTATTCTCCAGTAAA
CTGGAAAAATCGAATTCTCCGGAAACTGAAACTTGTGTACGAGATATAATGGTG
GATAAAAAAGCAAGCAGTCCGTGGATATTGAACGGTTTATGAATACAGCCTACA
AATCCTTCTTTTTCATAAATTCCGGAATTTCCGTCACCACGGGCAGTCATGACTG
CTACTGGAACAGTTCTAGAATTGCCGATGTCCGAATTGCGAAGCAATCTTAACAA
ACCGAATCCGTCAGTATCAGGCATTTGTACATCTGTCAAGATCAAATCATATTCA
GAATTTTCAAGAGCGGCCACTACTTCACGTGCATTCTTACAGGTTTTACAGGATA
TACCTTTGCGCCCGAGCATATCTTCCGCTATTTTCAGTTGTATAGGATCATCGTC
CACTACAAGAACATTCTTAGGCAATATAGTTATTGTATTATGGTCCGATTTGTCTT
CCTCAACTAACTCATCCGTTTCAGGCAAAGAAAGTTCCAGTCTGAACATGCTTCC
TTTACCGAGTACACTTTCTACATCCATTTTTCCTTCCAAAACCTTAATTAATCCTTT
GGTAAGGAAAAGTCCCAAACCAAACCCTTCAGAATTGACATTCTGTGCGGCACG
CTCAAATGGAGCAAATATTCTTTTCAGTGTTTCCTCATCCATACCGATACCAGTA
TCCCTTATTTCAATACGAAGTTTTCCTTCTGAATATTCTGAATGGAAATTGACGTT
ACCCCTGGAAGTAAACTTAATAGCGTTTGTAAGTAGATTGGCTAAAACCTGTTCA
AGTTTGTCCGCATCACCTTTTACTATTACATTTGATCCTTTATGTTCAGAATATAA
AATCAGACCTTTTGAAGTCGCTTTACGAGAAAACTCATCTGAAATTCGTTGCAAG
AAACGGTCAAGATAAAATGGTGTGTCGTTACGCAAATTACCGGCTTCATTGATTC
GGTAAGCATCCATCAAATCATTAACCAGATGTAAAACGTGTCGACAAGAATGAC
GGATGTCATCTAAATATTTTTCGCGCTTCCTCTTTTCACGCGTTTCAGATACCAA
ATCTGCACAGTTATGGATATTACCAAGTGGACCTCTAATATCATGAGAAACTGTC
AGGATGATTTTCTTACGCATATCAAGCAAATTCTCGTTTTCTTGAATAGCTTGTTG
TAATTTAAATTTAATTATTTCTTCCTTACGTAAATCTGATTGTATAATTAAAAATGA
AATTAATATTATAAAAACCGCAATACTCATCATTACGATAAATAATCGAAAGGATT
CTTGTTTGACTTCCGTTACCTCTAAGTTTCGTTCTATAAATGACAGCTGTACCTG
ATTATCTAAAAAAGATACAAAATCATATAATTTTTGATTTAACAGCCTATTCTGCAA
ACGCAAGCTATCCACATAAGTTTCTATCTGATTGTTTCGCATATCTATGACAGAA
ACCAATCTATTATTAAAATTCTGTATTTCATTAGTTATATAGGGGACTTGTATCGT
CTCCTTCTTTCCGAATAATCCGGCAATTCCTTTCTTTTTCTGAGTTATTGTCTTCA
CTTTTACTGTTTGAGTAGCTATTACAGGCAATTCATTAGTAAGAATACTATCAGAT
TTATTCGCAAATTGGACTGCTTTCATTATTTGAAACAAGTGCATTTCTTTCGTTTT
AAGCAATTCCCGTAAAGAATCAATTTGAACTGGACATAAAAAATCACAACTCCTT
AATTTTATTTCAAGTAGAACACTATCTGTTTTAAAACGTTGATTATGAAATATGTTA
TAATCAGACTCATCCCATACTATAACTGATTCGCCTAAAGTTGCCAACTTAGTAA
TATACAAATGAACTTTATTAGTATTCTCATAAGCTTCATTAATTTGAATTATCAGAT
TCTCAAGTTCTTTCAACCGGCAACGTTCATTTATCATTACAGTAACCATACTTAAG
ACTATAAATCCTGTAATAAAATATCCAATAAATAGTCTTTTGCGTAATAATGAAGT
CATCAGGAACATTCTATTGATTTATTTGACATCATAATTCTATATATTTAACTAGTC
ATAGTATATATCATTCTCAAATATTTATTTCAAATTCAAGCAATAAAATAAAAAAAC
ACTTCATATTACAACTGAACTCTTTTATGAAAAAGTTGAATATATGAAGTGTTTTTT
TATTACGATATAAACTATAAAATCCTATTCTTCGGGAACTGGTGTATAAACCCTTA
TCCAGTCCACCAGGAAGGTGTGGTCTTCCACATTTTTCAGTTCCTCATCCGTAG
GGCTTAAACCTTTAACGGCTCTCCAGCTTTGGTCTTCCATATTTATTATGATGTC
CATGTCTTTTACCAGACCTGTACCACCAGTGTAGTTGTTGGGGTCGATAATATCC
TTGCCGCTTACGGTTCTGACAAGTTCTCCATCTACATAATATTCAAGTGTGAAAG
GGTCTTTCCAGAACACTCCTACACGATGAAAATCGTCGCGCCACAATGTTCCCT
TGTCATCCTTATACCATGAGCCAAGATCTTTCGGCTGATAATCCTTGAATGGCTG
GCGGATGAATATGTGATGGCTCAGGTGAAGTCTGTCGGCACCGTAACCTCCGC
CGTCTCTGTCGCCGCCGTATGCTTCTATGATGTCGATTTCCTGAGTATCGTCAG
GGCTGAGCATCCATACATCGGATGCCATGGTTGAATTTGAAAGTTTTGCGTATG
CCTCTACATAAACCGGATACTTTACACGTGTCTTCGATGTGATACATCCCGTATA
GGTTCCCGGCAGTTCCTTTGTGTTGGGTCCGCTTACAACTTTCTTCATGGGGAC
ATCTTCAGGACGGCTGGCTCTTATTTTAAGGTATCCGTCGGAAACGGAAACATG
GTCTCTCTGCCATATTGTAGGAGCAGGTCCTGTCCAATGATTATGATAGAAATCG
GTCCATTTGGCATAGAACTCTTTTCCTTTATCCTTTTCGTCGGCAACATAATTAAA
GTCGTCCGACTGTGGATGGAGTTTCCACACCATACCGTCGCCGGCATCAGCGG
GTACAGGATAGATATCCCACTCGTACGATTTATTATTGAAATCTTCTGCTGCACA
GGCTATTTGCAGCGATGCTAAACAAATGGTAAACAGTTTTCTCATCGTGGTATCT
TAGTTTAAGTTATAATAATTATTTTCGTTCTTTTGATTCACCTTTAGCGGTATGTGT
CTGCAATGTCCAGGTAGAAAATCTCATTATGCTCTGATAGTCTGAACTGTTGTAT
ATATGAGTAAGACCCCATCTCAATATTTCGGTAGGTTCTTTTTCGGCATCTGCAC
TGCGGTTCAGGCCAATGGCGTGTGGCGCGCCTTTTACTACTGACATTATTTCAA
AGTTTATTCCGTCAGGCGACCACTGGAGTGTGTTCTTTTCAGGACCGTCGGTGG
TGATAAGTGAAGCTATACCTCCTTTGTAAGGCCATACGCAAACTTCATGCCCGCT
GTTTGAAATAGGATTATATTCCGATTTCACATACGGACCCATAGGATTTTCCGCA
ATAGCCACTCCGTGTTTGATTTCACGGCCGCCCCATGTTATTTCTTCTCCCATAC
GTTCGCCTTTGTAGTACATATAGAACTTACCTTTATAAGGTATTATACACGGGTC
GTGTACCTTATGACTGTCGAAATCACCTTTCGACACTACCTTGAATCTGTTATCC
TCATCGCCTTCCCATTCGCCGGTATTAGAAGGTTCCAGTACAGGCTTGTCTGTC
TTGATCCACGGTCCTTCAGGGGAATCAGCACATGCCATACCGATAGTATTCTTTA
CACGGACTGTGTAAGGGGATTTTACCGCCTGATAGCAAAGATAATACTTTCCTTT
CCATTCCATCACCTCAGGAGTGAAGACTGAACGGTCGTCGTAAGCACCTTTTTC
ACCACGTTTCACTGCAATTCCCTGTTCCTTCCATGTCCATCCGTCTTTTGATGTG
GCATACCATATATCACATCTGTCCCATGGGAAAACCTTATCTTTCTCTATATCTCC
AGCAAATCCTTGGGTAGGTCCATAGCTCTTTGAATACCATACATAATATGTATTA
CCTATTTTCAGCATTGCACTCGGGTCTCTTCTTACTACGCCCTCTTCATAAGCAA
GATCACCTTTAAGTGGTTCCATCTTATACTCAAAGAACCATTTATTGTCGTGATTT
TCCCATTTCATGGCACGTTTCATAGCTGCACTTAACTTATTTCCCTTAGGTATTCC
CAATGAATCGGCCTTACGCTCATCATAATTCTGAGTGTCGTCAACGGCAATAGT
CTGTGTATTGCCTGTATTTCCGCATGCTGCCAATAGCGACATCATGCCGGCTGC
AAGAATAATTTTTCTCATACTAGACTTTATTTTATATTAATTGTTAGTTTATTCGAG
TGTAATTCACTTGTTTCTGCACTGATATTCAGTACCGATGATTTTTCTGTCGACTG
AAGCATCAGCATACATCTTCCCTGATATGTCATAATATCCTTACTTTGATATGGA
GAAACGTTCTTCACGTTTCCATTGTCTATACCAAGCAGACGGTACTCTCCATCAA
TGTTGAACTTAAGCATCTGTTCTGTTGTCTTTACAGGATTACCTTTTTTGTCTGTT
AGCTGAGCTGTGACATGCAGAACATCCTTTCCATTTGCTGCGATACTTTGTTTGT
CAACCGTCAGCAATATCGAATGTTCTTTGCCTGAAGTCCTTATAGCTGTAGTGGT
ATTACCTAACTTATTTTTTCCTTTTGCGGTAATAGTGCCAGGCTTGTACTGAACTG
CCCATTTATAGATATGATCCTCAAAATCGTCTATATACTTCTTTCCCATCGACTTA
CCGTTAACGAAAAGTTCCACTTCATCACAATTGGAATATATCTCTACTATTACCG
AGTCACCTTTCTGATAATTCCAGTGAGAGTTTACATCATCCCAAACCCATAATTTT
CTATCCCATTCATGTCCTTTCTTATCAGTAAATCCATCTTTTACATGGAGATACGA
AGATTTGTCTGTAGTCTGTGAATATATAGCAATAAAAGGCTTGTCTGTCCACAAT
GATTTCATCATGTCGTACGAAGGCTTCACATAGCCGCACATATCCAGGAGACCA
CATCCTATCGACTTTTGAGGCCATTTTGAAAGACGGCTTTCACTTTCTCCCAGAT
AATCGACTCCTGTCCATATAAACATACCCGGAACGAAATCCCTTTCAATCACCGC
CTTCCATTCGTGCCACTGACCGAGATTTTCTGTACCCATTATAGGCTTGTCAGGA
TAATTCTTCTTAGCATAATCATACATCACGCGACGGTAGCTGAAGCCTGCCACAT
CGAGCGCGTCGATATATCCTGACTCAAAGCTTATGGAAGGCAGGATGCAGTTG
GCGGTAACTACACGTGTGGTGTCCATCTGGCGTGTCCATGCAGCTAATTTTTGC
GCTGTACGGCCAATGTCGTATGCATGTTTAGGCTGGATTTTCCACATTTCTCTGA
TTTTTTCTTTAGAGTATGGAGGCTGATTCCAGAAATAATTACCGTTGGAATCGGC
ACCGAAGAAACCTGTCGCCTCGCGGCATCCGGTATAAGTCCATTCTATTTCATT
ACCTATACTCCACTGGAAGATACAGGCATGATTACGGCTTCTCCTCATTACGTTT
TTCAAATCTCTTTCTGCCCATTCCTGGAAATGCTCGCAATAGCCATGCGTAGGAT
AGTCTTCTACAGTTTCCTTCATATTGAGTCTTTTATCTTTGGGATAATCCCACTCA
TCGAAGAATTCTTCCTGAACCAGAAGACCTATCTCATCGCACAAAGACAGAAACT
CTTCCGCTCCCGGATTGTGCGAGAGGCGGATGGCATTGCATCCTCCTTCCTTTA
GGGTTTTCAGACGCCGGTACCACACATCGCGTATCATTGCCGCGCCAACCATTC
CGGCATCATGGTGCAGGCATACTCCTTTTATCTTCATGTTTTTCCCGTTAAGGAA
GAAACCTTTGTCTGCATCAAAACGGAATGTCCGTATGCCGAACCTGACAGTGTT
TTCAGAAATTACTTCATCGCCATTCTTGATGCGTGTCTCGGCTGTATAGAGGACA
GGTGTATCGACGCTCCACAAATCAGGCTGTTTAATCTCAGATACGATGTCGATA
ATTTTCTCCTCACCAGCATTCAGTTTTATACTGAAGACCTCAAAGGCTGCGATAT
TGCCTTTATTATCCTTATATACTACCTCAACAACTGCAGCTCTGGGTTCGGAGTA
GCTGTTGCACACGGTAACCTGGTTGTTTACTTTAGCATATTTATCAGTAACCACG
GGAGTAGTGACAAATGTTCCCCAAACCGGAATATGCAGTCTGTCGGTTACAATC
ATTTTCACATCCCTGTATATACCTGAACCGGTGTACCATCTGCTGTCGGCATAAT
GGCTGTGGTCGACCCTTACAGTCATACGGTTATCCTCATTGGGATTGAGATAGT
CTGTGACATCAAAATAAAAAGGAGCATATCCCGAAGGATGATATCCAAGCTTTTT
GCCATTTATCCAATACTCAGAATTATTATATACTCCATCGAACACTATATAGCATT
TCTGATTTGCACTGATTGTTGTGGGAAATGATTTGCTATACCATCCTATTCCTCC
CTGAAGGAAAGCTACACATCCTTCACCCGAAATGGAATCGTAAGGTAAACCAAC
ACTCCAGTCATGTGGCAGGTTCACTTTCTTCCATTCATCACCAGGGACATAAGAA
GTATATGAATAATGAGCAGAATCTTTCAGTACGAATTTCCAATCTTTATTGAAATC
AACATTTGAATCAGATGCTGAAACCTTTAGGGTTGATAATAGGATTATTAAAGCT
AAAAGATTTTTATTTCTCATAATCTTAGGTTTTACATGTTTTTTGATGTCACAAAAC
TATATCTTTCACTTATAATATATGAGGGGGATATTAATGTGATATAGGGTGGGAA
ATCAGAATTTTACATCTGCCCTGTATTCCACCGTCACCTACAACCTTGACAAAGG
ATGTTCCTTTCTTCCCTCTTATGGTTCTCAGGACAAACAGACACTTTCCGTTATAT
GTCCTTACACTATTGTTTATGACGTTGATGTTCAAATCTTCTATCGAAGGCGATC
CATTGTCGAGTCCGGCAAGTTCAAGCTTGTCGTCGAGGATTATCCTCACATCCG
AAGGTATATCGACTACTGTGTTTCCTTCTTTATCTTCAATGGATACTTCTACATGG
ATAAGGTCATAACCGTTGTCGGTAGCTGTTTTGCGGTCGCAGTTCAGTGCCAGA
CGGCACGGCTTGCCGCTTGTGGACAAAGTGTCTTTCGACAATATTCTGTCGCCG
TCCTTGCCTACCGCAAGGAGTGTTCCTTCCTTGTATGCCACCTTCCACATCAGTA
TATTATGCTCCATGAAATCGCTGCGTTTCTTTGTTCCCAACGATTTGCCGTTCAG
AAACAGTTCCACTTCTGGGGCGTTGGTATATACCTGCACCAGTATGTCCTCGTC
CCTGCGGTACTTCCATTTATCGCGTGTGTCGTACCACTCCCAGCGTCTGATCCA
TCCCGGGCGTGGAGTGTAGGTGAAACTTCCGTCAGTATCCATCTTGAACTCGCT
TTCCTTTTCAGGTATTGTTACAATATGGGTTTTCGGTGTGTCTTTCCACAGACATT
CAAAGAAATGGCCACGCGCTGTCTTGTTGCCCACGAAATCGAAGAAAGAACAGT
CTCCACCCCTTGCAGGCCATGGGCCGTTCTCGCCAAGATAGTCGAATCCTGTC
CACACGAAGATGCCCGCTATGTACTTCTTGTCGGCCACGGCTGTCCATTCAAAG
AGCTGACCAACATTCTCCGAACCGATAATAGGCTGATATGGATATAGCTTATGGT
CGATTTCATAATATTTGTCTTTATAGTTATATCCCACTACATCAAGAACGTCTGTA
TATCCGGAGAGACGCGAAACTGACGGAACAACGACTCCTGAAGAGACGGGACG
GGTAGTGTCCACATCCTTAACCCAACCGGCAAGGACAGCGGCTGTTTCAGCCA
AATCGTCTTTTCCTCCTGACAGACGGTTGAACTCTTTCAGTATAGACTTGTTGTC
TGTTTCCGGGTCGCCCGTATGGATAAGACCCTTGAACCCTTTATTGTCTTTGCTC
GATGCCCAGTAATATGGATAGGTCCATTCTATTTCATTGCCTATACTCCAGAGTA
TCACGCAAGGATGATTTCTGTCTCGCCTGATGAACGACTTGAGGTCGTGCTCGG
CATGCGTATCGAAGTATCTGGTATATCCTATTGATATGCTGTCGGGCGCATCTTC
CTTAGCTCGCTCAGTAATCCACTTTTTCTTTGCCACCTTCCATTCGTCGATAAATT
CATTCATTACAAGAAGTCCCAGACTGTCGCACATTTCCAGCAGACTTTCCGAATG
CGGATTATGGGCTGTACGTATGGCATTGCAGCCTATGGAACGAAGTTTCAGAAG
GCGTCGCAACAGGGCATCATCGTATGCGGCAACACCCATACATCCCAAGTCGT
GGTGTATGTTCACTCCTTTTATTTTTACTGATTTTCCGTTTAGAAGGAAGCCTTCA
TCCGCATCGAATTTAATGTCGCGGATACCAAATTTTGTTGTTTTCTTATCCATCAC
ATATCCGTCAGAAGCAATCAGAGTAGTATGAAGCTCATACATCGAAGGCGTTTC
AAGACTCCAGAGATGACAATTCTCCAGTTCAACAGATGCAGTGAACTCATTGAAA
TCGCCTTTCAGGGCAACAAAATCATCGGAAACAGAAGCTATTGTCTTGCCGTCG
TACACTACTTCGTGCTTCACGGTGACTCCTTTTACACCTGTTCCAGCATTCTTCA
CCTCGCATACCACATTCACCATCGAACGGTTGCCTACCTGTGGTGTGGTAACGA
ATATTCCGTCTGAAGGAATATAGAGCTCGTTTCTTAGAATAAGACTCACATTCCT
GTATATACCGGCACCGACATACCATCTGCTATCGGCATACGCTCTTCTGTCAAC
GCAGACAGTTATTGTATTCATCGAACCTTTTGGTTTCAGATATTGAGTAAGTTCAT
ATTCAAATCCCACATATCCGTTAGGACGGAATCCCAACATATGCCCGTTTATCCA
AACCTTTGAGTTATTATATACACCTTCGAAATGAATGAACACTTTTTTCCCATTCA
TATCATCCGAGGTGAGAAAATTCTTCATGTAAATCCCCACACCGCCAGACAGAA
AACCATTGCTTCCGGCTGTCTGAGTCTTGGTATATCCTTCGCTGATACTCCAGTC
ATGAGGCAGACACACATCCTCCCACTTTATATCTGGACTCAGGAACAAAGTGTC
CTGAGGCACGAAACCTGCTGGTTTGCTGAATTTCCAATCGAAGTTGAAATCCAC
TTTAGTGGAGGTTCCGGCATAACAGAATCCGGACAGAAAGATAGTTAAGACTGT
GATAATGTTTTTTATGGTCATATCGATTTTCAGATTAATATTAATGACAAAAATAAT
TTCAAAAGTGTAAAAACAAAAAAACTCTCCATTTATATTTCAGATATCAACGGAGA
GTTTCATCATTAAAAAAAATAAAACATTTTATAAAGTTACTCCTTGCTTAAGGATA
GCTATTTCCCGGTATCCCTTCTTTTCGTTCAGTGCCTGCTTTCCGCTTGCCACTT
CCACCACAAAGTCTATAAAACGTCTGCTTAAAGATTCCATGCTTTCTCCCTCTAC
CAGAGTTCCGGCATTGAAATCAATCCACGTATGTTTCTGTTCATAAAGCGGAGT
GTTGGTCGAAACCTTCACGGTTGGAACGAATGTTCCGAACGGTGTTCCGCGGC
CTGTTGTGAACAGCACGATATGGCATCCGGCAGAAGCAAGAGCCGTACTTGCC
ACTAGGTCGTTGCCTGGTGCGCTCAACAGGTTAAGTCCGTGTGTTGTGACACG
GTCGCCATATTTCAGAACATCCTCCACCATCGAGCTTCCCGACTTCTGTGTACAT
CCCAATGATTTCTCCTCAAGCGTGGAAATACCTCCCGCCTTGTTTCCCGGTGAA
GGATTTTCATATATTGGCTGGTCGTTGCGGATGAAGTAGTTCTTGAAGTCGTTTA
TCATGGCCACTGTGTCGTCGAATATCTCCTTCGTGCGGCAACGGTTCATGAGCA
GTGTCTCGGCTCCGAACATTTCAGGTACCTCCGTGAGGACTGTTGTCCCACCCT
GGGCAACAAGATAGTCAGAGAACACCCCAAGCATCGGATTGGCCGTGATACCG
GACAGTCCATCAGACCCGCCGCACTTGAGTCCTATACGCAGTTTTGACAGGGG
GACATCAGTCCGCTTGTCTTCCCTGGCTATGGCATACATCTCACGGAGAAGTTT
CATACCCTCTTCTATCTCATCATCTACTTTCTGAGAAACAAGGAAACGGATCCTT
TGGGTATCATAGTCACCTATAAACTCACGAAAGGCATCAGGCTGGTTGTTCTCA
CAGCCAAGACCTACGACAAGGACAGCTCCGGCATTGGGATGAAGGACCATGTC
ACGCAATATCTTACGGGTGTTCTCATGGTCGTCACCCAACTGCGAGCATCCGTA
GTTATGAGGGAAAGATATAATGGAGTCAACCCCCTCGCAACCTGTTTCCTTGCG
AAGCTGCTCGGCCAACTGGTTTACTATTCCGTTCACGCAACCCACCGTAGGGAT
AATCCATATCTCATTACGTATGCCGGCTTCTCCGTTAGCACGCAAATACCCTTTG
AATGTATGGTTCTCGTTCGTGAATGTCTGTTTCTCGAACTTCGGAGTGTAAGTGT
ATGTACTCAGACCGGAAAGGTTCGTCTTGACGGTTTTCTCGTTCAGCAGATGTC
CTTTCCTGACTTCCTTTACAGCGTGCGATATGGGGAAACCGTATTTTATCACCAT
ATCACCTTCTGCAAAATCCTTCAGGGCAATCTTATGACCGGCAGGTATATCCTCC
ATTAATTCTATGGAATTGCCGTTCACCTCTATTACAGTCCCTTTGGACAATGGGT
GCAGTGCCACAGCCACATTGTCCGCAGGGTTTATCTGGATATATTCAGTCATAA
CAAACTAACATTTATAAATTGAAGAATACAGGTAGAAGTATCAACCTACAAGGTC
TTTTACTGTCTGAAGCATTCCTTCGCTCTGGATTTTGTTGATATAGTAAATTACAC
GGTCTGCCAGTCCCGAGATAGTATTAAGGTCTTCACCCCAAATGGAAGTATCGG
CGAGAACTGTCTTCACAAGATTTTCTACCGAGCCATCGTTCCACAAACTTGTAAG
CATCGCCATGATTTCCTGTGCATCGTTAGGAACTATCTCTACACCATCGGCACG
CTTTCCACCTTTGTAGTATACTATGATGGCTGCAAGACCGAGTACAAGTCCTTCA
GGAAGCACACCCTTACGTTTCAGATATTCCTTCACTCCTGGAAGGTCGCGTGTG
GCATACTTAGGGAATGAGTTAAGCATGATTGATGTTACCTGATGGTCTACGAAA
GGATTATTGAAACGTTCCAGGACATCATCGGCAAACTTCTTGAGTTCCTCTTTCG
GCAGGTTGAGGGTCTCCATCAGCTCGTCGAACATCACACGTTTGATGAACTTGC
CTATCACCTCATGTTGGCATGCGTCTCTCACGATATTGACGCCCGAAAGGAATG
CCACCGGCGACAATACAGTGTGAGGACCGTTCAGCAGAGTAACCTTGCGTTCAT
GATAAGGCTCCTCCGACGGGACGAACAGAACGTTCAGTCCCGCCTTGTTTGCA
GGAAATTCTTCGGCAACCGATTCCGGTGCTTCGATAACCCACAGATGAAAAGCC
TCGCCCTGTACAACTAAATTGTCATCAAAGTATAGTTTAGTTTTTATGTTGTCTAT
GTCTTTACGAGGGAAACCCGGTACGATACGGTCCACCAGTGTGGCATATACACC
ACATGCAGTTTCAAACCATGACTTGAACTCTTCGCCAAGGTTCCACAATTCAATA
TACTGATAGATTGTTTCCTTCAGTTTGTGACCGTTGAGGAAGATAAGCTCGCATG
GGAAGATGATGAGTCCTTTCGACTTGTCACCGTTGAAATGTTTGAATCTGTGATA
AAGCAACTGTGTCAGCTTGCCCGGATAAGAGCTTGCAGGAGCATCCTCAAGCTT
GCACGACGGATCGAAGTTGATACCGGCCTCAGTAGTGTTCGAGATTACGAATCT
CATATCAGGCTGTTCCGCCAGTGCCATGAAGTCATTATACTGGCTGTATGGATT
CAGCGCGCGGCTGATGACATCAATCATTCTGAATGAGTTCACCACCTCGCCATT
GTTCAGTCCCTGAAGATTGACATGATACAGACAGTCCTGGGCATTGAGGGCATC
AACCATACCTTTTTCTATAGGCTGCACCACAACAACACTGCTGTTGAAATCTGTC
TTTTCATTCATATTCGAGATAATCCAGTCGACAAACGCACGAAGGAAATTACCTT
CGCCAAACTGTATGATACGTTCCGGACGTACTGCCTTTACTGCAGTCTTACTATT
TAAAGCTTTCATTGTAATGCCAAAAAATTAAAATTGATAAGATTAAAATTCAACCA
ACATTCTGAATACCTTACCTGGATTTTCCGACCATTTCTGCAGAGCCTCGCCTGC
CTCTTCAGGTTTCACTACGGCAGAGATAAGTTCGTTCATCGGGCAGTTGCCATT
CTGAAGATAATGTATCACGGCACGGAAATCCTCAGGCATTGCATTGCGCGAACC
GCGTATGTCGAGTTCCTTCTGGACAAAATATTTTGTCTGGAAAGCCACTTCACTC
TTGGCATAGCCGATACATGCCACACGGCCTGTGAAACCTACAATGTCGATGGCA
GTAACATATGTGATAGGACTACCCACAGCCTCTATCACCACATCAGCCATATAG
CCGTCAGTAAGTTCCCTTACTCTTTCCACCACATTTTCAGTCTTCGAATTGATAA
CCATCGAAGCACCCAGGCGTTTTGCCAGTTCAAGCTTCTCATCGTCAATATCCA
ATGCTATTACCCTTGCGCCACGAAGCGATGCTCTTACTATGGCGCCAAGTCCAA
TCATTCCGCAACCAATCACGGCCACAGTATCAATGTCAGTTACCTGAGCTCTCG
ACACGGCATGGAAACCTACGCTCATAGGCTCAATCAGCGCACATTCCTTATCCG
AAAGACCGGCAGCCGGAATAACCTTTGTCCAAGGGAGGACAAGGAACTCCTGC
ATAGAACCGTTACGCTGAACACCCAAAGTCTCGTTGTGTTCGCAGGCATTCACA
CGTCCGTTGCGGCATGAAGCACACTTTCCGCAGTTGGTATATGGATTTACTGTC
ACGTTCATTCCCTTCTCGAAACCGACAGGAACGCCTTCGCCTATTTCCTCTATCA
CAGCACCCACTTCATGTCCCGGGATGACAGGCATCTTCACCATAGGATTTCTTC
CCAGGTAAGTATTAAGGTCGGAACCACAGAATCCGACATATTTGATACGAAGTA
AAATTTCTCCGGCTCCAAGTGTTGGTTTAACTATATCAGCTACTTGAACCTTTCC
GGCTTCAGTAATTTGTACAGCTTTCATAATCTATGTATTTATTTAAATTTGTTATTG
TATTATTTTGATGTTGCATTAATTCAATGTTGTTTTTTCTCTATCTTATATCCTCTC
CAGCCATAATATGCCGTAAAGAAGAAACATATCAGAGGTATTACATATGCCACCT
GATAGAAGTCCGCGTTATGATTCATCACAAATGCGGTGAACTGAGGGATGCACG
CATTACCTATAATAGCCATCACAAGGAATGCCGAACCACTCTTTGTGTCCTCGCC
AAGGTCGCGTAGTGCAAGTGAGAACTGGGTTGGATACATTATCGACATGAAGAA
CGACACTGCAAGCATGGCATAAAGTCCTGTCATACCACCGAACATGATAATTAC
TCCACACAGTATGATATTTACTATAGCGTATGTAAGCAGCATATCCTGAGGTCTG
AATTTCGACATTAGCATAGTACCTATCCATCTGCCGCCAAGGAAAGCCAGCATAT
ACAGTCCGAAGAATGTGGTCGCCTCATCCTCCGACAGACCTGCATACATGCAGC
AGTAAACTAGGAACAGGCTGTTGATGGCTGTCTGCCCTCCGTTATAGAAGAACT
GTGCGATAACTCCCCATCTCAGGTGTTTGCGTTTCAACACTGCAAAATTGATAAG
CTTGCCCTTCTCGCCGTGCGATTCCTCCTTGTCAATATCAGGCAACTTATACAGT
GCAAACACCACAGCAAGAATAATCAGCAGGACTGCAAGAACCAGATAAGGCATC
TTCATGGAGTCTGTCTCCATCTGAATAAATCCGTCCCAACCTCCGGGAAAGTCG
GCAGGCAGAGTCTCGCGAGTATAGTTCTGTCCGGTAAGTATAAGCTTACTCAGA
AACATTGCGGATATGAAAGCACCAAGACCGTTGAACGACTGTGCAAGATTCAGT
CTTCTTGAAGCCGTATCGTGTGTACCCAGAGCTGTCACATACGGATTGGCAGCA
GTTTCGAGGAAGCACATTCCCGTTGCCATGATGAAGAAGATTACAAGATATGCC
CAGTATTCCTTTATCTCGGCTGCAGGGAAGAAAAGCAGACCACCGATGGCTGCA
AGAATGAGACCGACAATTATACCCGACTTATAGCTGAAACGTTTCATGAACATTG
CTATCGGTATGGGAAACAGGAAGTAGGCCAGCCAATAGGCAGCTTCAGTGAAC
GAGGCCTCAAAAGCATTCAGTTCACAGGTTTTCATCAACTGCCTGATCATTGTAG
GCAATAGATTACTGCTGATAGCCCACATGAAGAACAAGCTGAATATCAGTAAAA
GCGGTATAAAATATTTGTTTTTCATTCTGACATGTTTTTAATATAAGGTAACTCAG
GCAGATTCTTGAAACCGTAAAAGGCTTTCGCGTTCTCGCCCAAGAAAAGTTTTTT
GCTTCTCTCTTCCAATTCTTTTGATTTAATCACAAAGTCGTACGACATCTTGTAGG
TAATGGCTGTGATTGTGCGTGGATAGTCGGAACCCCACATCAGTTTCTCGAAGC
CAACAAGGTCGGCAGCTTCGTTGATGGCTCTGACAGCGCTGCGGAACGGATAG
AACTCGTCATTGAACAGCCAAGTGATACCGCCCGACTCAATCATCACATTCTTAT
GACGGGCAAGCATTATCTGCTTCTTCCAATCCGGTTTAGTCACCATACCGAAAT
GCCCGATGGCAATCTTCAAGTACGGACATTCTGAAATGATTTCTTCCATCTCGCC
CACCTGGAGGTCTCCCTCTGCCATATCTATGGAAAGAATCACCCCCTTGTCTTC
CATTAGATGAAACATCCTCATCATCTCGTCCGAGTTGAGCATCACCCTACCGTC
CTTCAGTTGCAGGCGGTGTCCCGGAATCTTTATGGCCTTGAACCCTTTGTCTAT
AAGTTCAACCGCCTGGTTATAGAAACCCGGTTTTCTGAATTCACACATACCACAC
ACGAAGAACCTGTCCGGATATTTCGTCATCACCTCCATCAGATAGTCATTCTGAA
TGCCGTCGATATACTCCTGTGTGACAACAGCCGCGCCAATCAGGGCATAATTCA
TATTAGCCAGGAAAACCTCAGCCGTGTTTCTTCCGTCAATCATAAAGGGGGGGG
GAGCATTTGTCTCACCTCCCCCATAAACAATGATTGACCGTTCTCTGTAGTCTTG
ATTTTCAGGCCATCTACTTCAGTGTCCTGATAAAGCCACAGATGCGAATGGGCG
TCAATTATTGTATAATCCATAGAAACAGTATTTATGAATTTGCCCAACTTACTCTT
TGCTGATCGCCTATTATCTCCTTAACCTTTTCCACAAGGCTCCAGTCTATCGGTT
CCTCAATGTATTTTATGTTCTGAAGCACAGACTCTGTTCTTGCCGAGCTGAACAA
TGTTGTAGGTATTCTCGGATTGCTTACAGAGAACTGCACCGCAAGTTTCTCGATA
GGGTATCCCTGTTCAGCACAATACTTGGCAGCCTTTGCACACACCTCAATCAAT
GGTTTTGGAGCCGGATGCCATTCAGGAACACCTCTATGTGTGAGAAGTCCCATA
CCGAACGGCGAAGCGTTTATCACTCCCACACCATTTTCGTCAAAATAGTCGAGG
AAGTCCACCAGCTTGTCGTCGTTCAATGAATAGTGACAGAAGTTAAGCACCGCC
TCTACTGTACCCGGAGCGGCATGGTCGATAATCCATTTCAGGTTTTCGAGCTGC
AGGTCGGTGATACCCACGTGGCCCACCACGCCTTTCTTCTTCAGTTCCACCAGA
GCAGGCAATGTCTCGTTCACCACCTGGTTCATATCCGAGAACTCAACGTCGTGA
ACGTTGATAAGGTCGATATAGTCGATGTTCAGACGTTCCATACTTTCGTAAACAC
TCTCCTGAGCGCGTTTGTCCGAGTAGTCCCACGTATTCACACCGTCCTTGCCAT
AGCGTCCCACCTTTGTAGAAAGGATGAACGATTCTCTTGGCAATTCCTTCAGAG
CCTTACCCAATACGGTTTCGGCTTTATAATGTCCGTAATATGGAGAAACATCAAT
AAAGTTCAGTCCGCGTTCCACTGCTGTAAAAACAGACTGTATAGCGTCACTTTCT
TTGATAGAATGAAAAACTCCGCCCAATGAAGATGCGCCATAACTCAATACAGGA
ACCTTAAGTCCTGTCTTTCCCAATTCACGATATTCCATTTTTGATAAATAATTTAA
AGGTTAATATTTTTTACTCTGTTTATTCTTATTCATACAGATAGAACATACGTTCCA
TCATCTTCCATTTCTCGTCCGATGTGGCCCCCTCGGCACACTGCTGGAATTTGG
CTACGTATTCTTCCCATTCGGCCTGACGCGGCAGAGTGGCAAGCTTTGCCATAG
CTGTATCCCAGTCAAAATCCAGAGGTGTTTCCACTATCATAAAGAGTTTTGACCC
CAATATGTATATTTCCATTTCCAGGATTCCCACCTCGCGTATTCCGGCGCGTATC
TCAGGCCATGCCTCTTCCTTACTGTGAGCCTTTCTGTAGGCTTCAATCAATTCCG
GATTCTCACGCAGACTCAATGTCTGACAGTATCTCTTCACAGGCAGGGAATAAC
TTTTCACTTTATATCCTTCTGTCTTCATGATATTATTGATATTAATATGTTAGTATT
ACATGTCACTGTCTTTATCTTTTCGACGATGCTAAAGTATGAAGTATCCATCAAAA
CAATAGAGGAGATTTTCAAAAAAGAAAGAGGGGATATTATACCCCCTCTTTTTCG
ACATTTTTACCCCTCATAAAGGAGATAAAAAGTCACCCCAAACTCTATAAAAAAT
CAAAACAGATTGAACTGCATTCCTGTGTAGAAAAATCCCTGGTTGGATTTCGGAT
TCCAATACGTCATCACCGTCAACGGGATTTCATATTCCATAATCCGAAGTTTATA
AATCACATTCAGGGACACCTGAGTAATTCCTGCCGATTCGGCATACATGGTTCT
GTTCACCATTTCCCCGCTTTCATTTCTTGAATTTCTCAATGCGAAAGCTGTTCCA
ATACCAGGACCGACCCTTAGCTTTTCGTTCTGATAGATGGTATAGCCCACATATA
CGAAACTGGAGTAGATGTTCTTGCTGTTGTCCAGATCCCTGTCGCGACCGTAAA
CAAGTGTAGAGAAGCTCAACTCCAGCGGAAATTTCCTGTCGCCCGTATAATTGA
CCATGAGATCAACGAAACGTCCAGTTTCATCAGGCTTATAGTTGAAGAACTCCTT
ATTATTATATGTAGCCCCGGGCGAGAAATTATATGTATCTATAGCCTTTATCTGA
AACCTGCCATGAGTATATGCTATATACTGGCTCAGCTCCTTATAACTCCCCCTGG
TGTTCGATCCGCCAAGGAAACCGGCGGTAAACCTCCCCGATGGGTCGGAAACC
GACAAATCGGACGAGAGAATCAGTCCGTCGGCCACTTCAATGCCACGCCATAG
AATCATGTTCTGTAGAGTAGTACTGAAATGAAGCTGAGCCTGAACATTTGCTGAC
AAAAATATAAATACAGGAATTAACAGTCGCTTTTTATACTTACAGGTATCCAATGA
TAATATATGTATCATACTCAGAGCAGTAGAAAATCGGTTTTAAATTATTATTATGG
ATTTATTTGTCGAAATACTCTATAAGATTATAAACATTCCAGTTAATATCCGACAT
GTATTTGGTCAATGATGTATAAGGTTTATAGTTATAATCGAGCATACCTTTATTGC
AATCCTCATCATCCAGATACTTGAAGAAAACCCATCCTACACAATTCTTGGCTTC
GAGCAGTCCCAAGGTAAAATGCTGGTAAGCGAATCCACGGTTTTGCTGGTCGC
GTACCACGAAACCAGCTCCACTTGAATTGTCAAGCTTAGTATCCTCACCCTTGGT
ATAGAATTCCGTTACCATGAAAGGAGTACCGCCCGCCTGGTTCTTCCAGCCATC
CATGTAGCCTTTTTCAGGCGACCATTTACTATAATAATTTATGGAAATGACATCAC
AATATTTTCCCGCTGCCTTAATTATATAACTGTTGTATTTAGGAAGGCTGTGCAG
GCGTGAACCCAGATAAAGCAATTCAGGATCCTTCGATGCCTTAACCGCATTCTTT
ATGGCAGAATAATATTTTTCCGCACAAATACCGGCAAACTCATTGTTCAGTTCAT
CCGTTACATCAGAAACATTTGCACTCTTGTCCTTATCCGTCATAAACTTGGCGGC
TGCAATATAAGCAGGATCCTGCTTGTTTGAAATTTTCAGGAATCTGTCGAGCAGC
CTGTTTCCCCATGTAGAGAAGTCTATCTCATTATCCGAGAAGAATCCCAACACAT
CCGGGTTGTTTCTGAACATGCCGAAAGCATCCGAATTGAGATACTCCTTGCACC
ATTCATCCCATCCATCATAAAACACAAGACCTATCTTAAGATTCACGTTCTGCCC
CGGATAGCTAATTCCCTTGCTATTCTTGAACTCTGCAAGGAATGAAAAGGAAGG
AGCCTGTGTCAGAGGACTTGAAGCCGATTTATTATAATCATTTACAGCCTTGTCG
CCTTCTTCCTTACCGAAAGCGCAGACACTATGAAATCCTATTTCAGAGAATTGTT
TCTGCGACTTTGCCACCCAGTCATCTACTGAACTGTAAAGCTTGCCGAAAGCTG
AGCTGTTGCCATCCATTCTGAATGAGGCGATACCCCTTACATAATATGGATAACC
TTCGGGGTCGACTATCCAACTTCTTCCATTTGAGTTTTTCTCAACCCTGAACCGT
CCAGTAGCCTTGGATTTTTGCCCTTTTGCGTATGAGCCATATTTATTCACGCTTT
GCAAATACTCATCCTGTGTTTTTGTCTGCTGTTCATAACCAACCAGGTATGGCAA
TATCCTTGTCTTTGCCTCTATAAAAGCCTTGTCAGGTTTTTCCGCATACTCGACA
ATTATCGGTTGATACTGCTTGGTGCTATTAGGATAGGTTTCAGCAGGACCGGGA
ACAGGCAGTTGCAGTTCTACATCATCATCGTCATTATCGCCTGCATTGTCGCCG
GGAGTATTATAGTCCTCCACATTCCCCGGTTGTGAGTAAATAACCTCAGGCGGA
ATATATGAGAACTCCTCCTGAGGGTCTTCACATGACAAAGCGAAGAACGGAACA
CTCAAGCAAATGGTTTTAGTAATAATAGTAGAATATTTCATTGTTGCAAATATTTA
GTAAATTAATATAAATCCCATGTCCTGATTGTATCCCCCCATCGGTGGTCTATCG
GGAACTCCATTTCTCCCCATGCCTTAACAGAAGTCCAAGGTTGGTCGGCATCAG
TCCAGAATGGGTCAGAGGCAGGCAATCCCAACGGAAGGAATGCAAGTGTAGTC
ATATACAGGCTGCCATTGTTTGTATAATGATTCGAAATGCCAGTCTGATGTCCGC
AGAATCCTATGGTGAGGAATCCGCCCTCATTGAAGTTATTGCCCGACTTGAACA
TACGTTTCATACACGCTGTCAGCGCACATCTCACCTGTGCTTTCGATACTCCCG
CCGGCAACTCATTATACCATGCTATAAGAGCCAGTGGCTGCATTGTTGCCATAC
GGTAAGGTATAGAGCGTCCGAAAACAGGGAATGTTCCTTCAGGAGATATGAAAC
GCTCCAGAATCATGGCGAACCTCTGTGCCCTCATCAATGCCCTGTCATAGTACT
TGCGATAGTCGAAACGTGTCCTCACGCCCGATTCCATTATTGCATGTATAGATTC
GAGATACATAGGATGGAACACATAACTGCTATAATAATCGAATGCAAAGTGCTGT
CCGTCTGCGTACCATCCGTCGCCTACATACCATTCCTCCACCTTGCGGAAAGTA
GAATTTATACGATATGTATCCTGTCCGGCATCAATTTTGGCAAGGAAGCTTTCAA
TGGTGGCCGAGAACAGCAGCCAGTTAGTGTAAGGAGGGTCAATGCGTCGGAGA
CCTTTGAACTCTTTTATGTAGCGTTCCTTTGTTGTCTGGTCCAGCGGTTTCCACA
GCTGGTCGAACGCGCGCAGGAAACTTTCCGCAATATAGGCAGCATCAACCAGT
GCCTGACCATGACCGTTCCACAACAGATAATCCGGACTATTAGGGTCCACCGCA
TTTGCATAACTCTTCAATGCCCATTCTTTCAGTTGCTTGCGCTGCTGTCCTTCTG
CTGTATCATCGTCAGGCAGGCTCAACCATGGAGCTATACCGGCCATGAGACGT
CCGAAAGTTTCCATATATGCAACCTTCTTGTTACGGTTATCCCAGTTTGGACTTA
CCTCAAGAATCATATTTTTCTGCAGTTCCCCTTTCGCCATATTGCTCAACACAGG
AGCAGCCATCCTGTAAGCCATATCCGTCCAGTATTTTCTTGTCTCGTTGTTGTTT
GCCTCGAGATAACGCACATACTCGCAAGCGGCAAGAAGGAATGCGCCTACCCC
AAAGTTGGCAGTCGACTTGGCGTCAACCACCTGTCCCGGAATAGCCTTTTCACC
GATTGGCTGGACATAACCCACCGACCAGTCTTTCTGCAGTGCAGTCTTGGTAAG
ATATTTCCATGCTTTCCCCACTACAGGCATAAATTCATCCTTGTCAAGATAACCG
TTGTTTATCCCCCAAAGCATACCGTAAGTGAAGAAAGCGGTACCGCTTGTTTCC
GGTCCCGGAGCATGTTCCGGATCCATCATACTTCTTGTCCAGTAGCCCTCCGGC
TGCTGCAGACATGCAACCGCCTTTGCCATACGCACAAACTTATCCTCGAAAAAA
GACAGATGCTCATAACCCTCCGGCAGGTCCTTCAGCACCTTTGCCAGAGCGGC
AAGCACCCATCCGTCGCCTCTTGCCCAGAAATCCTTCTTTCCGTTCAGACTCTTA
TGCTTGGGATAAACATATTTTGCGTCGCGATAATAGAGTCCTTCCTCCTCATCAT
ACATTATTGAGTCCGACGTACAAAGATATTCATACAGTTTCTTAAGATACCGGTG
ATTATGCGTAATCTTATACATCTTCGTCATTACCGGCATCACCATATAAAGTCCG
TCGCTCCACCACCAGTAATCCTTACGCGGTGTGCTCATCTGGTACTCCATGACT
TCGCGTGCACGCTTGATTTTATAATTCTCCGGCATGACGTTATACAAGTCCGCAT
AAGTCTGGAAGCACACCTGATAATCGCCGAACAGCACATAATCATCCTTTACCC
CGTATTTATACTTCCATTCAGATTTGTTGTTGCTTTTCGCACCCATCCACTGGTTA
TACTCAGCCCATGCCTCCGAATACTTTCTGTATTCTTCTTTCCCAGTAAGGAAAT
AGGCTTCCATATTACCGGTGTGATATGCCGCATAATCCCAGAAAGACCTTGCTT
CGGGGGCATGATTTTTCTGCCAGGCATCGTTCACTTTTTCAATCATCTCCCTAAC
TTGCTGAGCCTCAGTTTTTTTTTGCGAAGGAAAATGAAGGTAAAACAGCTATAAG
GATGTATAACATCCAGTAGTATCTATAACAGTTCATCTTTGTGATATTGTTTACAT
TTTCTAAAACGAAATGGGGAAGAATATATATTCCTCCCTCATTTCACGAATAATTG
TATTATTATATTTATTTGTTAGGAGTCCATTCTGCTCCGTTGTTGAAACCTTCTGT
TGTAGAGTCAAAACTTGCATCTGCTCCTGTACTTGGTCTTTCTGTAATTTCTTCAA
TCTTAAAAGAAGTGATTTTAGCGGTTCCAGTAGCATCAGTACCACCAGGGACATT
AGTCTGTACAGTTAAAATAACGTTCTCAAGAACCGGCCACACAAGTGAACCATCT
GCTCTTGAAGCTGGAGTTTCAGCAGAAGTAGAACTACTGATTGTGAATGTATTTG
TATAGGTTCCACTTCCGGTATTTCTTCCAATCCAGAATTTATATTTATCAGATGCT
CCCAATCTGAATGTTGTTGCACAGTCGTTAGATGCGTATGTATAAGTAAATTTGT
AAGTACAACCATCACGGAATGACATTGATTTAGTAACTGGGAATTGATTATCTGC
TGGAACAATTTCCAATTCTCCACTTGCATTAATTTTTTCGGCAACTCCTTCTGCAA
GATATTCCTTAACTGCATCTATGTTAGCGAAGTTAAAATCAAAAGCATCTGCATG
AGTCAAAGCAACATTGGCAGATTCAATCTTGATATTAGCATCTTCGTTGTTTTCG
TTTTTAGCAGTCAAAGCACTAACAGCATAATCAGTGTTATAACTTACGCTAATATT
TGCGTCATTACTATAAATCTTATCACCAAGAATAAGAGTCATAGTAGTTCCATTCA
CAGAACCGGAAGCAACAGGAATTGTTTTTCCTGCTACTGTTATGGTAAATGCTTT
GTTAACAGCATCAGTGAATGTTCCAGAAACTTCCTTATCGAGTGTAAGTTCAATT
CGGTCATTACCTGTTGTCTGATCAGGAACAATTTCTTTAGCTGAAGAAACGGCAA
CAGTAGTTTGTTTTTCCAAATCCACAGGAGGTTCACCGCCTCCTTGATCATCATT
CAATACTATCGTTACAATCTGTCCTTTAGTAACTATAAGGTTTTCACCACTGAAGT
TATAAGTTTTAGTACCAGAATTTCTTGTAAGTTCTAAAGTAAATCCATCGGTAAAT
GTCACCGGAGCTACAACCATTGAGTATTCCTTGGCATTTTTATTTTGTTCATTAG
GACCAACAAATGTTCCCTCTTTAGCGGTTAGAGTTATAACATTAGAACCGGATTC
CACTGTCAGGTTTGCTGAAGCATCAATTTTTACGTTCCCTGCAATCTTTACATCA
CCACCAGCAGTAAGTTTAATACCTGTAAGGTCAGTAAGATTATTTTTAAACTTAAC
CAATCCACAAGTATTCTGGAAAGTTAAAGATTTGTTATTATCTGTTGCAGTAGCAT
AAGATATATTTGCATTTGCATCGAATCCCCAAGCCGGAGCTGTCTGTTCAGATG
GCAGTGTAGTAGTTACGACACCTTCAAGACACACAGCTTCGGCATTATAAGGAT
AAAGAGCTGTATATGAATTGTTAGGTGTAGCCTTACCTGTAAACGTTGTAACTGT
GCTACCACCTGTAGCGGTAGTAAACTTGTTATTTTCTTGGCCTGAAAAGATATTG
ATTGCATCTCCTGTTGTCCACCACACCGTTGTTCCATTCTGCAACGAACTACGG
CTTGAAGGCGTACCGGCAACAAAAGTCATATCCTGAGGACCACTGACTGCATTT
ACATTCGACAGTTCGTCTTTTGTACAAGACTGGAGCATTGCAATACTCATCAAAG
CCGCTCCACAAAATAGCATCGTATTTTTCATGACATAAATTATTTGTTAAACAGTT
TCAATAATAAAAAATCACATCACTTGTTATTCATATTCTTATTCTTTAGGATCAGGT
TTCCATTCAGTACCGTCATCTTCAAAATCATCATGACCGCCATCTACAATTCCGG
GAGGTATTGATATTCGGCATACCGCACTTTTTATTCCATTACCCGTATCTACAGA
AGCACCGATATTAGAATCTCTGCCCCCGTCGATTGCCACGACCGTACATCTCAT
TTTATCGTCCGATGGTGTAATCATCAACACATCAGGGAAAGAAGTTCCCCAAACT
ATTGACTTGTAACCGGTATAAGGGAGATTATCCTTGGTTATATTAATACCCAACT
CCACAGTGCCACTATATGGTAATTCTATATAACTGACAGGTTTGTTGTCAGTCTG
CCCATCCTTGAACACTACATATTCAATTTTTATCTCCTCAGCTGGTGTTCCATCAC
CTCCACCTACGCCATCATCATCCTTATCACACGAGATTGCCGTAAACTGTATAAA
AAGAAGTATGAAAAGGTTGTATACTGACAGAATCCGTGGTTTTATATCAACCATA
ATAAAATGTTATTTAAGCGCCAAACAAAATTTTCAATATTCAAAAGGCATAAGAGG
AAACCCTGAATATGCCTTATTACCATGAAAACAAATCAATCTACCTTTTTCAATCC
GGAATCAGAAAAATATGTTATTTATTTAGAACATATTTTTCCGATTTGCCAGATTA
CAATCACAATAAATAAATCAACAACTAAATCTAATTACCTAATCTTATAACTAAAC
CCTCAAACAATGTTATTTAACCTTTTCTATCTTGACATCATCAAGCAGGAAGCATC
CACCATTACCTGAACCCGGAACAGCTGTGAAACGATATACAAAACCATTTTCCTG
CAATTTGAATTTAACTGTTGTAAGATTGTAATTCTTACGGTCTTTCTTGACCTCAG
CAGTGGCAATTTCTTCCAGTTTCTTTGAATCCGGATTATAGTACTCAATCCTGAA
GTTAGGTTTGTCACCCCAACTGTATTTGGTATAAGCTGAAATCTGATATTCTGCT
CCAGTTTCATAGCTGATGTTTACAGCCTGCCACATACCAACCTTCACCTCAACAG
CATAGTTGCCTGAATGTGCCTTTTTCGCATCAACTATTTTGTTATCTTTCTTTTCC
CAGACATTCCATGATGTCAAGTCACCTGACTCAAAATCACCGTTCTTAATTTCCT
GAGCGTATGCAGAAGTCATCATCATTCCGCAAGCCATCATTGCTAAAATTTCTTT
TTTCATTTTTTCTAAGGTTTTTAATTTAAGTATTATGTTGTATCTATTAAAATCACT
CTTCTATTGGAACCAACTTATAAGCCCTGACCCAGTCATAATAAGTAGTACTTTT
GTCCTTATCCTTCAAGTCCTCAGCTGTAGGTACTTGTTTTTCCCAATCGTATGTTT
CAGTAACTATATGTATGAACATAGGTCGGTCAAACGGAGTATCTGTATATTTTGT
TGTAGGCTTGATAGTGTACATATACTTTCCGTCATAATAGAATTTCACGGTATTTG
CATCCACCCACCAACAACCGTAAGTATGGAAATCTTCTGCCGATGGGTCCGTCA
TATACGAAACCACATCCGAACGTTTCGCCGTATTGTCAGTACGTTTGCCTCCTTG
TTCCTGATACCAATAGTGAGTATTACTGTTCATCTGCATATTCCATGTCTTGTTCC
ACGGATTATCAGGGTTGACACTTCTTATTATACCCATTGTTTCTATAATATCAAGT
TCCTGACTGCTCCATGTCTTTATCTTCTTGCCGCCTTTCATTATTTCCTTCATTAC
CGGGCGGTTGGAAAGCCAAAAAGTAGACGACATGGTAGTGAGCGAAGCCTTCA
TCCTTGTTTCATAATACCCATAATGTGCCTGGTTCTTTGCAGAAGCAACCGCTCC
ACCGGCAAGACGATATTTATCGCCCGGCTTTCCATCAAGTCCTTCTGTTGGCGA
CAAAACGGTATTGATTATACGAAGACAACCTTTCTTGACACTAACATTCTCTGCC
TTGAAAGTTGCAGGCGGCCGACCGTTAGTCCAATAAGGACTTTTAGCATGCCAT
TTAGCGGCATTAAGACGTTTACCATTGAATTCATCAGTATAATCTTCGTTAACTAC
CCATTTATAACCCTCAGGAGCCTCAGGCAAATTTTTTATATGCTCTTCAGCCAAA
GAATATTCCTTATCATTTTTTAATGTATAAGATGACAGGAATAAAGATGCAGCAGA
TAAATACAATACTGTTTTTCTCATAAACTTTGTCGTTTTAGATTTTTTGTTACACGA
CAAAAGTATATAAGTTTCATGAAAGCATTAAGGGGGATTTACATCGTAAAAGGTG
GGGTAAAATTCTACCACTCCCTGAAACACAATTATTTCACTCATGAAACCATGTG
TTTTTACGATATATAAAACCCGACAGAAGAATAATACCGTATTACCGGCTAATTTA
CATAAGAATAACTTTTCAAACCGCCATATACCCCACTTTACGTCCGTACCCTCAG
TCCTCGACTCCGGCAATATGTTTTCCATATCGAGATCTATGGTTTTCTGCCTCGG
ATTCAACCACTAACTGTCGAGCATGTGGATTGCGTATCTGTCATAGAATCTCTTT
CCGAACCATATTATCTCGTCTGTGCTAAGTATGTTGTTCAGACGGATAATCTTTC
CGGTATTTTACCACCTACTTCTCTTGCAAATCCTGATCTGATATAACCGGATACT
CTCAATTCATTGATTTCCGACTTGTATACAGTCTGCGAAGAGGCATTGAAACTAC
TGCACAGACTGAACAGCAGCAGGGGAATAATTTAACTGATTTTAATAGTAGACAT
TCTGTGTTCATAATATTTCATTTTAATGATTACGTTTCTGACTTTCGTCTGATGCA
AAATTATGAGGTATCGGACGGGGTTGTATCTTTCAGTAAAAATCAGTAAAGTCTT
GGCAAGGGGTAAAAAACTTAACATCTTGTATATAAATATATTACAAACAAGGTGC
AAAGATTTTCAGTAAACGATGGCGAATACAGAACCTATATATTTACACGCCATAA
AATGAAGAAAAAGCAGTAGGAAAAAAATGCGGGCAAGTTCCGGATAAAATGTGG
GCAAGTTTAAGGTAAAACTTGCCCGCATTTTAGATAGAATGCGATCGCATTTAAA
ACAAGTAAAAAACGAAGAAAAAAAATATGTGTTCTTCACAGAACACATATTTCAAA
AATAGGTATAAACACGCTAAACAATGTTAACAAAATCTATTTATAAAAAAAGCTCA
CATCAATAATATCTGCAACATTTTTACAATACTCCATAAATGAAGAGACCTTGGG
ATGATTTATACACAGAGCTATCTGTGATGTAGGCGAAAAACGTCCTGTCCCGTC
AAGAAACGCTGTAAGCTCAGATGGGAGGAGTATACTGCCAATACCTGGATTTAC
GTCAGTCAGAACGACTGTATTTACAGCTTCCACCGCTGACACATCAAGATAATC
GAGTGCCGGAAGATCTGCGAAGTGCAATTTTCCTATCATATTGCCGCCTTTGCT
GCCCTGAAGAGAGACACTCTCCAATGAAGAACAACCGGATATATGGATTTCACT
GTCGAATATTGAAGTTTCGGAAACATCATCATTAAGTATAACAGAAGGAACAACT
ACCAATTGAAGCGAACTGTTATTCTCCACCCTAAGTACTTTCAATGATGATGCGG
AACTTAAATCCATTCCCAAAGGTGTATCAATATTAGAGATTGAAAATACTGAAACT
CCCGAAGACGGCTTGACATACGACATGGAATAATGCTTGGACTTCACTCCCGAA
ATGTCTACTTTTCCTCTGAAACCGGGATTTGACAATATATACTCCACACCCTCAA
GGTTAGCTGTCTGCGACAGGAAAATGAGGTCGTTCCCTTCGGTTATCCTCTTCG
TGACATCAATCTCCAACGATGAGACAAACACCGACGGGAAGTTTCTGTAAAGAT
ATGAACGGAGCAAAGGATCCGGTACTCTTCGGTTTACTGTATATTCAGTGTAATT
TCCATCCTCGTCCGACATCACGACAAGACATTTGTCCGTCATGGCTTTATAGAAT
GCAGGTATGACATCTGTATTCCATTTTGCAAAGTAAGGAAGTTTCAGATTTGTAA
GACTTTTACAAAGCACCGTAGTGCCATCGGTTGAAATAAGATTGAGATACGAAG
TTATGCCGTCATTGCCGCGTAAAGCTACCGATTTTATTCCTTCGGGCAGGTCAG
CAAAGTCGAATATAGAAAAACTGTTACACTCAAGATTGACATCTGCGAGCGAAG
GAAAACTCCTCAAACCGCTAATAGATGTAAGTTCGCATCTACTCAAGTCCAAAGA
AGTGGTATTGAGAACTTGATTGTCACAAATCAGCTCTCCGTTTTCGCTGAAATTA
AATCCTTTCCGGGTCAAGACATCGCGTAACTTTGTATCAAAAGTCACTTCAGACA
CTTCAAAGTCGGAAATTTCTGTTTCATCCTTACACGAGATTATTGTGAAACAGAG
AACTATCAGTACATAAAAGCTAATAAAATTCCTCATAACAATCAGTTTTGTGGTAA
TAAGACTATATTATCAATCCAAGCCGCGTCGTTCTGTCTTTCGCACACAATGGCA
CACACTACTTTTTTCACTGTAGAATTAAAATCGAAAGATACGGCTTTATAATTGCC
GGGAGAAGAAAATTCCTCTGTATATACCGTTCCTGTAGACATATCCTGTAGCATG
ACTTTCAACTTACATGCTCCTTCGGTCTTTACATCAGCAGAGAAGCGATAAGTCC
TGCCACTCTCCATGTCAACCCTCTGCATGAGTCCTGCATGACCAGATATACAGG
CTACATTATTGCCTGCATTGTCAGTCTGTACGCAAACCGTACCATAGTTACCCAA
TGGCTGCCATGCTGAAAGTCCTTCGCTGAAGGTTCCATTCTGCAAGGTAGAGAC
AGTATATTTCTCAACCTGCAGTATCATGGACGATACGTGACCTCCTCCGTCGGA
AAAGGTGATGTCGACATTATTATCGCCATTCTTCAGCAGCTGTATGTCGAACGGT
ACTTCTATCATACCGAAAAATATATTGCGGTTGCTCTGGCCGTAGCCTTTCCAGT
TGTCGGGAACACTCACAGCGGTACCATTAATCTTTACCACCGGTTTCTTGGAAG
CAGAGACAGGACGGCCTATCGACATACGCAAGCTTGCTCTGCCCGAACCGGAC
TCGATTCCTGTGAAGGGGAACGAAAGGGATGATCCGGCGGAAATCGGTTTCAG
ATACTCACTGCTGTAATATTTATTGCGGATTATGGAGTTCGTGAATGCTGACGAA
GACACATCTGCTACAAGGACTATGGTCTGATTTGGGACAATTGAGATGCTTTCA
GGCATGGACGGGACATTCTGTTCCGTATATTCTATACCTGCGTTATAATTGACAT
ATAGAGAACGCTTTGTGACATTCGATACATCCTTCCAGCTATTCTTATTGTTCAG
ATATACAGTCTGCGGGTTATCATCAAGATTATCAAGGGCGATATAGAGTCTGCCT
CCATCCTTGAATGCCTGTACCTGAATATCAGGATTACTGCTGGTTATATCAACAC
GTTCGCCTTTTACATTCTTCCAGAGTTCGAAGAAATATTTTTTGTCATTAAGCCTC
CATGTGGTATTCTTCAGATTCTGAGGATTGTCGGGAATAAACAGTGCCGCACTA
TATGAAGTATAATTGTTTGCAGCGGTGATATGCCACTCAGCCTTATCTGAGACAA
AAGGTATTGAGATAAACAAATTGTCCTGACGTTCCATCAGATTAAACAGAAAATG
ATTAAACGACGAAACACTCCGCACACTGCTTATGTCATCATAGCTGTCGTCGGG
CTTGCTGTTGTCAATACCTCCAAACTCGGAAATGGCAAGAGGCTTGACATGTCC
GAACTTAATATAGGAATACGCCTCAACCATATCAAGAACTGCTTCGGAGTTACTT
CCTGAACGTTTCGTATCGGTGCCGGTTACATTTATTCCATCATAAAGATGTACAG
AGAATCCATCCATATATGCACCTGCCCGATCGATGAACATTTTCATGCGGGTGTT
CCAGTAATTGAAGTTCCCATCCTCCCAGGCGGGGTAGGCTGCGGCATAGCCTA
TCACCTTCATCTTTCCGTTAAGACGCGGATTATTGTGTATATGTTTACCTATTGAA
GCATAAAAATCGACCATCAGTTCGCGCATAGCCTGTCCCTGAACGGTAAAACCG
GCATCATTTGCATGAACGAACGGTTCATTGAGGGGTTCAAAAAACTCAGGTACC
AGCTCGCTGTTGGAATAATACTCAGCCGACCATGCACCTGCAGCCTGAACGTCT
ATGCCGCCCTGTATGTGCTGTACATAGGGATGCTCTGTGGCAATATATCTTTTTA
CGGAAATATTTCCGCTGTATGGTTTCATCTGAGGATATTTGCCTACCTCATGCGT
CTTGTTATACGCATACGAGTATGGTCCCCAGAACTTTCTTCCAAGACCGACCTG
ATAGTCGGCAAGAAACTTGCCTACATCCTTATCATCATCGGAGGTGGAATGAAT
ATTGAAATATTTAGAACGGTCGAGTTCTGAAACACCGCTCAAAAAGCGACGGGT
ATTATAGTCGACAACCACCTCGTTCCTTTCCTGACAATAAATACCGGGAGGAACA
CCTAGGGTAAATGCCGATAACAGAAAAATATATTTATAGCTCATAATTTCTTTCCT
TTTAGACACAGAAACTTGTCAGTCCTGATGTGGATACATTATTTTCTCACTTTCTT
ATCGTAGCGTTCAGTCTGAAGAATCATAGTAGCCACACGGCCTCCATTATCCGG
GAATGTTACTGACACCGAATTTTTTCCTTTTCTGATTAACCGGTAGTCGAAAGGT
ATTTCTATCATACCGAAGAAATCGTCTCTGCCGGTCTGGTCATATCCTCTCCAAT
TGTCGGGCATGTCGACTTTCTTGCCATTAACCATTATTTCAGGTTTCTTCGACAT
CTCGTGCTTCCTGCCTATTGACATACGCAGAACAGCTCTTCCTGTACCCGGTTT
CAGACCATCGAAATCAAACACAATTGGTTTTCCGGCTTCCACCGGCTGAAGATA
AGTGTTGCTATAATATTTAGTACGAACTATTCTGTTTGAATACTTTTTACGGATGA
TGTCGGCACACAATATTATTGTCTCATCTTTTATAATGTCAATACTTTGAGGCATC
GAGTTCAGCGTCTTTTCATCATAAACTATACCTTTATCGAAAATCATCTTCAAAGA
GCGCACAGAAACATTATCTACACCCTTCCAATTCAGTACGTTTTTCAAGTTTACC
TTATGTGTATAGTCATCAAGATTGTCGACAGCTATGTAAAGCCTGTCATCGTCCT
TAAAAGCTGCCACCTGTATGTCCGGATTGTCGGAAACAATATCTACACGTTCGC
CTTTCACATCCTTCCATAACTTGAAGAAATATTTCTTGTCGTTCAGTTTCCATGCG
GTATTCTTCAAGTCGTGAGGATTGTTGGCAACAAATAAAGCAGCTCCGTATGGTT
CGAAATTATATTGTTTCGTTATATGCCATTCGGCCTTGTCAGAAACAAAGGGTAT
TGAGATGAGCATCTTGTCTTCGCGTTCAAGAAGATTGAACAGTATATGATTGAAC
GAAGCGACAGTTCGTACAGAGGCTATCGGATTATATCCTTTGGAAGTGTTGTCT
ATTCCTCCATATTCGGTTACGGCAAGAGGAAGAACTTTCCCCAAGCGGATGAAC
GAGTAGTTTTCCATAAGGTCGAGAATAGCTTCGGAATTACTTCCCGAACGGCGG
GAACTCTTGCCTACTATGTTTATTCCATCGTAAAGATGTACCGACAAGCCATCCA
TGTACTCCCCGGCACGGTCAATGAACATCTTCATAGTATTATTCCAATGGTCGAA
ATCGCGCAACTCCATAGCCGGATATGCCGCGGCATATCCAATGATTTTCATTTTT
TTCAGACTTGGCTCAGCGTGAATATGCTTTCCTGTCTGTGCATAAAAATCTGCCA
TGAGCATCCTCATTTCCTGACCATGCATATTGAAACATTTGTCGCGTGCATGGAC
AAAGGGTTCGTTAATGGGTTCGAAAAATTCAGGAACTGCCCCTTTCACATGCTT
GGAATAGTATTCGGCAGCCCATGCACCCGCCTTCACTGGGTCTATGCCCCATTG
TATGGTACGCGCGTTGGCATGTTCCGTAGCGACATATCGTTTTGTTTCCTTCAAA
TCAGTGTAGTTCAAAGGCTTTTCTGAAAAAGGATATTCGCCAACCTTTTTTGTCTT
GCCATATGAATAAGAGAACGGTCCCCAGAAAGAGCGGCCGATTCCTACACCGT
AATCTGCAAGAAATTTCCTGACATCTGGATCAGAATCTTTAGATGTGTGTATATT
GAAATATTTACCTCTGTCAAGTGCCGATACATCATTCAGGTATCTCTGAGTGGCA
TAATCCACTGTGACAGTAGTGTTATAAGTCTTATTCTCGGAAGATGATAAAGGAA
AAACCGAGAAAGACAAACACACAGACAAAGCTGTAAGAATTATGTTATTCATTGT
ATTATCAAAATTTAAAAGGCAGAGAACACTCCGATAGTTCAATTAAAGTATTCCCT
GCCATTAAGATTATCACTTCTGTTTAAACACTAATATCAGAAATCGGCCGGTTTG
AGTACATCGTTCAGCACCACTTCATATTCAACTTCTGTTCCGTCGTTTTCAGTAA
CAGTAAGATGGCCGTAACCGCCACTTGAGTTATTTTCTTTCTTACCTTCAAACAT
GAACATTCTCTTCTTCGTCACTTCCTGTTCTTCTTTATCGCCTGTTTCAGGATTGA
TAACTTCTTCCTTTTCAGTATAGACTTCATTGAAAGAGAATGAGAGATGTTTTTCT
GTATCCGAATTGATTTTCAGCCACTCGGGCAATTCCGAAGGAGCCTCAGACGAC
TCGGCAAAGAACTCGATCTTATTCATTCTCAAAGTCTGATAGTCATTCTTCCAGG
CAATGAGGTCGAACAATTCGCGATAAACAGAAAACTTGGAAACCTCGCCTGTCT
TTCCTGTTTCCACATTCTTGAGATAGGTAAGTTCATACACGGGAGTAGAATCAAG
TTCGACCTCAGCCCATTTGTCATTATCACATGCTCCGAACAAAACCAAAGCACAT
AAGAATGTAATTGTCTTATAAATTTTATCTATTAGCTTCATTGTTACTATAATTTAT
TATGGTCTTACTTCAATATATCCGAAAAATATATCGTCAAAATAAATATTATCCTTA
AAGGCATTAAAGCGCATACTGAGCAATATATTGTCCATTTCAGCCTTTGAAGTCA
CAGTGGTTGTGGCCGACATCCATTTGCTGTCGGAGCCATTCACAATGCCGCACC
ATGGTCTATCGCTCTGCCATGTCATATCTTCAGCTCCTTCTTTACCTGCCGGAAC
GAAATACGGACTCATACCCTTACCCTGTTTATACCCCGGTGTATAATATTTGTAG
CTGAAAGTATATGTACCTTTACCACCAGTAAATGTCTTGGAGAGTAATGCCCTGC
ATCGGTCAAATGCTTCGACAAACATACATTTTGCACTGTTGTTTATTCCATCCTTC
AGAGGATTGTCCACAACCTGTGAAGGAACTACAGGATGTGTTTTGGTATCGGCA
TCAATAACTTTCCAGTCGGCATATGTGTCAGAATTTTCAAAATCTTCATCCAGGA
ACGCACCAAAAGTAGTCGCTACGTTTGGAGCTGTAGCCTTTATCTCAAGGTTCT
GATATCCAACCAACGCTTCAGTTAAAGTTCCTGTAAGGGTCAGTTCATCTGTGTT
ATAGATTTTCTCAACCAAAGTAAGAATCAGTTCATATCTGCTTTGCTTGTTTACTT
CTGCTGCTGTGATGTTTACGCTACCCCTGACAGCTGACGGTCTGTTATACGAGT
TGGAGTAAGTAAGCTTTAGAGATGATGGATTTATCTCTTTATATCCAAACTCAGA
ATTATCCAAATCTATAGCAATGTGTGTTTGGTCAATCTGACGGATGTTATAAGTA
ATAGGATCATCACTAGGTACTACTGTAATAGCCAAAGGCACAACAAGAGTTTTTG
GCGAAGCTTTTGGAGTGTACTTACCTTTACCCTCACTGGCAGAAGTTCTTTCTAT
TGTCATGGAAAGAAGCAATGGCTTATCGCTGAATTTCTTTGCAGTGAACTGGTAT
GGAGTGTCAAAACTGGTTAATTCGTCATTTACGCCAGTATCCGCACATTTGAAAG
TCCATTTGTTAGGCAATCCGTATGAATCGTCCTTAATATAGACAGACTTACCATA
TTCAAGTTCGTATTTTTCGTATTCGGGAGCTTCCTCAGTTCCACCGACTATTCCG
GTCTTTATTTCCTGTGTACACTCCGGATCACTGTATACCTTTACGGCCGGTACGA
GGTTAGGATCATACACGCGGATATGGAAAGTTGTATCCATCACATATACATCACC
CTCCTGCTTAGCATAACAATATTTTTTGATATATCCTCCGGTATTGTCGTCATACA
CCGAATATGGATATACAACCTGTCTGCGGAAAGTATTGCACAAACGTACCGTAT
GGTCACCGGGTTTAGTGAAATACACATGTATGGTTTTCAAATCGTTGGTATGAG
GGATGGATTCATCAATCAGGTTTGTATAGTCTGTCTGTCCCCACTCCATCTTACC
ATTAAGGAACTTTGTACCATCATCCGACACAACCCACTGATGCGACAACATGCC
TTGGGATAAGTCCATTATACTTATATAGTTATTAAGATTCAGCTGAATAGGTGAAA
CGTTTTCCTGATCTGTACTCACATGCCAGGTACATTCAGCCACGTTATTCAACGG
TTCAAACTCATCATCCTTACAAGATGTCAGAACCGAGATTAATGAAAGAGCAATA
TATAAAAATCTATTTTTCATCGTATTTATTTATTAATATCAGGATTTGATGTAATTT
CTATATTTGGAATAGGCCAGTATGCCACTTGCGGACCGTAGTTCAATGATGCTT
GGAAATAATCCACAAAAGCGTTTCCTCTCTTTTCTGGCGGCAGCTCATAAAATCT
GTACTGCTTTCCAAAGTTGAATGCTGATACCAAAGCATTAGGGTCATCAGGATTA
GGCTTAAGATATTTGGTCTGAATCATACAGTACTTATATTCGTCGGATGCCAACT
GATCAAACCTTTCCTTAGTTATATTCCAGCGTCTCAAATCAATGACACGTATGGC
ATGTCCTTCCATACACAGTTCAAGAGGACGTTCCACATACATCAGATGATTCATT
ACATCACTTGCAGCATATTCCTTCTCATCGTATGTATATCTCTTGAATTCTCCCTG
TTCCGATTTTCCGATAAGCACAACTCCAGCACGGTGACGTACCTTGTTGATGGC
ATTGATAGCTGACTGAACATTTCCATCGCTTGCACCGCCTTTAATCAGACATTCT
GCATACATCAGATATATATCTGCCAAACGGATAAGACGATAGTTTATTCCTGAGG
CCATAGCAGGCTTAAATTCAGTTTCACTCTTACGTGTATCCCAATTTGATAATTTT
CTGAAATACGCTGAAGAGCCACGGTTGAATTTTGATACCTGTTGTGGGAGAGAC
TGATAATATATCAGACTTTCATCGCCGTTTATTGCAAGAGAGGCAGATGCACGCA
TGGAATAGCTTCTGAGGCGATATGCCTGACCGTCTTCCCATTTAAATTCCGGAA
CTATGTCATCGTAGCCGGTAATCTTATTGTATAAAACTTTATTATCTCCGACAGTT
GAGACGAGTCGTTCGCGTACTCCAACATATTTTCCTGCTGTTGCATCCCACGTA
TAAACGTACGTTCTGTTATATACGACACCCTGACGGTCCACCTGCGAGCTGAAA
GTTGTTCCCAACTGGTCGTATATAATATCCCTATGTTCAGGATCACCATAATTGT
CGGACTGCATTTTTATCCAGTTACGTTCATCAAGTCTGTCCACCGGCTCTGTTTC
GAATGCTTCAACAAGCCAAAAAGCAGGAACAGTGTTAAGCCAGGCATCGCCCAA
GCCATTTACATTCATTCCCCATATATTATATAAGGTAGACTCCGACCATGTACCG
AATTCTGTATTATACTGTGTAGAATAGGAAACCTCGAGAATAGATTCCGAATTGA
ATTCATTGGCAGCAGTAAAATTATCGACTATGTCATCAACCAAAGCAAAACCTCC
ATTATCAATAATATCCTTAAAATATTCGGCAGCTTTATTATACTCTTTATCATAAAG
GTAGCTTTTGCCTAATATTGCCTTTACAGCCCAAGAGGTGATACGTCCCAAATCG
GTTTTCTCCCATTTGTCATTCAAGCCAAGGTCAAGAGCTTTCTGTAAATCTTCTCT
GTAATATTTCTTGATTTCATCACTTGGTGTAACCTTTTTATAGTAATCTTCTTCTAC
CTCTGCAATTTCATTAATATAAGGAACATTACCATTATTGAATGAATTATTGAGAT
AAAAATAAAACAAGCCACGCAAAGAATATGCCTGTGCCTCAATCTGAGCAAGCT
TGGTTATTTGAGGTTCATCTGTAACATTTGGACGGATTTTCTCTATACTGGCCAG
AACCTGATTCGCACGGAACACACCAGTATACAGTGCAGACCATTTACCACGGAC
TGTTCCGTATGAATCATTAAAGGTTTGCTTATAGGCTTCGTTATCAAACTGCTTTC
TGTCCTTATTACCTTCAACTGCTATATCACTTCTACGGTTCTCATCGAGCGGATG
ATAAATATTGGTATTTTTCAAAGCATTATATACAGCAGCCAGTCCTTTCTCGCAGT
CGCCTATTGTTTTATAAAAATTCTGTGTTGTCAGCTGATGTATGTTTTCCTGCGTA
AGGAAATCGTCGCATGAAACCAATGTCATGCCCGACATCAACAGACTGAATACT
ATTGTTTTATATCTGAAGTTCATATATTTATATTATTAAAAGTTAGAAATTAATCTG
GAATCCGCCACGCATCTGGATACTTATAGGATATGTTCCATAGTCCAAACCACG
ACGTGACAATCCATTACTACCGACCTCAGGGTCGTATCCGTCGTATTTTGTCAGT
GTAAGAAGATTATCGGCTGCAACGTATAAACGGAACTTGCCCAATCCAAGCTTT
GATACCCAACTCTTGGGGAATGAATATCCTAACATAATATTTTTAAGTCTGACAA
ATGAACCGTCCTCAATCCACATATCAGTATGAGCACGATAGTTGTTATGCCCCTC
TGTACGATAAGAAGGAATGGTAGAGGTATAGTTGGTAGGGGTCCACATGTATAT
CAGTTCCTTATTGGTTCTTCTTTGATATGTATATATCTTCGTACCGTTTATTATTTC
ATTTCCAACTGAAGCATACCAGTTCATAGAGAAATCGAAGCCTCTATAGTCGGC
CGAGAAGTTCAAACCAAGTTCATAATCCGGCATACCACTACCGGCATAAACACG
GTCGTCATCATTAAGAACACCATCATTATTGGTATCGATATACATAAGGTCACCC
ATACGGGCACTTGACTGTAATTTCTGATATTCTGCAAGCTTCTGTTCAGTATTGA
TTACCCCTGCGGTTGGCATAACAAAGAAAGCACCGGCTTCATATCCTTTCTTGAT
TGCAGTTACATAATCACTTCCTGATGAAACAGGTTTACCGTCGGGGAAGAAATAT
AACTCATTTTTTCCTGCCATAGACACAATCTCATTCACGTTTTTGGTAAATGTACC
AGTCAAGCTGTAATTAACACCACGTATTTTGTTGCGGTGAGTAAGTGAAAACTCA
ACACCACGGTTTTCCATATCTCCGGCATTCAATGTAACAGTTGAACTCTGGCCC
CCTCCATTTGACGGTGGCACGACCATCGGGAAAAGCATATTCTTCTTGTTACTCT
TGTACAAATCAAGACCTAAGATAAGCTTGTTATTATATAAAGCCATGTCGATACC
GGCATTAAGCTGCTGGGTTGTTTCCCATTTCACATTCGGATTGGCAAATCCCAAT
TGGGTAAAACCATTTGCAAGAATTTCGGAAGTTCCGGTACCAAAAGTATAGTCGT
AGTTTTTGTATATAGCTGGTGCGTATGAATAATCAGGGAAGTTCTGATTACCGGT
AGTACCATAGCTGAATCTTAATTTTAACGAATTTACTAGCCACCTGAATCTGTCG
AAGAATGATTCCTCAGAAATATTCCATCCTACAGACAATGACGGGAACAATCCCC
AACGATTTTCTTCGGAGAACTTAGATGAACCGTCGCGCCTGATACTGGCACTTG
CCATGTATTTGTCTGCATAGCTATATTGTAGACGACCCAACATACCAACCATTGT
ACTGATACGGTCCTGTCCCCACTGGCCACTGCCTGTACCCACAGTCATATCGGA
TGTTCCCGCATTTAGGTTCGGAATCTCGTTAGTAACCAAATCCATTATACTGGCA
TAGAACATCTCGTATGTATATTTCTCCATACTGAAAACTCCGGTAAATTTAATATC
ATGCTTTTTTATCTTCTTATTATAATTTACCATTGTTTCCCAAGTGAGACTGGTATT
CTTTGAATGAGTATCTTTTAATTGCGAACGGTAATTAGAGCTGGTTACCTTTTCG
CCTTTCTGATTATATACCTCAAACTCAGGTCGAATTGAGACAGCTTTCTGATTGT
TATATCCAAAGCCCAAACGTGTGGAAACATTCAGTCCGGGAATTACATTATAAGC
AAGATAAAAATTACCGTTAAATGATTCTGTGTCCTTATGATTTTCCTCTTTCAATC
TTCCCAATGTATAACTTACGCCCTGTAAATCTGCAGGATCGCCAGCTGCATTTAC
TATACTTGCCTGTGGATAAATCTGAGAACGAGTAGGCGAGTAGTCATAACATTC
GTTCAATAACCCCCAAGCCGGAGATAACTGGTTTTCTATCTTCATAGCGATGTTA
GTGTTGATAGTCCATTTTCCGCGCTGAAAATGTGTATTCGAACGAATATTATATC
TTTTGTAATCGGAATTTATCAACACACCTTTCTGGTCGAAATAGTTCGCGGTAAG
GTTATATGTCAAATCTTTCTTGCCGCCATTCGCAGTAACAGAATAATTCTGTATTG
GTGCGTTATTATTGACTACATATTCATATAAACTAGAGTTGTTGAAGAAATTCACA
GGATATGTTTTCAGATTAGACCAGGCCAGGTCGTCTGTATTCTGGTTTCCTTCCA
TCATTCTGTTAGACATCACTTTTACAAATATACTCTCGTTGGCATCAAGCAAATGA
ATATTCGAAGTAATGTGCTGTACACCATAATATCCGTCGACAGCTATCTTCATTT
CTCCTTCCTTACCCTTCTTTGTGGTAATAAGGATAACACCGGAAGCACCGCGAG
TACCATAAATGGCAGCCGAAGCAGCATCCTTAAGAATATCTATACTTGCTATTTC
GCTACTACTCAATCCCGGGTCGCCCTCGAACGGGACACCATCGACAACATATAA
AGGAGAACTGTCGCCTGAGATAGAACTTAAACCACGAATCTGGATGTTGGATTT
GGCTCCAGGCTCACCAGAACTTGCCTGAACGTTAACTCCGGCAACCATACCCTG
AAGAGCTGTACCCAAGTCGGAAGTACTGATCTTAGTAATCTCATCTGAGTTTACA
CGTGCCACTGCACCTGTCACCTCTTTTTTACGCATTGAGCCATAACCTACAACAA
CCACTTCATCCAACACTTTTGTGTCTTCCTGAAGCTTGATATTATAAATCTGACCA
TTCTTGATTGCAGCTTTTACAGTTTTATACCCAACAAAACTGAACACTAAGTTACC
TTTAGTCGGTACCCCTTGAAGAACGAAATTACCATCCATATCAGTAATAGTTCCA
AGAGAAGTACCTTCAACTTGAACAGCTGCGCCTATAACTTCAAGGTTATTGGCA
GCATCAATCACCTTTCCTTTAACTGTTATCTTCTGTGAATACATAGACAATGTATA
GAAGATAAGCATCACGAACAACATGTACCTGCCATGGTACCATTTTTTCTGATTT
CTCATTTGTAAAAATTTTAATTTAGCAATAGGTTATGAAATTCCTTTTATAACTGAC
GCTAAATTATTTATTTATAATGGTACAAAAGGGGAGAATTATATATTTAAAAAGGG
GGTAAAATTTTACCCCCACTTATATTAAGAATCCAAATCGGTCTGTATACTCTGTT
CTTTGTACTGTTGCGGCAATACACCGAATTCTTTCTTGAAACATTCTCTGAAATA
CTTCAAATCATTGAACCCTACATCGTATGTCACCTCTGATACAGAATACCGTCCT
GTCTTCAACAGTTCTGCCGCTCTCTTCATTCTTATTGAACGTACAAAAGCATTGG
CTGTTACTCCCATAAGTGCTTTCAGCTTCTTGTTCAGAACCAAGGCCGTCACGC
CAAGACCTTTACATATATCCTCTATCTGGAACGAAGAGTCTGTAATGTTGTCCTC
TATTATCTTTACAAGTTTCTCAAGGAACTTATCGTCGGTAGATGTAGTGCTTACCT
CGGAAATCTTTATTGCCGGAACTTTCTTGTGTTGAAGAATCCGCTTCCTGTTGGT
TATAATGGAATTAAGCAGCTCTTTCATTATCTTGTTGTCGAAAGGTTTAGGGCAA
TAAGCATCTGCATGGAATTTATATCCGATGAAATAATCCTGCAATGTAGTCTTGG
CTGAAAGCAATACTACAGGAATATGAGATGTCCTTACATCCTGCTTGATTCTCTC
ACACAGTTCCAGACCATTCATGCCCGGCATCATTATATCGGATAAAACAAGATCC
GGTTGCAAATCTGGAATCATGTTCCATGCCATCTCCCCATCATGGGCTATCATTA
TCTTATACTTATCCGACAACAGTAATGACAACATATTACATATATCCTTATTGTCA
TCAACAATCAATATAGCCGGAGATTCTCCGTCCACTTCTATGTCTATCATCTCTT
CATGCTCGCACGATTCACTTCTTAACACATCAGCAAACTTTTCATCCTCCCCACT
GTTGGCAGAGATATTCTCCGTAACCATGTCCCCCTCAGTTATCATAGGAATTACA
ACATGGAAAACAGTGCCTTTACCTTCCTCTGATACAAACGTAATATTTCCATTAT
GTATCTCTACAAGCCGCTTGGTCAGAAACAGACCTATACCGGTACCTCCTTCAG
CAGAGTTTTTATTCTGACTGTAGAAACGCTCGAAGAGGTGTGTTTTCAGGTTGTC
GGATATTCCGTTTCCCGAGTCTGCCACAGAGATGTTTATTTTGTTATCCTGTTCA
TTGACAGTAAACGATACAAATCCTCCGGCAGGAGTATGCTTAATGGCATTCGAT
ACGAGATTATAGATTATCTGTTCCATAAGATGAGGGTCGAACAGAAAGCTTATAT
CACTGCGTGAGACAGAATATTCCAGCCCTACACCTTTCTGTTTTGCCCAATACGT
GAACTGCTGAAATACTTCTTTTGAGAAAGACGAGAAGTTGCCATATTTGAGATTC
AGACTAAGCATTCCTTTCTCGCTCTTTGAGAAGTTCATCAGCTGGTTGACAAGAC
TTAACAGGAACTTACTGTTATGCTCCATTGTCTGCAGCATGCCGGCAAGATACTT
GTCGGACGAATACTTGCCCGATTCAATAATCATACTAAGTGGAGAATGAATAAGT
GTGAGTGGTGTCCTCAATTCATGCGATATGTTGGTAAAAAATGTAGTCTCCTTTT
CAAGAAGTTCTTCAGTCTTGCGTTTTTCCATGTTTGCTATATATAGAGCATTTCTG
CGCTGCACCCGTGAGGTATAATACACCTTGAACCGGTATAAAGACAAGACAAGC
AATATAAAATAGAGTGTATAGGCATACCATGTACGCCAGAAAGGAGGGTTAATAA
TGACAGGTATGGAAAGTTCATTCAAACTGTAGACTCCATCGCTATTCCTGACCCT
CAGTCTGAACATATATTCGCCTGAAGGAAGCTTTGTGTAGAAAGCCTCACGATG
AAAAGCGGAGGTGGAAATCCATGAATCATCTACGCCTTCGAGCATATATTCGTA
ACCAACCTTATAAGGACTTCTGTAATCCAGGGAGCTGAACTGGAATGAGAAAGT
GTTTAAATTATAAGGCAATTCAATGTGCTCTGTAAAACTTACACTTTTGTCGAAAT
AAGCTGAATATGTGGAATCTGCCTCAACGCTGTGATTGAAGATTTTAAAATCAAC
GAGTGTAGGACTACCGTTGAAATCTATCACATCAAAGTCATTAGGTCTAAAGACG
TTAATTCCGTTTACGCCACCGAATATCATTGTTCCATCCGTCATTACTCCAGCAG
AAAGTTCCATAAATTCATAATCCTGAAGACCATCGAAAATATCATAAGATCTTATT
CTCTGTGTGTTGATATTCAACGAATTAATTCCTTTATTGGTAGAAATCCATAATGT
TCCATCCGTGCCATTAACAATTGATTTTATTGTATTGCTGCTCAACCCGTCTGCA
GAGCTAAAATTTTCAACGCAGGCATTATGGTTTTCATCCAAATCCACGATTTTCC
TTAACCCACGTCCAAGTGTTCCATACCAGATATTATGATTCAAGTCTTCACATAC
AGGCACTATATAGTCGAGTTCATCAAGTCCCTTGACTGAGTTCAAAACAGGATTA
TCTATATACAAATCTGCAGATTCCAATACTTTAAGACCGAAGCTGGAAGCTACCC
ATATATTACCCTTATGATCTTTAATGATGTTTCTTACTATCTTAAGTTCTTTATTGT
CAGATGTTTTGATTTCCTTCATCACACCTGTGGACAAATCATATCTGAAAAGACC
TTTATTATATGTGCCAATCCACAAATATTTTCCATCGGCAAGCATTGCGCGCACA
TTTCTCAAACCTGAGATCTTTTTATAATCATTATCAGAAGTGAAACTGTAAATACC
ATCGTACATCAGAGACACATACATGCAGTCGGTGTAGTTTGAGTATGCTGTTGA
GTATACTATCCTGTTTGCCGTGAAAGGAATAAGTCTGGCATTACCGGTAATGGA
ATTAAAATGATATAGCCCTGAGCCTTCTGTGCCTAAATATATATCAGATTTGGCA
AATGTATAAACGGACGATATATGATCATTTCCTATTCCTCTGAATAAATCTATAGG
TTTATTATTTTCGCGTATACTCATAAAGCCACTCTTGAAAAATCCTATCCAAAGAA
TATCGTTTTTATCAAGAACTACAGTTTGCGGATAGCTGTAAGAATATGTAGCAAT
AACCTGTGGTTTTGACTCGATGGCATGCAATACATCAAAAGTCAACACATTCACA
GTGCTTGTAGTGGCATAAAATAATCTTTTGTTTTTATATACCATTTTTCGTATATCA
CAGTTTTCCAACAGGGTACTTACCTTGCAGGTATGCTTGTCGTATAAACATAATT
GATGATTTTCCAGATTTGAGTACAATATTTGAGAAGATGAGATGACTATGGCTGA
AGCTATAGGGCATCCCAATAGTTTGTTAAGCAGTAATTCATCTCCATCGACGTTA
CATTCGTACAGGCCGTCTTCGGAGGAGAGCATTATCGTATTATCTATTTCTATGA
TGTCGGAAATGTATGGTAATTTTAATGTTGATCTTAAGACAGTATTTATTTTGCCA
TTTTGAAAATCATAATTTACAAGGTATATACTTTCATCAGAGGAATGAAACCAGAC
TCTGTCTTTAGAGTCGACAAGAATCTTATCGCAAGTGAAATTTTTATCAATACCG
CTGTGACCAAGATTTAATGAAACGAATTCGTTCTTTACAGAATTGAACAGGAACA
CTCCTCTATCGGCTGTACCTATCCACAGATTTCCATGTGAATCTTCGTCAATACA
TACTATCAGATTACTGTTAAGACCGTTTGACTGATATCCGTAAACCTTAAATTCAT
ATCCGTCAAACCTGTTCAGTCCGTCGTTCGTGGCCAACCATATAAAGCCTTTTGA
GTCTTGATAAATACATTGCACATCATTTTGGGAAAGTCCATCAAGAGTAGTGTAC
TTTCTTGTGACAAACTCATTGGATGCAAAGGATTTGCAAACTATAATCAGAACTG
ATATTAAACTTAAGATTAATCTAAACATATAACTATTATTCTTTATATTTCATCAAG
ATTACAAAGTTATTGATTTTATCTAAAACATCAAGTATTTACAGTAGTTAATAGATA
ATTATAGATATTTTCCACTTTAGAATGCGTATCAAAATCAATCAAGAAAAAAATAA
ATCTTTAACTTCATTTCATAGTATAAAACAAAAAAAGCATCGTACCATTACACTCA
ATAATAGATACGATGCCCGAAAGAAATTACAGTAACAGACTGTATTGGGATTGTT
CTTAAAAAGACTTATCTGTATGACTTTATATATATGTCGAGTATTTCGGTATCCGA
CAGTTCATGAGGGTCCAGACTGAACAATGCACCCATGGCAGTTCGCGCATTATC
AATCATCTTAGGGAAATCTTCCTTTACTATTCCCCAGTCGCTAAGCTTCAAATCG
CGGACATTGCATTCCTTCTGCATTCTCACCAAAGCATCTATAAAATGTTCGGGAT
TAAGGTTCTTGCATCCGGTCATAACATCTGCCATGCGCATATATCTCTTTGTCCT
GTCATAAATAAAAGTAGAGAAATAGGCCTCGCTTATAGCTATCAGGCCAACACC
ATGAGGAAGAGCGGGATAGTATGCGCTGAGAGCGTGCTCGAGAGAATGTTCGG
AAGTACAACTGGATGTGGATTCAACCATTCCCGCCAGCGTACTTGCCCAAGCCA
CCTTTGCCCTCGCTTTCAGGTTATTTCCATCCTTCACCGCAACAGGTAAATATTT
ATACAGCAGTCTGATGGCCTCAAGAGCGAAAATATCACTTATTGGGGTTGCACA
ATTGGCAATATAGCCTTCGGCTGCATGAAAGAATGCGTCGAATCCCTGATAGGC
AGTCAGATGTGGCGGAACTGAAACCATCAGTTCCGGGTCGATTATCGACAGACA
TGGGAAAGTTAAAGTGGAGCCGATACCTATCTTTTCGTTTGTTTCCAGATTGGTT
ATGACAGTCCATGGGTCAGCCTCGGTTCCGGTTCCGGCTGTTGTAGGAATGGC
TATGATGGGCAATGCTTTGCTGTAAGGAAGCCCCTTGCCGGTACCTCCTTCAAC
ATATTCCCAATAATCGCCATCATTACATGCCATGATTGCAATGGATTTGGCCGTA
TCTATCGAACTTCCGCCTCCCAAACCTATAATCATATCGCAATTTTCCTCACGAC
AGATTGCCGTACCTTCCATTACATGGTCTTTTATTGGGTTAGGCAATATCTTGTC
GTACACCACGGCATCAACATTATTTTCTTTCAGCAGACCAATCACCTTATCCAGA
TAACCATATTTACGCATTGATGTTCCGGATGAAATGACTATCAAAGCCTTTTTGC
CGGGCAATGTCTCTGTTGAAAGACGTTTAAGTTCGCCACATCCGAAGAGAATCT
TCGTCGGAATATTATAACCAAAAACAAAATTATTGTCCATAAATATTATCAGTCAG
TCAACTTACTATCTTAAAGCCTCATCAATCACTTTCTTGAGTTCAGGATAAGCCTC
ATCTGTATCGCCCACCTGTTTTCTCAACTCACGCAGTTTCTTTTTCATGTCCTTAA
GAACTTTGGCGTATTTAGGATTATCAGCCAGGTTTACCATTTCGTAAGGGTCGTT
CTTCACATCGTAGAGTTCGAAAGAAACCGGAGTAGGAACAATCTTGTGGCTGTT
CTTCAACCATGACATTGATTTCTGTCCGTAACGTTTGTCGTCGTAATGACGGCCA
TAGAAAAGTATCAGCTTATAGTTTTCCGTGCGGATACCTATGTGTGCCGGAACG
TCGTGATGAATCATGTGCATCCAGTATCTGTAGTAAACAGCATCCTTCCAGTTTT
CTGGCTTTTTGCCTTCGAACACAGAGGCAAAGCTCTTTCCATCCATGTATGAAG
GTTCTTTGCCACCGACCATCTCTATAAGAGTTGGAGCAAAATCAATGTTGTTAAT
CATCAGGTCCGACTTGGCTCCCTTGTAAGGACATCTCGGGTCGCGGACTATGAA
AGGCATTCTTTGAGATTCTTCATACATCCATCTCTTATCCTGCAGATCGTGTTCG
CCAAGCATCATACCCTGGTCGCCTGTATATACGATAATGGTATTTTCCCAGAGTC
CTTCCTTCTTGAGATAGTCGAAAAGACGTTTCAGGTTGTCATCCACACCCTTTAC
GCAACGCAGATACGATTTCAGGTAATGCTGGTAGGCAAGGTATGTATTCTCCAT
TTCATCACCTGTATTGCACTTATATTCCATTACATAATTGCGGATTTCATGACGGC
TTGAGACAGAAGTTCCGATGAAGTGACGAAGTGAATCGTTCTTGCCTCTTGTGC
CTTCGGAGCCCCATTTGTCTGTATCGAACAATGACAATGGAACAGGCACTTCCA
CATCGTCAAGATAATATTCATAGCGCGGTGCGTACTCGAACATATCGTGCGGTG
CCTTGTAATGATGCATCATGAAGAAAGGTTTGGACTTGTCGCGTCTGTTCTTCAA
CCAGTCAATAGCAAGGTTGGTCACGATATCCGAGGAGTAACCCATTTTCTTTATC
TGGTTATTAGGCCATTTCTTGTCAGTTACGTCACTTGTAAGGAAAATAGGGTCGA
AGTATTCGCCCTGTCCGCCATGACCGTTGAATACAGAATAATAGTCGAAGTGCG
ACGGTTCGCATCCCAAATGCCATTTACCGATCATGGCAGTCTGATATCCCATATT
ATGGAACTCATCAACCAGATATTCCTGGTCCGGCTGAAGCACTTCATCCAAAGT
GAGCACCTTGTTACGATGGGAATACTGTCCGGTCATGATACATGCACGGCTTGG
GGTACTGATGGAGTTTGTACAGAAACAGTTCTCGAAGAGCATACCGTCCCTTGC
CAGTTCATCAATTGTAGGAGTAGGGTTCAGTACTGCAAGACGACTTCCGTATGC
GCCGATAGCCTGCGAAGTATGGTCGTCCGACATGATGTAGATGACATTCATCTG
TTTCTGCTGTGCTGCGACACCAACACATACAGACAGGAATGGCATAACAGCCAT
TCCCTTCATTATATTATTTTTTAAATTCGTTTTCATAAGTCAGATTATCATTGAAAT
AGAACTTGCAAGACATATCATCGAATGATTTTACGTCCTTATTCTGCATTTTAACC
CATTGTTCTGATTTAGCCTTGACAGCGACCTGAGTTGAAACCTCATTACCGTCGA
CTACACTTTTAAGAGTGACATTTGCATCCTCTGCATTATGGTTTGCCACACGTAC
AGTGATAAGGCATCCGTTATCAACCTTATCGTATAGCGGTTTGGAAACCACCGC
CCCTTTAAGCTTAATCTTGAACACATGTGCATATTCAGTAGGTTTGTTCTTAGGG
AAGTTTACTACAAGACCCTCGTCAGTCATCTTATAGTCAATCTTCTCTGAGCTTC
CAAGCATTTCAACCGACTCAATTTCCACGTTCTGGCAATACTTAGGAGCAAATGA
CTTGATAGTAACACTACCATCTGTCCAAGCCAGAGACACGGCATAGAGGTTATT
GTCGCGTGTAGTAAAGCGAATGTCGTCCGCTGTATATTCAGTTTTTGTATTGTCT
GTCATATAACCTGCGGTGCCTGCGTTATGTCCTTCGAAAGCAATCACCCATGGT
CGTGAGCCATAAATAGCCTCACCGTTAGTCTTCAACCATTTACCTATCTCGGCAA
GTACGTTCTTCTGTTCGTCTGTAATAGTACCGTCGGCCTTAGGACCTATATTCAG
CAATAAGTTACCGTTCTTGCTGACAATATCAACAAAGTCGTCGATGATATGGTCA
GGACTCTTGTTTTCCTCGCCCACACAATAGCTCCACGATTTCTTGCCTACAGAAG
TATCAGTCTGCCATGGATATTCACGGATTCTGTCGCTCTTACCTCTTTCTATATC
GAACACCTGGATATTGTCGCCATATCCGAATTTAGTGTTAACCACAACTTCTTTA
TTCCAATCAAGAGCCGAATTGTAATAATAAGCCATGAATTTATAGAAAGTAGGCT
GGAACGGATATTTTCCCACAGTCCAGTCGAACCATATCAATTCAGGCTGATATTT
GTCGATAAGCTCGTATGTATGCATAAGGAACTGACGGCGTGAACGTTCGTTCGA
GCCTTCATACTTACCACAATAAGGTGTCATACCCTGACCTTCGGGCTCATGCAG
TCTTTCGCCATACAGAGTGATTGTAGTGTCCTGAACATCAGAAGGAGTTTCCATT
CCATATTCATAGAACCATGCATTCTCGCATCTGTGAGAAGAAAGTCCGAAACGC
AGACCGGCTTTCTTGGTAGCTTCCTTCAATTCGCCGATTATATCCCTTTTCGGTC
CCATATCCACAGCATTCCACTTATTGAAAGTACTGCTGTACATGGCAAATCCGTC
GTGATGCTCGGCCACCGGAACAATGTATTGTGCTCCAGATGATTTTACCACTGC
CAGCCACTCGTCGGCATTGAAATTTTCGGCTTTGAACATAGGGATGAAATCCTTA
TATCCGAATTTGGTCAAAGGACCGTAAGTCTGTACGTGATACTTATTAATAGGAT
GACCTTCCTTGTACATCCAGCGGGAATACCATTCACTGCCGTATGCAGGAACGG
AATAAACTCCCCAGTGGATAAAGATACCGAACTTGGCATCCTTAAACCATTCAGG
AATAGTGTAATTTTGAGCAATCGATGCCGAATCGGCCTTGAACACATCAGTACCT
TTTAAAGATACAGTAGAATCTACATTAGGAGCGTATGTAGAATTGCACGACGCCA
ACAGGCTTAATGCCGCAACTCCTAAAACCGTTTTCATGGATTTCTTATTCATAATA
ATCTTATTACATTAAATAATGACATTAATTTTTTCTGTAAGCAAAGATACACTTGA
GTTCCATTTACAATAAATAATTTAATTACTATAGTAAGGGGTAAAATATTTACCAC
CTATTATTGAACAAATTTACCCCCTCTCATATATGATAATAAACTGCCAATATCGA
ATTACAAGTAAATATATATTTCAACAAAAAAGGTTTAGCCTATTATTACACAACAA
TTTCACCCTAAGAATAAAATATATATAGAGTAAATTTGCCAATATAACAAACTGTA
AAAACAAATTTATGAAAAACTATTTGATTTACTTACTCGCAGCAGTATCGTGTACA
ACTGTAGCAGACCTAAATGCTCAAGTCAGTACAAAAACAGGTAATGAAACCACA
GAACTTACAATTCCGAAAAAGTTCTACAAGGACAGCATTGATTTCAGCAATGCTC
CGAAAAGACTTAACAACAAGTACCCTCTTTCCGACCAGAAGAACGAAGGCGGAT
GGGTTCTAAACAAAAAGGCCTCTGACGAGTTCAAAGGAAAGAAGCTGAATGAGG
AAAGATGGTTCCCGAACAACCCTAAATGGAAAGGAAGACAACCTACTTTCTTTG
CAAAGGAGAATACTACATTTGAAGACGGCTGTTGCGTGATGAGAACTTACAAGC
CAGCAGGATCACTGCCCGAAGGATATACTCACACTGCCGGTTTCCTGGTAAGCA
AAGAACTTTTCCTTTACGGATATTTCGAAGCAAGACTGAGACCAAACGACTCGC
CATGGGTTTTCGGTTTCTGGATGTCGAACAATGAAAGAAACTGGTGGACTGAAA
TAGACATTTGCGAGAACTGCCCCGGCAATCCTGCCAACAGACATGACCTGAACT
CGAACGTGCATGTATTTAAAGCTCCAGCAGATAAGGGTGATATAAAGAAACATAT
CAACTTCCCTGCCAAATACTATATACCATTCGAATTGCAGAAAGACTTTCACGTA
TGGGGACTTGACTGGAGCAAGGAATATATCCGACTATATATAGACGGAGTACTG
TACAGAGAAATAGAGAACAAGTACTGGCACCAGCCATTACGCATCAATCTTAAC
AACGAATCGAACAAATGGTTCGGAGCCTTGCCGGACGACAACAATATGGATTCT
GAATATCTGATAGATTATGTAAGGGTGTGGTACAAGAAATAAGAAATAACATAAT
CTGAAATTATAAAAGGCAGTCTTCATTATCAGTATGCTGATGATAAAGTCTGCCT
TTTTAACAAGAAGATAAAGATTTTAATCTGCCCTATCACTCATTTACTTCATCCGG
ATACTCTGTAAGCGAGTTTCCCGAATTGCTTATTTCAATAGAGCCGATAGGAAGA
TAATTGAACTTCTTGCTCCATGCAGAGATACCATAATCTCTTCTAAGAATAGGCA
TCATGACCTCCTCGGCACGTCCTGAGCGGACGAGGTCAAACCATCTGTCACCC
TCGCATGCCAGTTCACAACGACGCTCATACCATAGAACATCAATTACGCTTTTAA
ATCTGTCAGGATACATCTGCATTAGCTTGTCAACATCAATATAACTTCCGTCGTC
TGCATGAACATGCTTCTTTCTGAGTTCATTTATGTAATACTTCGCTTTTGCTTCAT
CAGGATTAGTACCTCTGAGATATGCTTCGGCAAGCATCAGATACACTTCACCATA
TCTGATGACCCTTACGTTTCCAGGCTTGTTTAGATTGGGGTTTCCTATCATATCG
TAATTTTTGAAAGGAGGATATTTCTTCTGGGCATATCCCTGGAAATCAGGCCCGT
AAGAGCCTGTCTCCCAAACAACTTTTTTTGATTCATCCTGAATATTGGCATTAGG
TTTGGTTACAAGTTCATCGTAAGTAAATATCGCCGCATCACGACGCACATGGTCA
TCCGGAAGGAAATAATCATACAATTCCTTAGTAGGCAGACAAAAGCCATATCCAT
TATCATAATCAGGACTATTTTTCAACTGTCTCGGTCCGCAGAAAGTCACCCACAT
AGCACCTTCGCCTGCATCAATATTACCCCAGTTTGTATTACCAGATTTGGTAGAG
GTCTGTATTTCAAATATAGATTCCTCGTTATTCTCCTGATGAGCCGCAAACAATTT
AGAATAATCATCCGTCAGAGTATAATTACCACTTGAAATTACATCCTCCAATAAA
GGTTTCGCTTTGTCAAAAATCTTAGCATCATCGTTGCTCCAGTCAGCCCAATAAA
GATAGACCTTGGCCAACAGGGCTTGAGCCGCAGTCTTGGTAATACGTCCTTTCA
TTGTGTCCGGGAAATTATCCTTTAGAGAAGGGATAGCTTCAAGAAGATCTTTCTC
TATTGCTTTATTTACATTTTCGCGAGTATCTCTCGTAAACTTGAATCCTTCAGGAT
AAAGAGTCTCAAGACTGATAAAGCATGGACCATAATATCTCAACAATTCAAAATG
ATACCAAGCACGTAAGAACTTAGCTTCAGCTTTATAAACTTTAGCTTCCGGACTG
TCATACTCTGAATTTATTACAAGATTACATCTATATATACCACGGTAACGAGTTTT
CCACAAATTATCGGAAATAGAATTGACACTCGTATTTGAATAATCCTCTATAGCC
TGCATGTAAGGCTGATCCTGATCAGAGCCACCACCAGTACGAGCATTATCCGAA
CGGATTTCACCCATAGGTACAATGGAAGCAAGTGCATTACCCGAAGCACCACCT
ATGTGAGCTAACGGATCATAACAAGCAGTAAGCGCTTTGAACATCTGTTCATCG
GTCCTATAAAAAGAACTTTCTGTTTCGGACATTATAGGAGCTGTATCCAGGAAAC
TGTCGCTGCAAGATGATGATGCAATAGCAGCAAACATGAGGACAAGAATATTAT
TATGTATTTTCGACTTCATAATTTTCAATTTTAGAAATTAAGACTTAAACCAAATCT
GAATGTACGGGCCTGAGGGTAAGTACCATAGTCAATACCTGTGCTAAGAATATT
GCCACCTGCCATATTTCCTACTTCAGGATCCATAAACGGATAGCTGGTGAAAGT
GGCAAGATTATCAATTGCTGCATAAATTCTTGCTTTATTCAGCATCAACTTGTTTA
TTAATTTAGTTGGGAATGAATAGCCTACCTCAAGTGAAGAAATCTTTAAATGCGA
ACCATCATAAAGATAAAAATCGGATGGTTTGCCAAAGTTTCCATTAGGATCTTTG
GATGAAAGACGAGGCACTCCATTATCATCACCTTCTTTCCGCCATCTGTCAAGAT
AGAATGATGGAAGGTTGCTGCGTCCGTATGCTTCCTGTCGGTAAATATCAGAGA
AGACTTTATATCCAGCTTTTCCTGTTAAGAAGATTGTCATATCAATACCTCTCCAG
TCGGCACCTAAATTCAAACCGAATGTCCATTTTGGCCAAGGATTGCCACAATCG
GTTCTATCTTCATCTGTAATCTGCCCATCGTTATTTGTATCTTGCCATATAAAGTC
ACCCGGAACGGCATCAGGTTGTATCACTTTACCGTCTTTTGATTTATAGTTCTGT
ATCTGCTCTTCATTTTGGAATATTCCTAAGTTCTTATAAAGGCGGAAATAACCCAT
AGCATGACCTTCCTCCATACGCGTTACATTAACAGATGTTCTCCAGCTACCACCA
TCAGTATATCCATTTACATTTCCTATCTTTACAACCTCATTTTTAAGATATGAGGC
ATTTGCGGAAATAGAGAAGTTGATTTCGTTCCAATTTTTATTAAATGTCATCTGCA
TTTCCACACCCTGGTTTGTTATATTACCAAGGTTTCTAAAAGCTGCATTATTACCT
CTAATGGCTTCAACTGTTGGCTGGAACAACAAATCCTTAGTACTTTTTTTAAACC
AGTCGAAACTTGCTCTAATCATACCATTATAGAATGTCATATCGGCACCAACATT
AAATTGTTCAGAAGTTTCCCATTTCACGTCTGGATTAACAAGGTTATTAGGAGCA
GATCCCACAGTGATGGCATTACCAAACGTGTAATTATAATTATTGCCAATAATAG
AAGTATAGGAGAATGGAGAAATTCGCTCATTTCCGTTCTGTCCCCAAGAGAATCT
AAGTTTGAAGACATCAAAGTTCTTAATTTTCCAGAATTTCTCATTTGAAACATTCC
AACCTAATGAAACGCCCGGGAAAGTAGCATATCTGTTATTGGGACCGAAATTTG
AAGACCCATCGCGTCTGACCACAACTTCCGCCATATATTTTTCAGCATAATTATA
GCTTAGACGAGCAAAATATGAGAACATACTATGTCTAGGATTAGCACCGCCACT
ATTAGCTGATGTCATAACATCACCAGCATTAAGATACCAGTAATTCTCATTGGTC
ATTGCTTCATTTGGATATTTATTTCGTGTTCCGGCCATAAACTCATAAACATCTCT
TGATGCAGAAGTACCTAACAGGACAGATGTAGAATGTTCACCAAAAGATTTTTTA
TATCGCAATGTATTCTCCCACTGCCAACTACTATTAGCATTTGTACTTTGTTCTAC
CCTAGAATTATCTTCTTTACATTCTGCAGAATGAAAAAACTTTGGTGCAAACATTC
TTCCACGGAAATTCCGATGATTAATACCAAAATCTGTGCGGAAAACAAGGTCTTT
AATAAAAGTGATCTCAGCATAAACATTACCAAAAAATTGCTGGGTAATATTTTTAT
TCTTAGGTGCCTCATCCATAAATGCAATAGGGTTCCACATACGGCTATAAGGTAC
AGGAGAGACTCCATATCCGAAAGTATCGTTGCTATTCTCATCATAAACCGGAGTA
GTAGGATCAATATTATAGGCGTATGATATCGGATTATAACCATTGATACCGGTTG
CCACTCCACTATTCTCTATATATGCATAGTTGACGTTTGCACCTACACTTAAGAA
ATCATTTATAGAATAGGAACTGTTCAGCCTTGTGCTGAATCGTTTGTAAAATGAC
GCATCTTCACCGATAATACCATTCTGGTCTAGATAATTCAATGAAAGCAAGCTTG
AACCCTTATCACTGCCAAAGTTAGCAGTAATGTTATGCTCAGTAACAGGAGCTGT
ATTCAATATTTCATTAAACCAGTCTGTATTATAACCTGTTGGAGCAGTAGGTACA
CCACCGGCAAGCGGCATATCATCATTGTCGGCAAACTCTTTCATCAGCATAATG
TACTGTTCATCATTCAGCATGGTTGGTTTCTTTGCTACTGTAGAGAAACCATAGT
AACCATCATAAGCAAGCGATGTCTTTCCTTTCTTTCCTTTCTTTGTGGTTATAAGG
ACTACACCATTAGCGGCTCTGGCACCATAAATAGCAGCTGAAGTTGCATCCTTC
AAGACTTCCATGCTTTCAATGTCGTTGGGATTTACACTGTTCATGTCGTCCATAG
GCAGTCCGTCAATTACAAAAAGAGGATTAGAGTTTCCATTTGTACCAACACCACG
AATTACCAGCTTCGGTGCTGTTCCTGGCTGACCGGAATTTGTCACAACGTTCAC
ACCACTAACCCTACCGCTCAATGCATTCACGGCATTTGCTGGTTTAGATTGCAAT
AAATCATCGGAATCGATGCTACTGATAGCACCTGTTACAACACTTTTTTTCTTAAC
CTCATATCCTATTGCTACAACTTCCTCGAGTGCAATGGCAGATGTTTTTAATTGA
ACGTCTATCTTAGACTGACCTTTATACACTATATTCTGTGTATCATATCCTACGAA
GCTATAAATCAATGTCGATTCCATTGGTACATTTTCCAAGATATAATTTCCGTCCA
AATCAGAAATAATACCGTTTGTGGTACCTTTAACTAAAATACTTGCACCTATCACA
GGTAAACCATCGGAGTCTGTTATACAACCGGTAACTTTCCCGTTCTGTGCATTTA
ATGGTAAACTGAACGTTATAAGAATCAGCATACACATTAATGATAGTGTTCTGTT
CATAATCTAGAGTTTTTTGTAATTAGTGTTTTTCTTAAAATAAAAAGTTTTGTTCTA
TCAGTTGCGCGCTACTTACTGACACTTGCAAATATATATACTATGTAATATAACCA
AAGGGGGAAAATTTCATTTAAATAGGGGGGGGAAATAGATTAACTAAATATTTTA
AGGAAAAATGGCTGTTAGAATCCATTCCCAGACTCCAACAGCCATTTTATCACTA
ACAATCGCCTGTTAATCAATATATTTTTCTGCCCATTTCCTTAAGATTTGCATCCC
TGCCCAGTGGAACAAAAGTAAATCCGTATGAATAGCTTCCCTTCAGAAGACGCT
TGTCTATTGAAGGACGGGCTTTCAGACTCCAGCTATCTGTTCCGCCCACTCCAG
CCTGAACCAGGTCGATATTAAGAGTATTAGAATACAAGTCCTTTTCAAGTTCATT
TATATGTTTAGCCTTATCAATCGCATTCTGCGACATCTCCCACACTGAAACAGAT
AGGGGTTCATCGCCGACAATCATCACACCTGCCTTATCCGACTGCAAGGCAAAC
CATCTCACGTCACAACGGTTTCCGTTTTCCTGCGGCATTACATAGTCAAATCCCA
GAGCGGACACCTTGCAGTTATATATAGACACCATTGCAGAGGCTTTTCTGTCGG
AATAGTTTTCCCATGGGCCACGTCCATAATATGTCACATCCGACAAACGATTGGT
ACATTCGCATTGCAATCCTACGCGCAACATTTCTGATATTTCAGGAGACTTCATC
ATTGAATAATGAACGCCTATTGTTCCGTCTGCTTTTACTTTATAATTCAAGGTAAG
TCTCAGTCTTTCATCTATAGCCTTTAGCACCTTAACCTCAAGATTGCCTTCCGATT
TGCGTACATCTATAGAAACTGTCTTTAGCTTTAATGGAGCATCTTTCCAGAATGC
AAACAGTCTATCGACCTTCCATCCTCGCCAGTCATTGTCTGTTGACGCTCTCCA
GAAGTTTGGTTTCAGAGCAGATGTGATGATACTTTCATTATCTATCTTATACTGAC
TGATATAACCATCACTGATATTCAGATAAAAGTTCTTTCCCTTCACGCTGATGTCT
TTCTTGTTATCTGAATCGATTTCCATATCCAATGTAGTATCAACGCATTCTACTAT
CTTTGGTAAAGAAAGATACTTAAACTGTTCCCAGGCAACCTCGTATCCAGCTTTG
GCATACAGATTGTCATTCTTGAGCCTGGCACTCAGGAATAACCAATATTCCGCA
CCGTCATCGGCCTTGAAATTCTGAATAGGAAGTTTTAGTTTACAGCTCTCACCAG
CTGGTGTTGTCGGCACAATAATCTCACCTTCCTGCAATACACTGTCTTCGTCCTT
CAATTGCCAAAAATAACGATACTCATCTGTTGAAAGGAAGAAGTTTCTGTTTTTTA
CAGTTATCTCTCCACTATAGACATTATCAGTTGTAAATGATACAGGAGCAAACAC
GTACTTGCATTCCTCAGTAGCAGGTTTAATGGAGCGGTCGGCACTGATAACACC
ATTTATACAGAAGTTTTGGTCGTTGTGCTCCCCTTTCTCATAGTCACCACCATAA
TTCCATGATTTCTTATTATATTTCCGTTCATTATCCAGCAATCCCTGGTCTATCCA
GTCCCAAATATATCCGCCGGCAAGCGCATCATGAGAACGTATTGCATCCCAGTA
TTCTTTCAGCCCGCCGGTAGAGTTTCCCATAGAATGTGCATATTCACACATTATT
ATCGGACGGTTCATGACCGGATTCTTAGTCATTGCTATAAGCTCATCGACCATA
GGATACATACGGCTAATGACATCGACGTATAAAGGATCATCGGGATTGGCATAC
ACACAAAGCTCTTTCTTTGCCGGTTTGACATCTTCGTTCACATTAAAATCTATCTC
ACTAGTAACGATTGACGCTTCCTTACGTCCGATAGGTTTGTATAAAGGATTTTCC
GGCTGTCCTTGCGCCCCCTCGTAATGAACAGGACGGGTTGGGTCATAATCTTTC
AGCCATCCTGACAGAGCTGCATGATTAGGGCCGCATCCAGACTCGTTGCCCAA
CGACCACATAAACACAGAAGGATGGTTCCTGTCTCTCACAGCCATTCTTACCAC
TCTCTCCATGAACGAGTTAGCCCACTCAGGCCTATTGGACAGATACCCCCTTTG
ATGATGAGTTTCAAGATTAGCCTCATCCATTACGTATATACCATACTTATCGCAC
AGTTCATAGAAATAAGGGTCGTTAGGATAGTGCGATGTACGGACTGTATTGAAG
TTATAACGCTTCATAAGCAGAACGTCTTCGAGCATCTCATCACGTGTAACGGTCT
TACCTCCGGTCTCGCTATGGTCATGGCGGTTTACACCAATGAGTTTAATAGGAG
TGTCATTCACCAGAATCTGATTACCTGTTATTTTAATATCCCTGAACCCTACCTTA
TTACTTCTCGCATCCACCACGTTGCCCTTTTTGTCTGTGAGCTTTATAACCAAAG
TGTATAGATAAGGGTGTTCCGAATTCCATAGTTTTGGCTTAGAAACAATTCCCTC
CATCATTCCGTAATAAACATTATCACGCTGAGGATAAGGTTCGTTCACCACATAA
TCGGCAGTAACGGTAATGTCTTTTCCAAACACCGGTTTCCCATCGGCATCATATA
ATTGGGCTGACAGATTCCATCCCTTCAAATCATCCATATTCTGATTTGTTATTTCC
GGACGGATCTGTAACCGTGCTATATTCTTCCGGAAATCGATGCGTGTCCTTACT
CCATAATCATATATTGCCACCTGCGGAATGGACATGATATATACTTCACGATGGA
TACCAGCCATTCGCCAGTGGTCGGCATCTTCCATATAACTTCCGTCGGTCCACT
TATACACTTGCACCGCCAGTTTATTCTCCCCCTTCTTAACGTATTCGGTAATATC
AAATTCAGTAGGCAGACAACTGTCTTCGGAATATCCCACCTTCTGTCCGTTTATC
CATACATTAAATCCCGAATAGACGCCTCCGAAATGGAGTATAATCCTGTCGCTCT
TCCACTTGTCAGGAACAACAAACTCCTTGATATAACACCCCGTCTGATTATTCCT
GTCAATATATGGCGGACGAGCAGGGAAAGGATAAATAGTATTTGTATATATAGG
ATAGCCATATCCCTGCATCTCCCAACATGAAGGAACAGGAATAGTTTTCCATGAT
GATGAATTGTACTCCACTTTATAAAAACCGGCGGGAGCCAATGCCATATCCTCG
GAAAAGTTAAACTTCCATTGGCCGTTCAACGACATATACTCCGATTTCTCTCTGT
CTCCATCCAAAGCCCAATCCACTCTCCGGAAAGAATAAGTAGTACTGCGGGAAG
GCAAACGGTTAATTCCGTTTATGGTCTGATCCTGCCATACATTCTGATTGTTTCT
CCACTGATTGGCACCGTTGTCCGATGCAGACAGAAATTGCATCATGAAAAATAA
CACAGAAAATGAAAAAATAGATTTTAAGTTCAAGTTCATAAATTCGCATTTTAAGT
TTCTATGCAAATATATAAGTATAACGAACAATGAATAGGGGGTATTTCTATCTATA
TAGAGTGGTATTTTTACATATGAGCTAAAACTTAAAAAAAACTGTCAGTATTACTA
TGCTATGTAGCACTCTATATGAAAATATTATATATTCCCAAGTCAAAAGCCTTTTC
AAACAATTTTTATATATTCTCATCCTATCCCTTCCATCAAAGATAAATTCCAATCCT
GATTTGCCAGCCGCATTTATTCCTTTTTTCAGGAGAATTTTCTTTATGGCTATCGC
CATGAAAATTCACCTGAAAAAGAATGCGGCGGCAAACGGATTAGAATTAAAGAA
AAGATTACAGGGATTAACTGCGACCGACGTGACGCATAGCCGTAATTCAAAGGC
GGCTATCCTTATATTCCATATATGACCTCACAAATACTGTGAAAATCCACTTTCCC
CAATAACAAAACATAGCCTGCCATATCAACACCCAAAATAAGACAGGGATTTCAA
CTCCCTCCGATCTGCATAGTCTGGTGGCTTCGCTATGCTTTTACTCCTACATCCA
TTTTTTTTCTTTCTTTTTTCCTCTGTTCCCGTTCTTTCCTATCCTTCGTGTGACATT
TGATGACACCTGATGACATCTAATGTCATCTATTTGTAAATCAATTGTTTACTCAA
TTTATCATCTTACATTTGGACTGTGAAACAAATCAAGTAGTCACTCAAAACAAAAG
ATTATGGCACAAGAAAACAGTCCTGACAAGGAAAAAAGGCAAGGCCGGACAAA
GAAACCCGAAAAGCCTTATGTGGAACAAATTGACGAGCTTCTGCTGGTACATAA
CAAGAATGACCCAAAGGAAGGTTTGGGAGTAATCAGCAAGATGGACGAGAAAG
GCAATTATCAGACGGTTACACCGGAAGAGAAGAATGAGAACTCATTCCTGAAAT
TCGACAAGAATTCGAGTATTCTCGAAAACTTCATCAAGAATTTCTGGAGCCAGCT
GAAGGAGCCTACGCATTTCAGGCTTATCCGTATGACCTTCAATGATTACAAACA
GAACAAACAGGCTCTCAAGGACCTGGCCGAAGGCAAGAAGACAGACGCGGTAA
AGGAGTTTCTGAAACGCTATGAAATCAGACCGAAAGTAAACAATCAGAAAAACA
GTCAAACAAAAGAGGAGGAAACAACAATGGCAAAGAAGCAGGAACAGACAACG
CAGGCTCAGCCTGAACAGGTATCACAGGTGGAAGCTGCCGCACAGGGGCGCG
AACAGCAGGAACCGCAACGCCAGCAGACACCCACGTACCGCTACAACGAGAAC
ATGATTAATTGGGAGGAACTGGGTAAGTTCGGTATATCCAAAGAAATGCTGGAG
CAGTCCGGACAGCTTGACAGCATGTTGAAAGGATACAAGACCAACAGAACCATG
CCGCTGACACTCAACATTCCTGGGGTACTGACCGCAAAACTTGATGCACGCCTT
TCGTTCATATCCAACGGCGGGCAGGTCATGCTGGGCATCCACGGTATCAGAAA
GGAACCTGAACTGGACCGTCCTTATTTCGGACATATCTTCACGGAAGAGGACAA
GAAAAACCTGCGTGAAAGTGGAAACATGGGACGCGTGGCTGACCTTAACCTGC
GTGGCAACACGACAGAGCCGTGTCTGATTTCCATCGACAAGAATACCAACGAAC
TGGTAGCCGTACGGCAGGAGCATGTCTATATCCCGAATGAAATCAAAGGGATAA
CCTTGACTCCGGACGAAATCCAGAAACTGAAAAACGGAGAACAGATATTCGTAG
AGGGAATGAAGTCCAATCAAGGTAAAGAGTTTAATGCCAATCTGCAATATAGTG
CGGAAAGAAGAGGCATCGAATTTATCTTCCCGAAAGACCAGGCTTTCAACCAGC
AGACGCTTGGCGGTGTACCGCTTTCCCCCATGCAGCTCAAAGCGTTGAACGAA
GGACACACCATCCTTGTAGAGGATATGAAACGAAAGAACGGCGAACTGTTTTCT
TCCTTTGTTACCATGGACAAGGTTACAGGCGGGCTCCAATATACGCGCCACAAT
CCGGAAACGGGAGAAATCTACATACCAAAGGAAATCTGTTCGGTACAGCTCACA
CCGGAGGACAAGGAAGCGTTACGCAAAGGGCAGCCCATCTATCTTGAGAACAT
GATCAACCGTAAAGGTGAGGAATTCTCGTCATTCGTCAAGCTGGACCTGGCAAG
CGGAAGACCACAGTATTCCAGAACTCCGGACGGTTTCAACGAACGACAGGCAC
CAGCCATCCCGGCTGAGGTTTACGGACACCTGCTTTCGGCACAGGAAAGAGCT
AATCTTCAGGACGGAAAGGCTATCCTCGTAACGGGTATGAAAGGTCCCAACGG
CAAACCGTTCGATTCCTATCTGAAAGTAAACGCAAACACCGGACAGCTGCAATA
TTTCCAGGAAAATCCGGATGTGCGCCGCAATACTTCACAGCGTGCTTCACAGAC
TGACAATACCCAGCAGCAGGAACAGAAGAAGGGAGCAAAACAGGCTGTCTGAC
CTGAACGGGATTCAAATCATTCAAATCATCAATTACTAAAAAAGGAAAGAACATG
AACAAGACCAATCATCATATCTACAAGACTGAACAAATCGACTGGGAGAAACTG
GAATCGGTAGGTATCAGCAGATCGCAAATTGAAAAGGACGGAAACATGGACCTG
CTCCTTCAGGGAGAGGAAACCAATGTCATGTCCATTAAAATCAAGACTCCTGTAT
TTTCACTGACCATGGACGCCACACTCAGTCTGATTGAAGACGAGAATGGAAATC
CGGTCATCAGCGTAAACGGTATCAACCCTTCAGGTGAATAAATAAGAAACCATA
ATGTATCATCTCTCTTTCCATACGGACTTACCGTATGGAAAGAGATAAAAACAGA
ATTTATCATGATTGCCATATTAACAGACAAACCAAGTGTAGGAAAAGAAATCGGA
AGAATCATCGGTGCAACCAAAGTAAGAAACGGATATGTGGAAGGAAACGGCTAC
ATGGTTACATGGACTTTCGGGAACATGCTGTCACTGGCCATGCCGAAGGACTAC
GGAACCCAGAAGCTGGAACGGAATGACTTTCCTTTCATCCCGTCCGAATTCGAA
CTGATGGTACGGCATACACGCACCGAGAACGGATGGATACCGGACATTGATGC
CGTGCTCCAGCTTAAAGTAATCGAGAGAGTGTTTCAGGCATGCGATACCATCAT
TGCGGCTACCGATGCCAGCCGTGACGGGGAAATGACATTCCGCTATGTCTATC
AATACCTGAACTGTACACTGCCTTGCTTCCGTCTGTGGATTTCCTCTCTTACCGA
CGAGTCTGTGCGTAAAGGCATGGAAAACCTGAAGCCGGACAGTTGCTACGACA
GCCTGTTCCTTGCTGCCGACAGCCGCAACAAGGCGGACTGGATTCTCGGAATC
AACGCCAGCTATGCCATGTGCAAGGCGACGGGCCTTGGCAACAATTCTCTCGG
ACGGGTACAGACACCGGTACTGGCTACCATCAGCAGACGCTACCGTGAAAGGG
AGAACCATATTTCATCGGACAGCTGGCCCATCTACATCAGCCTGCAAAAGGACG
GCATCCTTTTCAAGATGCGCCGCACACAGGATCTTCCCGACAAAGAATCCGCTA
CAATGTTTTTCCAGGACTGCAAGCTGGCACATCAGGCACAGATTACAGGTATCA
GCCACAGCGTTAAGGAAATACTTCCACCGGACCTGCTTGACCTGACACAACTTC
AGAAGGAAGCGAACATCCGCTATGGTTTTACCGCATCAGAGGTGTATGACATCG
CCCAGTCTCTTTATGAAAAGAAACTGATTTCCTATCCGCGGACTTCCAGCCGTTA
TCTGACGGAGGATGTGTTTGACTCGCTTCCACCAATCATGGCGCGTCTGCTTTC
ATGGGAGCTGTTCCCTGCAGCTAAAGGAACTGGAGGTATTGACATATCCAATTT
GTCCCGCCACGTAATAAGCGCAGAAAAAGCCAATGTACATCATGCCATCATCAT
TACAGGTATCCGTCCCGGAAATCTGTCCGAAAAGGAAATACAGGTTTACAGACT
TGTAGCCGGAAGGATGCTTGAAACATTCATGGCTCCATGCCGCATAGAAACGAC
AAATGTTGAAGCGGTTTGTGCGGCACAGCATTTCAAGGCCGAACAAACAAGAAT
CATTGAAGCCGGCTGGCATGATGTGTTTATGCGTTCCGACATGGTTCCAAAATC
AGGATATTCTGTCAATGAACTCCCCGAAGTGGAGAAAAGTGATACTCTGAATGT
ATGCGGATGCAACATGGTACACAAGAAACAGCTGCCGGTAAATCCGTTCACGGA
TGCAGAACTGGTGGAATACATGGAACAGAACGGACTGGGTACAGTATCCTCAC
GTACCAATATCATCCGTACACTGGTTAACCGTAAGTATATCCGTTATTCAGGGAA
ATATATCGTTCCGACCCCGAAAGGCATGTTCACCTACGAAACCATCCGTGGAAA
GAAAATTGCGGATACTTCACTCACCGCAGACTGGGAAAAACAGCTGGCCGGAC
TTGAAAGCGGAATGATAACCGGACAGGACTTCCTGAACAGGATCAGGACTCTCG
CCAAGGAAATGACTGATGACATTTTCAACACCTATTCCACAAAAGAAGAATAACA
TCTATACCTAATCAACCAAGAGAATGCAGGCCGGAAGGTCTGCATTTTTTTGTAT
CCGTACAGAAAAGAATCTGTTTTTCCGCTTTTAAGCGGCAAAGGTCTTGGATTGC
CTGCCTTTTGCCGCAAGGCTGCCCTCATGGGCTTGGCTGGACAGGAAAAAATC
ATCCTCGCTGCGCTCCGGTATTTTTTCCTGCCAGGCCTTGCGCAAAAAGGCAAT
CCAAGAGGCCGGAGGCCTATAAAATCGGGAAAACACATCCCGATGGGATTATTC
ATTCATAAAATTAAGGATTATGAAACTACAGATTATCAGAAAGATCGGCAGACAT
GCAACAGCGATATTCCTGATTACCGGAATATGTCTGCTGACAAGTAAAGGGATT
GTCCCTACTGGGATGATTACGCTGCTGTTGCTTGCAGGAGGGTTCATCGGTTTT
CTGTTCAGGATACTGGTCATTATTTTCAAGATTCTTATTCTTCTGTTCATTGTAGG
ATTATTTGTCGCATAACCCAAAATATAAATATACATATATGGAAACAGTTGCTATA
ACCTCACAAGCTCCTGTCATGCCGGCTGTATGGCCACAGAACGAACATATCAGA
CCGGTTAAAAGACGTCTGCCCAATACAGTTGATGAACCTAAAAATATCGGCTACT
ATCTGGAATCGCTACGTGATATTTCCAGCAATCCGGACAGAGAGAATATTCTGA
AAGAATTCTTCAAGGAAACTTATGTATAACCATAAAATTTTTCAATTATGTTTTTTC
AATCAATTTATCAGATGATTACAGCAGGTACGGATCTGAATATCAATATCCGTAA
AGTGGACAACAGCCTGAGCGTAGCAGTCATGCCAAGGCGGAACAGCCTGAAAG
AGGATACGCGACAGAACATGGTGCCACTGATCGTGAACGGAACACCGGCAGAA
CTGGATATGGGCTTCCTGCAGACCATACTCCAACCGATACAGAAGGTACAGGGA
CTGCTTGTCAATGCGGAAAATTTCGAGAAACAGGCAGAAAAGGCTACATCACAG
GCCAAATCATCCAAGGCTCCAACAATACCGGCCGAATCAAAGGAAGCCAGGGA
AAAACGGGAAAAGATGGAAAAGCTCCTCAAGAAGGCTGATGAAGCAACCGCCG
CAAAAAGGTACTCCGAAGCAATGACATGGCTGAAACAGGCACGGGTACTGGCT
CCTACAGAAAAACAGAAGGATATTGACGAAAAGATGCAGGAAGTACAGAAACAG
GCTAGTGCAGGAAGCCTGTTCGGTATGGCAGAGGAACCGGCGCCGGTAATTCC
CCAACCACAAGGCTATATGAACGGTCAGTCACAACCAGGTATGCAAACAAGCAT
ATTCCCGGAGCAACAGACCCATACTATGAATCCTGAACCTGTCATGCAGCCTGC
TCCACAGCAGGTATCACAACAAATTCCACAAGGAATACCTCAACCGGCATATGG
AACGAACGGGACATATAACCCACCTGCTCCAAACAGCCCGATAGTAAAAGGAGC
AGACATACCGCAAGGCGCAACAATGCATCCTTACCCACAGCAGCCATACTACCA
GCAAGAGGCGACTCCTTATCCAACACAACAGCCACAGCAACCGACAAACGGAC
ATATACCGAATGGGGCTGCGCAAGTACAGAATGGAAACGGACGGGAATACCAG
ACTGCATCGGCTACACATGAGACATTCTGCTTCGATCCGGAAGACGAGAATGAC
AGGGAACTTCTAAGAGAGGACCCGTATGCGGAATATCCGGATTTTCCGGCTGA
GTACCGAATGAAGGACGAGGCACAGGTAGAAATGGTATACTGCTGATATACACA
ATAAACGATTTGTAAAACCAATAAACTATAAACAATATGGCACTGGAAATTAAAG
GAATGAAAAGAGTATTCAAGATGAAGAAGAACAATCAGGAAATCGTACTGGATG
ATCCGAACGTAAACATGTCTCCGGCTGAAGTGATGGACTTCTATTCCATGAATTA
TCCGGAACTGACAACCGCGACCGTACACGGACCGGAAATCGAAGACGACCGG
GCGGTATATGAATTCAAGACCACTATCGGAGTAAAAGGGTAAGAGCATGAAAAA
AGGACAACGTAAAGACAAGAAACCATGTACACAACTTACGGAACGGGCTTTGGA
AAATTTAGCCAGACTTATCATATCGGAACTCGAAAATACGGACATAAGCCGGGG
CATCAGGAACAGAAAGAAAAGAAGACTCCCTCCCGCAGAAAGCCTCATGGTTTT
CTGAACACGAGAATACCTTCCATCGCTCCCGATCTGTATGTTGAGAATGACAGG
GATGTAACGGTAAATGTCACCACCAAAGAGAATCTTGATTTCCTGTACCGTTCAG
CCATGAAGTATGCGCAGCTCCTGGATGTGGAGCTGCCATACCATCCTACAGGC
AGGACTTCCACAAGAGAGAAAATATGCCTGCTATATAATGCACTGGATTCCATAG
TATCTCATCATGTAAATCTGGAACTTATTGGTGACAGGCTCCAGTTCTGCATCTA
CCATTTCCATGAATGGCCGGATTATACGCTTTTCTTTATGCCGATAGACTTTACG
GAAAGGCTGCACGGTGAAATTAAAAAGATTACACTGGAGTTCATCAGAAAGTTC
ATCAAATATCACAGGATGATGGATATAACCGATACCCCTTATTTTGAGATGTCGG
AAGTCTGTATCGATTATGTGGACTTTGAACAGCTCGATGAGGAAGAGAAAAAGG
ATTTGTACAGAAAGGAAAAGCTTTTCAGGTCATATGAGAAAGGGAGAATCCACA
GGAAGCTGTGCCGGATGCACTCCAGGGCTTTCTGTAGGAATCTGGAAGAACAT
ATCCGCAACTGTACTCCTTCCAGCGATAAGGAAAGAAGACTTTTGGAACTGATTA
CCGAAGGGCTGTCCCTGATTGCAAAGGACAGCCCTTATATCTTGAATTATGATTA
TGATTTTGCAAGCGAAAAGGAACGGGATTTCGAGCCGCCACCGCTCGAATATCA
GATTCTGCTTACATATTCCATCACGGATACGGTTACCAAAGACATGGAAAGCTGT
TTCAGTACTGACTGTCAGGAAACATATAACCAGACTCCCGTATCATTTACCTTCA
TCACGCCGGAAACAGAGGAACTTTTCAAGCCGGACAACTATCCGGAACGGTTTG
AGAAATGGTTTGAGAAATTTGTAGAACATGTTACCTATAATTTATAAACATCATGA
ATGAACTGACCAAAAATATGCAAAAAATGATGGTACCGAAGGCTGCAATCATAG
CCTACAAGTATGAAGACAGAAGAAATCTTGATACCAGGTACTTTATAGAATTACG
TCCAATCAGAAAAAGCGGACAGATGGGGGCAGGTATCCCCGTCACATACGAATT
CATGAATACCCTGCTGGAATCCTATACGGAAGAAATGAGCGGGATACCGGCAG
GCAGAGTCCCTGAAAACATGCTGGCCTGCAATCCGAGAAAAGGACAGGAAGAA
TATATCTGGTACAATCCGCCCGGAAAAAGACAGATGTTCTTTCACAAGGATCTCA
ATATACAGGACGGCATGTTCAATCTGCCGGGAATTATCTACCAAGTAAAAAACG
GAAACATGGACGTGTTCGCTTTCAAGGGGAAACGTCCGGTGGAGACGACTCCG
CTGTTCCGTGCCCCGTTCTTCAACGTGACCGGATCAAGTGTCTGCCTTGGCAAC
AGTTCTCTGGAAAAGCCACAGAACCCGACTTTCCTTTCCCTGCTGGAATACTGG
GAAAAACGGTTCTGGCTGACTGAATTCTCCCATCTGGGAGGAAATGTCAATCCT
ACCGTTTCAAATCTTGTCATCGTCACCGAAAATATAAGAAACAATCCGTTCGACA
TGAACGAACTCAAGCCCATGAATAAAAAACTTAAAGACATACTTCCATGAAAAAG
ATACATTTTACCGACCGCTACCTGCTCAATCCACGTCATCCGGTAACGGTATTC
GTCATCGGAGCTGGAGGTACCGGCTCACAAGTGATAACCAATCTGGCACGCAT
GAGCATGGCACTTCAGGCATTAGGTCATCCGGGACTGCATGTCACCGTATTCGA
TCCCGATACGGTTAGCCAGGCCAATATAGGACGCCAGCTTTTCAGTGAGACGG
AACTGGGACTGAACAAGGCCGTATCACTTGTCACACGCATCAACCGTTTCTTCG
GATACGCATGGACTGCCGAACCGAAATGTTTCCCAACGAAGAAATTTTCAGGAT
ATGATACAGCCAACATATTTATCACCTGCACTGACAATATACGTTCACGTCTTGA
GATTTGGAAATTTCTAAAGAAAACTCGTAAAGAGAACTTCAATGACTATTTGGTT
CCTATATATTGGATGGATTTTGGGAACAGCCAGACAAAGGGACAGGTCATCATC
GGGACGGTACGTGAGAAAGTTCTCCAACCTTCTTCACAAGAATATATTCCCATG
CCTAAAATGAATGTCATCACCGAGGAAGTGGACTATGCGAAAATCAAGGAAAAA
GAATCAGGACCAAGCTGTTCTCTGGCGGAAGCCCTGGAAAAACAGGATTTGTTC
ATTAACTCCACACTGGCACATATCGGATGTGACATATTATGGAGAATGTTCAAGG
AAGGAAAGACACTGTATCGCGGTGCCTATGTCAATCTGGATACATTGAAAATGA
CCGCAATCCCGGTGTAATGACAGAAGTGACCGTATCATCTTTCCATCAGAATAC
GGTCACTTATTCTATTTGCTACTTATTATTTACTACGTTCTTACCACGCTGGAGCA
GGAAACTCTGTATCTCTGAGGCGAGATAGAATGATTTCCCGTTCTTTTCCACCGA
GTAATATTTAATCTTGCCCTCTTGCCTGTAACGTGCCAAAGTTCTTTGTGACACA
CCAAGGAGTTCTGCCAGATCCACATTATCAAGCAGTCTGTCTCCATTCATACATT
CTTTCAGACGATTCATCTGGTCCAGTTTCTTTTCAATGCGGGCAAATCCCTCTAC
CATTGTTCCTATAAGTCTTTCGAGTATCTCATTATCTATATATGACATAATTCCAA
TGTTATTAAGTGAATAAATCGATACTCTCTTCGTGCGCACTCTAAGAGTATGTAC
TTATAGTAGTGAAAATAGTATGCCTGAATCTAAGACAAAGATCAACAAGCTTATT
AGGCGCTGATAATCAGGCGTATAATTTTTTCTACTTAATATTTAGTGTAAACCAAA
AGTGTAAACTATGTAATACAGAATTGGGAACGGGTTAACACAGCCACCAACAAT
GACATCTGATGCTACCTGACGACACCTAATGACAACATTTTGTATCATATACATA
TTCAAAATACATTTGTACAAACTCAACTTTTTTGGATATGGAAATCATTGGAATTG
AAACAGCTACATATGAAAAGACATTAAAGGAAATTGAAAACTTCCTTGATACCAT
TGATAAATTGATTACAGCTTCTTCACAGAAAACAATAGGGGAATGGTTGGATAAC
CAAGAAGTTTGCCTGATCCTCAAAATTTCTCCAAGAACATTACAGAATCTTAGAG
ATACAGACCAAATCTCTTATTCTCAAATTGGGAAAAAGATTTATTATAAAAAAGAA
GATATTCAGAAGTTCATTGAAAAACACAACAGAAAATTATGAGCAAGGTAATTAC
CCAAGATAATGAGCAAGTTATTCAGATATACAATAGGTTAAAAGATACGCTAACA
AGACTCGAAGATATTCTGAAGAATAACAACCCAACACTTAATGGGCATAGATATA
TGAATGATGCAGAATTGGCTAATTACCTTAAAGTATCAAGACGCACTTTACAAGA
ATATAGAAATAATGGAATCTTATCTTATTATCAGATTGGAGGTAAAATTCTATATC
GGGAATCTGATATAGAAGAACTTCTTGAGAAAAACAGACAGGAAGCATTCCGTT
AAACATTTCTTGGAATTTTCGTTGATTTTCAAAGCAAAAATCAGTATCTTTGCAAT
ACTGACAAAGAGTTGTATATCAGTGCAGAACAAAGAAGTTCAATCGAGGTGAAA
TAGGTGGACTAAATGACAAACAACAAGATAAGTAATTGATTATTAGCGATAAAAA
ATATAAGGTTCCGCCCCCAGGCGGATCACTGAAAACAAAAGAGAAAT
[0229] SEQ ID NO: 73 (plasmídeo pWD035 com PUL porfirano): aacaaatactttcaggacgatgtaaagtcctgagaaatcaaactgaatggatagataaatattagtcttttct catcggattcttttaatatcgctactcttttattatgtagtggttgtattatcttaaataaaacaaaaacacccgactttacattct tgggtgtaaaacagggtgtttgttttgcaatctgctgattttcagcgttttttgcggagagacaggctctcgaacttatactttc acagaatatcataaaactgcaaacgactgataatcaagtgtaaattacaatatagagtaaaagtaaatgtttctaaatg tcttttgctatctcaataattgggtgtatatttgggtgtagaatttcaaacgcacccaattatgaatatcaagcgcaacatca tttttgcattggagagccggaaaaagaacggtgtgccaatcgtagagaacgtacccatccgtatgcgtgtcatctttgcc agccaacgtatcgagtttacaacgggctaccggattgacgtagccaaatgggatgcagataagcagcgggtaaag aacggatgtaccaacaagctaaagcaaagtgcagccgaaatcaatacggacttgctgaaatactatgccgaaatcc agaatattttcaaggaatttgaggtgcaggaggtcatgccaacgacccaacagttgaaggaagctttcaacatgaga atgaaagataccagtgaagaacagccggaagaagcccctgtcagcttttgggaggtgttcgatgagtttgtaaaaga gtgcggtaaccagaataactggacggcatccacctatgaaaaatttgcagcagtgaggaaccacctcaaagagttc aaggaggatgcaacgttcaactatttcaacgagtttggattgaacgaatacgtcaacttcctgcgtgacaccaaggata tgagaaacagcaccatcggcaagcaaatgggattcctcaaatggttcctgcgctggagcttcaagaaaggacatcat cagaacattgcatacgatacgttcaaaccgaaactgaaaaccacctcgaaaaaagtaatcttcctgacttgggatga actgaacaagctgaaagactaccagatacccaaggataagcaatacctggaacgtgtgcgtgatgttttcctgttctgc tgctttacgagtttgcggtattcggatgttcgcaatctgaaaagaagcgatgtgaagtccgaccacatcgaaataacca cagtcaagactgccgacagcctgacgattgaactgaacaaatacagcaaagccatactggacaaatacaaggac atccatttcgagaattacatggctctgcccgtcatcagcaaccagaagatgaacgattacctgaaagagctgggcga actggcagaaatcaacgagcctgtacgggaaacctactacaagggaaatgaacgtattgatgaagtcacacccaa atacgctttgctcagtacccatgcaggaaaaaggacattcatctgcaatgcgctggctctcggaatcccggcacaggt ggtcatgaaatggacgggacacagcgactacaaagctatgaaaccctacattgacatagcggatgatattaaggca aatgccatgaacaagtttaatcaactataaaagtatcaaacagtttcatagatagttaccaatgactgataggtgggctg cccttcctggttggcttggtttcatcagccatccgcttgccctcatctgttacgccggcggtagccggccagcctcgcaga gcaggattcccgttgagcaccgccaggtgcgaataagggacagtgaagaaggaacacccgctcgcgggtgggcc tacttcacctatcctgcccggctgacgccgttggatacaccaaggaaagtctacacgaaccctttggcaaaatcctgta tatcgtgcgaaaaaggatggatataccgaaaaaatcgctataatgaccccgaagcagggttatgcagcggaaaac ggaattgatccggccacgatgcgtccggcgtagaggatctgaagatcagcgggattaaaagtcggggattggtgaa caaaaaggtgtttctctctttaagagaaatatcgttttgctaaacagttgatattgaggtatcattttatcgtaaaagacatttt tgctcaacaattgcttgacggaaatcaacaaattttagcattttgtaaaaaagtcgctatataatttggtgaattggagttat tttcatatttttgcatcccgaagagtttctcttaaagagagaaacatcttttgcataccttttccgaccgaatttttatgtcgtaa agaggggctttgcagggggtggactcagaaagatgagaatagatgactattgtagttgaaacacatagaaagttgct gatatacagaccgatacgcatatcgggatgaaccatgagtacgttcttttctcaaaaaacataaatattcgaaaagag atgcaataaattaaggagaggttataatgaacaaagtaaatataaaagatagtcaaaattttattacttcaaaatatcac atagaaaaaataatgaattgcataagtttagatgaaaaagataacatctttgaaataggtgcagggaaaggtcatttta ctgctggattggtaaagagatgtaattttgtaacggcgatagaaattgattctaaattatgtgaggtaactcgtaataagct cttaaattatcctaactatcaaatagtaaatgatgatatactgaaatttacatttcctagccacaatccatataaaatatttg gcagcataccttacaacataagcacaaatataattcgaaaaattgtttttgaaagttcagccacaataagttatttaatag tggaatatggttttgctaaaatgttattagatacaaacagatcactagcattgctgttaatggcagaggtagatatttctata ttagcaaaaattcctaggtattatttccatccaaaacctaaagtggatagcacattaattgtattaaaaagaaagccagc aaaaatggcatttaaagagagaaaaaaatatgaaacttttgtaatgaaatgggttaacaaagagtacgaaaaactgt ttacaaaaaatcaatttaataaagctttaaaacatgcgagaatatatgatataaacaatattagtttcgaacaatttgtatc gctatttaatagttataaaatatttaacggctaaaaacaataggccacatgcaactgtaaatgtttacgcgggtaccgac accgcggtggaggggaattatcacgtgctataaaaataattataatttaaattttttaatataaatatataaattaaaaata gaaagtaaaaaaagaaattaaagaaaaaatagtttttgttttccgaagatgtaaaagactctagggggatcgccaac aaatactaccttttatcttgctcttcctgctctcaggtattaatgccgaattgtttcatcttgtctgtgtagaagaccacacacg aaaatcctgtgattttacattttacttatcgttaatcgaatgtatatctatttaatctgcttttcttgtctaataaatatatatgtaaa gtacgctttttgttgaaattttttaaacctttgtttatttttttttcttcattccgtaactcttctaccttctttatttactttctaaaatccaa atacaaaacataaaaataaataaacacagagtaaattcccaaattattccatcattaaaagatacgaggcgcgtgta agttacaggcaagcgatccgtcagcttgcctcgtccccgccgggtcacccggccagcgacatggaggcccagaata ccctccttgacagtcttgacgtgcgcagctcaggggcatgatgtgactgtcgcccgtacatttagcccatacatccccat gtataatcatttgcatccatacattttgatggccgcacggcgcgaagcaaaaattacggctcctcgctgcagacctgcg agcagggaaacgctcccctcacagacgcgttgaattgtccccacgccgcgcccctgtagagaaatataaaaggtta ggatttgccactgaggttcttctttcatatacttccttttaaaatcttgctaggatacagttctcacatcacatccgaacataa acaaccatgggtaaggaaaagactcacgtttcgaggccgcgattaaattccaacatggatgctgatttatatgggtata aatgggctcgcgataatgtcgggcaatcaggtgcgacaatctatcgattgtatgggaagcccgatgcgccagagttgtt tctgaaacatggcaaaggtagcgttgccaatgatgttacagatgagatggtcagactaaactggctgacggaatttatg cctcttccgaccatcaagcattttatccgtactcctgatgatgcatggttactcaccactgcgatccccggcaaaacagc attccaggtattagaagaatatcctgattcaggtgaaaatattgttgatgcgctggcagtgttcctgcgccggttgcattcg attcctgtttgtaattgtccttttaacagcgatcgcgtatttcgtctagctcaggcgcaatcacgaatgaataacggtttggtt gatgcgagtgattttgatgacgagcgtaatggctggcctgttgaacaagtctggaaagaaatgcataagcttttgccatt ctcaccggattcagtcgtcactcatggtgatttctcacttgataaccttatttttgacgaggggaaattaataggttgtattga tgttggacgagtcggaatcgcagaccgataccaggatcttgccatcctatggaactgcctcggtgagttttctccttcatta cagaaacggctttttcaaaaatatggtattgataatcctgatatgaataaattgcagtttcatttgatgctcgatgagtttttct aatcagtactgacaataaaaagattcttgttttcaagaacttgtcatttgtatagtttttttatattgtagttgttctattttaatcaa atgttagcgtgatttatattttttttcgcctcgacatcatctgcccagatgcgaagttaagtgcgcagaaagtaatatcatgc gtcaatcgtatgtgaatgctggtcgctatactgccagaagagagaaagaaggaaagcggccgcacaggtttcccga ctggaaagcgggcagtgagcgcaacgcaattaatgtgagttagctcactcattaggcaccccaggctttacactttatg cttccggctcgtatgttgtgtggaattgtgagcggacaacaatttcacacaggaaacagctatgaccatgattacgcca agctatttaggtgagactatagaatactcaagcttgcatgcgatacgtatcgttaacgatggatccgacgcacgtgcga attcgccctatagtgagtcgtattacaattcactggccgtcgttttacaacgtcgtgactgggaaaaccctggcgtcaccc aacttaatcgccttgcagcacatccccctttcgccagctggcgtaatagcgaagaggcccgcaccgatcgcccttccc aacagttgcgcagctgaatggcgaatggcgcctgatgcggtattttctccttacggcggccgcttgacataacttcgtat agcatacattatacgaagttatgtttaaacattagcagaaagtcaaaggcctccggtcggaggcttttgactaaaacttc ccttggggttatcattgggtcgagaccgcctgaagaggacttccattgttcattccacggacaaaaacagagaaagga aacgacagaggccaaaaagctcgctttcagcacctgtcgtttcctttcttttcagagggtattttaaataaaaacattaagt tatgacgaagaagaacggaaacgccttaaaccggaaaattttcataaatagcgaaaacccgcgaggtcgccgccc cgtaacctgtcggatcaccggaaaggacccgtaaagtgataatgattatcatctacatatcacaacgtgcgtggaggc catcaaaccacgtcaaataatcaattatgacgcaggtatcgtattaattgatctgcatcaacttaacgtaaaagcaactt cagacaatacaaatcagcgacactgaatacggggcaacctcatgtcgcctgaagagtgagaccgtcccaactttca ccataatgaaataagatcactaccgggcgtattttttgagttatcgagattttcaggagctaaggaagctaaaatggaga aaaaaatcactggatataccaccgttgatatatcccaatggcatcgtaaagaacattttgaggcatttcagtcagttgctc aatgtacctataaccagaccgttcagctggatattacggcctttttaaagaccgtaaagaaaaataagcacaagttttat ccggcctttattcacattcttgcccgcctgatgaatgctcatccggaatttcgtatggcaatgaaagacggtgagctggtg atatgggatagtgttcacccttgttacaccgttttccatgagcaaactgaaacgttttcatcgctctggagtgaataccacg acgatttccggcagtttctacacatatattcgcaagatgtggcgtgttacggtgaaaacctggcctatttccctaaagggtt tattgagaatatgtttttcgtctcagccaatccctgggtgagtttcaccagttttgatttaaacgtggccaatatggacaactt cttcgcccccgttttcaccatgggcaaatattatacgcaaggcgacaaggtgctgatgccgctggcgattcaggttcatc atgccgtttgtgatggcttccatgtcggcagaatgcttaatgaattacaacagtactgcgatgagtggcagggcggggc gtaaaaatgtaatcacctggctcaccttcgggtgggcctttcacacttgcatcggatgcagcccggtgaacgtgccggc acggcctgggtaaccaggtattttgtccacataaccgtgcgcaaaatgttgtggataagcaggacacagcagcaatc cacagcaggcatacaaccgcacaccgaggttactccgttctacaggttacgacgacatgtcaatacttgcccttgaca ggcattgatggaatcgtagtctcacgctgatagtctgatcgacaatacaagtgggaccgtggtcccagaccgataatc agaccgacaacacgagtgggatcgtggtcccagactaataatcagaccgacgatacgagtgggaccgtggtccca gactaataatcagaccgacgatacgagtgggaccgtggttccagactaataatcagaccgacgatacgagtgggac cgtggtcccagactaataatcagaccgacgatacgagtgggaccatggtcccagactaataatcagaccgacgata cgagtgggaccgtggtcccagtctgattatcagaccgacgatacgagtggtaccgtggtcccagactaataatcaga ccgacgatacgagtgggaccgtggtcccagactaataatcagaccgacgatacgagtgggaccgtggtcccagtct gattatcagaccgacgatacaagtggaacagtgggcccagagagaatattcaggccagttatgctttctggcctgtaa caaaggacattaagtaaagacagataaacgtagactaaaacgtggtcgcatcagggtgctggcttttcaagttcctta agaatggcctcaattttctctatacactcagttggaacacgagacctgtccaggttaagcaccattttatcgcccttataca atactgtcgctccaggagcaaactgatgtcgtgagcttaaactagttcttgatgcagatgacgttttaagcacagaagtt aaaagagtgataacttcttcaacttcaaatatcaccccagcttttttctgctcatgaaggttagatgcctgctgcttaagtaa ttcctctttatctgtaaaggctttttgaagtgcatcacctgaccgggcagatagttcaccggggtgagaaaaaagagcga caactgatttaggcaatttggcggtgttgatacagcgggtaataatcttacgtgaaatattttccgcatcagccagcgcag aaatatttccagcaaattcattctgcaatcggcttgcataacgctgaccacgttcataagcacttgttgggcgataatcgtt acccaatctggataatgcagccatctgctcatcatccagctcgccaaccagaacacgataatcactttcggtaagtgc agcagctttacgacggcgactcccatcggcaatttctatgacaccagatactcttcgaccgaacgccggtgtctgttga ccagtcagtagaaaagaagggatgagatcatccagtgcgtcctcagtaagcagctcctggtcacgttcattacctgac catacccgagaggtcttctcaacactatcaccccggagcacttcaagagtaaacttcacatcccgaccacatacagg caaagtaatggcattaccgcgagccattactcctacgcgcgcaattaacgaatccaccatcggggcagctggtgtcg ataacgaagtatcttcaaccggttgagtattgagcgtatgttttggaataacaggcgcacgcttcattatctaatctcccag cgtggtttaatcagacgatcgaaaatttcattgcagacaggttcccaaatagaaagagcatttctccaggcaccagttg aagagcgttgatcaatggcctgttcaaaaacagttctcatccggatctgacctttaccaacttcatccgtttcacgtacaa cattttttagaaccatgcttccccaggcatcccgaatttgctcctccatccacggggactgagagccattactattgctgta tttggtaagcaaaatacgtacatcaggctcgaaccctttaagatcaacgttcttgagcagatcacgaagcatatcgaaa aactgcagtgcggaggtgtagtcaaacaactcagcaggcgtgggaacaatcagcacatcagcagcacatacgac attaatcgtgccgatacccaggttaggcgcgctgtcaataactatgacatcatagtcatgagcaacagtttcaatggcc agtcggagcatcaggtgtggatcggtgggcagtttaccttcatcaaatttgcccattaactcagtttcaatacggtgcaga gccagacaggaaggaataatgtcaagccccggccagcaagtgggctttattgcataagtgacatcgtccttttcccca agatagaaaggcaggagagtgtcttctgcatgaatatgaagatctggtacccatccgtgatacattgaggctgttccct gggggtcgttaccttccacgagcaaaacacgtagccccttcagagccagatcctgagcaagatgaacagaaactga ggttttgtaaacgccacctttatgggcagcaaccccgatcaccggtggaaatacctcttcagcacgtcgcaatcgcgta ccaaacacatcacgcatatgattaatttgttcaattgtataaccaacacgttgctcaacccgtcctcgaatttccatatccg ggtgcggtagtcgccctgctttctcggcatctctgatagcctgagaagaaaccccaactaaatccgctgcttcacctattc tccagcgccgggttattttcctcgcttccgggctgtcatcattaaactgtgcaatggcgatagccttcgtcatttcatgacca gcgtttatgcactggttaagtgtttccatgagtttcattctgaacatcctttaatcattgctttgcgtttttttattaaatcttgcaatt tactgcaaagcaacgacaaaatcgcaaagtcatcaaaaaaccgcaaagttgtttaaaataagagcaacactacaa aaggagataagaagagcacatacctcagtcacttattatcactagcgctcgccgcagccgtgtaatcgagcatagcg agcgaactggcgaggaagcaaagaagaactgttctgtcagatagctcttacgctcagcgcaagaagaaatatccac cgtgggaaaaactccaggtagaggtacacacgcggatagccaattcagagtaataaactgtgataatcaaccctcat caatgatgacgaactaacccccgatatcaagtcacatgacgaagggaaagagaaggaaatcaactgtgacaaact gccctcaaatttggcttccttaaaaattacagttcaaaaagtatgagaaaatccatgcaggctgaaggaaacagcaa aactgtgacaaattgccctcagtaggtcagaacaaatgtgacgaaccaccctcaaatctgtgacagataaccctcag actatcctgtcgtcatggaagtgatatcgcggaaggaaaatacgatatgagtcgtctggcggcctttctttttctcaatgtat gagaggcgcattggagttctgctgttgatctcattaacacagacctgcaggaagcggcggcggaagtcaggcatacg ctggtaactttgaggcagctggtaacgctctatgatccagtcgattttcagagagacgatgcctgagccatccggcttac gatactgacacagggattcgtataaacgcatggcatacggattggtgatttcttttgtttcactaagccgaaactgcgtaa accggttctgtaacccgataaagaagggaatgagatatgggttgatatgtacactgtaaagccctctggatggactgtg cgcacgtttgataaaccaaggaaaagattcatagcctttttcatcgccggcatcctcttcagggcgataaaaaaccactt ccttccccgcgaaactcttcaatgcctgccgtatatccttactggcttccgcagaggtcaatccgaatatttcagcatattta gcaacatggatctcgcagataccgtcatgttcctgtagggtgccatcagattttctgatctggtcaacgaacagatacag catacgtttttgatcccgggagagactatatgccgcctcagtgaggtcgtttgactggacgattcgcgggctatttttacgtt tcttgtgattgataaccgctgtttccgccatgacagatccatgtgaagtgtgacaagtttttagattgtcacactaaataaa aaagagtcaataagcagggataactttgtgaaaaaacagcttcttctgagggcaatttgccacagggttaagggcaat ttgtcacagacaggactgtcatttgagggtgatttgtcacactgaaagggcaatttgtcacaacaccttctctagaacca gcatggataaaggccaacaaggcgctctaaaaaagaagatctaaaaactataaaaaaaaaataattataaaaata tccccgtggataagtggataaccccaagggaagttttttcaggcatcgtgtgtaagcagaatatataagtgctgttccctg gtgcttcctcgctcactcgaccgggagggttcgagaaggggggtaccccccttcggcgtgcgcggtcacgcgcacag ggcgcagccctggttaaaaacaaggtttataaatattggtttaaaagcaggttaaaagacaggttagcggtggccgaa aaacgggcggaaacccttgcaaatgctggattttctgcctgtggacagcccctcaaatgtcaataggtgcgcccctcat ctgtcagcactctgcccctcaagtgtcaaggatcgcgcccctcatctgtcagtagtcgcgcccctcaagtgtcaatacc gcagggcacttatccccaggcttgtccacatcatctgtgggaaactcgcgtaaaatcaggcgttttcgccgatttgcgag gctggccagctccacgtcgccggccgaaatcgagcctgcccctcatctgtcaacgccgcgccgggtgagtcggccc ctcaagtgtcaacgtccgcccctcatctgtcagtgagggccaagttttccgcgaggtatccacaacgccggcggtcgg ccgcggtgtctcgcacacggcttcgacggcgtttctggcgcgtttgcagggccatagacggccgccagcccagcggc gagggcaatcagcccggtgagcgtcggaaaaggaatattcagcaatttgcccgtgccgaagaaaggcccacccgt gaaggtgagccagtgagttgattgctacgtaaataacttcgtatagcatacattatacgaagttatggactacgcaggtc aatatccggaacatgaaacccgcaggttctgaaatccgcatattcagaacatggggattcgggaagcgcagcaata cgggcagtctcaggttcgatgctccggtcaggaaatgggaatacagagaaccgaatccgttatatgacggttacacc acccgtaactggttccgctatcatatcatgaaacaccgggacagggaaaggacaggcgaatacaccttccgcagcg attcattcacgctgtacagccggagcgagctggacgagctggccgcaatcctgaaaggcagactctacaagggaat cctgcctgactctcttgtactttggggataccgcatggatattaaggaaatatcacgtgaacagtggaacggtatgggac agcacggacaaatccgcatgaaattcatgggatacggtccggtcagaatccacacggacaatgaaaaccataccg taacagtatacagaatcaacgacatattgtcttcaactatcagaattttcatattttttcagttctttttttgtttcttctattaatattt taagccactccatgatttgtattgcatgttcatgaacagtttcattttggctatcactgtcgtgtagtagcctttgaaaatcacg taaaatattgtctttcccaagcatctcccatacaggcatcatccggtggattatttttctcatggtctcacggtcggttatcctg tcagcagattccatctcctccagttctttttcagattccataacaacgagagaaagcatatgactataatcatccgtattctc cagtaaactggaaaaatcgaattctccggaaactgaaacttgtgtacgagatataatggtggataaaaaagcaagca gtccgtggatattgaacggtttatgaatacagcctacaaatccttctttttcataaattccggaatttccgtcaccacgggc agtcatgactgctactggaacagttctagaattgccgatgtccgaattgcgaagcaatcttaacaaaccgaatccgtca gtatcaggcatttgtacatctgtcaagatcaaatcatattcagaattttcaagagcggccactacttcacgtgcattcttac aggttttacaggatatacctttgcgcccgagcatatcttccgctattttcagttgtataggatcatcgtccactacaagaac attcttaggcaatatagttattgtattatggtccgatttgtcttcctcaactaactcatccgtttcaggcaaagaaagttccagt ctgaacatgcttcctttaccgagtacactttctacatccatttttccttccaaaaccttaattaatcctttggtaaggaaaagtc ccaaaccaaacccttcagaattgacattctgtgcggcacgctcaaatggagcaaatattcttttcagtgtttcctcatccat accgataccagtatcccttatttcaatacgaagttttccttctgaatattctgaatggaaattgacgttacccctggaagtaa acttaatagcgtttgtaagtagattggctaaaacctgttcaagtttgtccgcatcaccttttactattacatttgatcctttatgtt cagaatataaaatcagaccttttgaagtcgctttacgagaaaactcatctgaaattcgttgcaagaaacggtcaagata aaatggtgtgtcgttacgcaaattaccggcttcattgattcggtaagcatccatcaaatcattaaccagatgtaaaacgtg tcgacaagaatgacggatgtcatctaaatatttttcgcgcttcctcttttcacgcgtttcagataccaaatctgcacagttat ggatattaccaagtggacctctaatatcatgagaaactgtcaggatgattttcttacgcatatcaagcaaattctcgttttctt gaatagcttgttgtaatttaaatttaattatttcttccttacgtaaatctgattgtataattaaaaatgaaattaatattataaaaa ccgcaatactcatcattacgataaataatcgaaaggattcttgtttgacttccgttacctctaagtttcgttctataaatgaca gctgtacctgattatctaaaaaagatacaaaatcatataatttttgatttaacagcctattctgcaaacgcaagctatccac ataagtttctatctgattgtttcgcatatctatgacagaaaccaatctattattaaaattctgtatttcattagttatatagggga cttgtatcgtctccttctttccgaataatccggcaattcctttctttttctgagttattgtcttcacttttactgtttgagtagctattac aggcaattcattagtaagaatactatcagatttattcgcaaattggactgctttcattatttgaaacaagtgcatttctttcgttt taagcaattcccgtaaagaatcaatttgaactggacataaaaaatcacaactccttaattttatttcaagtagaacactat ctgttttaaaacgttgattatgaaatatgttataatcagactcatcccatactataactgattcgcctaaagttgccaacttag taatatacaaatgaactttattagtattctcataagcttcattaatttgaattatcagattctcaagttctttcaaccggcaacg ttcatttatcattacagtaaccatacttaagactataaatcctgtaataaaatatccaataaatagtcttttgcgtaataatga agtcatcaggaacattctattgatttatttgacatcataattctatatatttaactagtcatagtatatatcattctcaaatatttat ttcaaattcaagcaataaaataaaaaaacacttcatattacaactgaactcttttatgaaaaagttgaatatatgaagtgt ttttttattacgatataaactataaaatcctattcttcgggaactggtgtataaacccttatccagtccaccaggaaggtgtg gtcttccacatttttcagttcctcatccgtagggcttaaacctttaacggctctccagctttggtcttccatatttattatgatgtc catgtcttttaccagacctgtaccaccagtgtagttgttggggtcgataatatccttgccgcttacggttctgacaagttctcc atctacataatattcaagtgtgaaagggtctttccagaacactcctacacgatgaaaatcgtcgcgccacaatgttccctt gtcatccttataccatgagccaagatctttcggctgataatccttgaatggctggcggatgaatatgtgatggctcaggtg aagtctgtcggcaccgtaacctccgccgtctctgtcgccgccgtatgcttctatgatgtcgatttcctgagtatcgtcaggg ctgagcatccatacatcggatgccatggttgaatttgaaagttttgcgtatgcctctacataaaccggatactttacacgtg tcttcgatgtgatacatcccgtataggttcccggcagttcctttgtgttgggtccgcttacaactttcttcatggggacatcttc aggacggctggctcttattttaaggtatccgtcggaaacggaaacatggtctctctgccatattgtaggagcaggtcctgt ccaatgattatgatagaaatcggtccatttggcatagaactcttttcctttatccttttcgtcggcaacataattaaagtcgtc cgactgtggatggagtttccacaccataccgtcgccggcatcagcgggtacaggatagatatcccactcgtacgattta ttattgaaatcttctgctgcacaggctatttgcagcgatgctaaacaaatggtaaacagttttctcatcgtggtatcttagttt aagttataataattattttcgttcttttgattcacctttagcggtatgtgtctgcaatgtccaggtagaaaatctcattatgctctg atagtctgaactgttgtatatatgagtaagaccccatctcaatatttcggtaggttctttttcggcatctgcactgcggttcag gccaatggcgtgtggcgcgccttttactactgacattatttcaaagtttattccgtcaggcgaccactggagtgtgttcttttc aggaccgtcggtggtgataagtgaagctatacctcctttgtaaggccatacgcaaacttcatgcccgctgtttgaaatag gattatattccgatttcacatacggacccataggattttccgcaatagccactccgtgtttgatttcacggccgccccatgtt atttcttctcccatacgttcgcctttgtagtacatatagaacttacctttataaggtattatacacgggtcgtgtaccttatgact gtcgaaatcacctttcgacactaccttgaatctgttatcctcatcgccttcccattcgccggtattagaaggttccagtaca ggcttgtctgtcttgatccacggtccttcaggggaatcagcacatgccataccgatagtattctttacacggactgtgtaa ggggattttaccgcctgatagcaaagataatactttcctttccattccatcacctcaggagtgaagactgaacggtcgtc gtaagcacctttttcaccacgtttcactgcaattccctgttccttccatgtccatccgtcttttgatgtggcataccatatatcac atctgtcccatgggaaaaccttatctttctctatatctccagcaaatccttgggtaggtccatagctctttgaataccatacat aatatgtattacctattttcagcattgcactcgggtctcttcttactacgccctcttcataagcaagatcacctttaagtggttc catcttatactcaaagaaccatttattgtcgtgattttcccatttcatggcacgtttcatagctgcacttaacttatttcccttagg tattcccaatgaatcggccttacgctcatcataattctgagtgtcgtcaacggcaatagtctgtgtattgcctgtatttccgca tgctgccaatagcgacatcatgccggctgcaagaataatttttctcatactagactttattttatattaattgttagtttattcga gtgtaattcacttgtttctgcactgatattcagtaccgatgatttttctgtcgactgaagcatcagcatacatcttccctgatat gtcataatatccttactttgatatggagaaacgttcttcacgtttccattgtctataccaagcagacggtactctccatcaat gttgaacttaagcatctgttctgttgtctttacaggattaccttttttgtctgttagctgagctgtgacatgcagaacatcctttcc atttgctgcgatactttgtttgtcaaccgtcagcaatatcgaatgttctttgcctgaagtccttatagctgtagtggtattaccta acttattttttccttttgcggtaatagtgccaggcttgtactgaactgcccatttatagatatgatcctcaaaatcgtctatatac ttctttcccatcgacttaccgttaacgaaaagttccacttcatcacaattggaatatatctctactattaccgagtcacctttct gataattccagtgagagtttacatcatcccaaacccataattttctatcccattcatgtcctttcttatcagtaaatccatctttt acatggagatacgaagatttgtctgtagtctgtgaatatatagcaataaaaggcttgtctgtccacaatgatttcatcatgt cgtacgaaggcttcacatagccgcacatatccaggagaccacatcctatcgacttttgaggccattttgaaagacggct ttcactttctcccagataatcgactcctgtccatataaacatacccggaacgaaatccctttcaatcaccgccttccattcg tgccactgaccgagattttctgtacccattataggcttgtcaggataattcttcttagcataatcatacatcacgcgacggt agctgaagcctgccacatcgagcgcgtcgatatatcctgactcaaagcttatggaaggcaggatgcagttggcggta actacacgtgtggtgtccatctggcgtgtccatgcagctaatttttgcgctgtacggccaatgtcgtatgcatgtttaggctg gattttccacatttctctgattttttctttagagtatggaggctgattccagaaataattaccgttggaatcggcaccgaaga aacctgtcgcctcgcggcatccggtataagtccattctatttcattacctatactccactggaagatacaggcatgattac ggcttctcctcattacgtttttcaaatctctttctgcccattcctggaaatgctcgcaatagccatgcgtaggatagtcttctac agtttccttcatattgagtcttttatctttgggataatcccactcatcgaagaattcttcctgaaccagaagacctatctcatcg cacaaagacagaaactcttccgctcccggattgtgcgagaggcggatggcattgcatcctccttcctttagggttttcag acgccggtaccacacatcgcgtatcattgccgcgccaaccattccggcatcatggtgcaggcatactccttttatcttcat gtttttcccgttaaggaagaaacctttgtctgcatcaaaacggaatgtccgtatgccgaacctgacagtgttttcagaaatt acttcatcgccattcttgatgcgtgtctcggctgtatagaggacaggtgtatcgacgctccacaaatcaggctgtttaatct cagatacgatgtcgataattttctcctcaccagcattcagttttatactgaagacctcaaaggctgcgatattgcctttattat ccttatatactacctcaacaactgcagctctgggttcggagtagctgttgcacacggtaacctggttgtttactttagcatat ttatcagtaaccacgggagtagtgacaaatgttccccaaaccggaatatgcagtctgtcggttacaatcattttcacatc cctgtatatacctgaaccggtgtaccatctgctgtcggcataatggctgtggtcgacccttacagtcatacggttatcctca ttgggattgagatagtctgtgacatcaaaataaaaaggagcatatcccgaaggatgatatccaagctttttgccatttatc caatactcagaattattatatactccatcgaacactatatagcatttctgatttgcactgattgttgtgggaaatgatttgctat accatcctattcctccctgaaggaaagctacacatccttcacccgaaatggaatcgtaaggtaaaccaacactccagt catgtggcaggttcactttcttccattcatcaccagggacataagaagtatatgaataatgagcagaatctttcagtacga atttccaatctttattgaaatcaacatttgaatcagatgctgaaacctttagggttgataataggattattaaagctaaaag atttttatttctcataatcttaggttttacatgttttttgatgtcacaaaactatatctttcacttataatatatgagggggatattaa tgtgatatagggtgggaaatcagaattttacatctgccctgtattccaccgtcacctacaaccttgacaaaggatgttcctt tcttccctcttatggttctcaggacaaacagacactttccgttatatgtccttacactattgtttatgacgttgatgttcaaatctt ctatcgaaggcgatccattgtcgagtccggcaagttcaagcttgtcgtcgaggattatcctcacatccgaaggtatatcg actactgtgtttccttctttatcttcaatggatacttctacatggataaggtcataaccgttgtcggtagctgttttgcggtcgca gttcagtgccagacggcacggcttgccgcttgtggacaaagtgtctttcgacaatattctgtcgccgtccttgcctaccgc aaggagtgttccttccttgtatgccaccttccacatcagtatattatgctccatgaaatcgctgcgtttctttgttcccaacgat ttgccgttcagaaacagttccacttctggggcgttggtatatacctgcaccagtatgtcctcgtccctgcggtacttccattt atcgcgtgtgtcgtaccactcccagcgtctgatccatcccgggcgtggagtgtaggtgaaacttccgtcagtatccatctt gaactcgctttccttttcaggtattgttacaatatgggttttcggtgtgtctttccacagacattcaaagaaatggccacgcg ctgtcttgttgcccacgaaatcgaagaaagaacagtctccaccccttgcaggccatgggccgttctcgccaagatagt cgaatcctgtccacacgaagatgcccgctatgtacttcttgtcggccacggctgtccattcaaagagctgaccaacattc tccgaaccgataataggctgatatggatatagcttatggtcgatttcataatatttgtctttatagttatatcccactacatca agaacgtctgtatatccggagagacgcgaaactgacggaacaacgactcctgaagagacgggacgggtagtgtcc acatccttaacccaaccggcaaggacagcggctgtttcagccaaatcgtcttttcctcctgacagacggttgaactctttc agtatagacttgttgtctgtttccgggtcgcccgtatggataagacccttgaaccctttattgtctttgctcgatgcccagtaa tatggataggtccattctatttcattgcctatactccagagtatcacgcaaggatgatttctgtctcgcctgatgaacgactt gaggtcgtgctcggcatgcgtatcgaagtatctggtatatcctattgatatgctgtcgggcgcatcttccttagctcgctca gtaatccactttttctttgccaccttccattcgtcgataaattcattcattacaagaagtcccagactgtcgcacatttccagc agactttccgaatgcggattatgggctgtacgtatggcattgcagcctatggaacgaagtttcagaaggcgtcgcaaca gggcatcatcgtatgcggcaacacccatacatcccaagtcgtggtgtatgttcactccttttatttttactgattttccgtttag aaggaagccttcatccgcatcgaatttaatgtcgcggataccaaattttgttgttttcttatccatcacatatccgtcagaag caatcagagtagtatgaagctcatacatcgaaggcgtttcaagactccagagatgacaattctccagttcaacagatg cagtgaactcattgaaatcgcctttcagggcaacaaaatcatcggaaacagaagctattgtcttgccgtcgtacactac ttcgtgcttcacggtgactccttttacacctgttccagcattcttcacctcgcataccacattcaccatcgaacggttgccta cctgtggtgtggtaacgaatattccgtctgaaggaatatagagctcgtttcttagaataagactcacattcctgtatatacc ggcaccgacataccatctgctatcggcatacgctcttctgtcaacgcagacagttattgtattcatcgaaccttttggtttca gatattgagtaagttcatattcaaatcccacatatccgttaggacggaatcccaacatatgcccgtttatccaaacctttg agttattatatacaccttcgaaatgaatgaacacttttttcccattcatatcatccgaggtgagaaaattcttcatgtaaatcc ccacaccgccagacagaaaaccattgcttccggctgtctgagtcttggtatatccttcgctgatactccagtcatgaggc agacacacatcctcccactttatatctggactcaggaacaaagtgtcctgaggcacgaaacctgctggtttgctgaattt ccaatcgaagttgaaatccactttagtggaggttccggcataacagaatccggacagaaagatagttaagactgtgat aatgttttttatggtcatatcgattttcagattaatattaatgacaaaaataatttcaaaagtgtaaaaacaaaaaaactctc catttatatttcagatatcaacggagagtttcatcattaaaaaaaataaaacattttataaagttactccttgcttaaggata gctatttcccggtatcccttcttttcgttcagtgcctgctttccgcttgccacttccaccacaaagtctataaaacgtctgctta aagattccatgctttctccctctaccagagttccggcattgaaatcaatccacgtatgtttctgttcataaagcggagtgttg gtcgaaaccttcacggttggaacgaatgttccgaacggtgttccgcggcctgttgtgaacagcacgatatggcatccg gcagaagcaagagccgtacttgccactaggtcgttgcctggtgcgctcaacaggttaagtccgtgtgttgtgacacggt cgccatatttcagaacatcctccaccatcgagcttcccgacttctgtgtacatcccaatgatttctcctcaagcgtggaaat acctcccgccttgtttcccggtgaaggattttcatatattggctggtcgttgcggatgaagtagttcttgaagtcgtttatcatg gccactgtgtcgtcgaatatctccttcgtgcggcaacggttcatgagcagtgtctcggctccgaacatttcaggtacctcc gtgaggactgttgtcccaccctgggcaacaagatagtcagagaacaccccaagcatcggattggccgtgataccgg acagtccatcagacccgccgcacttgagtcctatacgcagttttgacagggggacatcagtccgcttgtcttccctggct atggcatacatctcacggagaagtttcataccctcttctatctcatcatctactttctgagaaacaaggaaacggatccttt gggtatcatagtcacctataaactcacgaaaggcatcaggctggttgttctcacagccaagacctacgacaaggaca gctccggcattgggatgaaggaccatgtcacgcaatatcttacgggtgttctcatggtcgtcacccaactgcgagcatc cgtagttatgagggaaagatataatggagtcaaccccctcgcaacctgtttccttgcgaagctgctcggccaactggttt actattccgttcacgcaacccaccgtagggataatccatatctcattacgtatgccggcttctccgttagcacgcaaatac cctttgaatgtatggttctcgttcgtgaatgtctgtttctcgaacttcggagtgtaagtgtatgtactcagaccggaaaggttc gtcttgacggttttctcgttcagcagatgtcctttcctgacttcctttacagcgtgcgatatggggaaaccgtattttatcacca tatcaccttctgcaaaatccttcagggcaatcttatgaccggcaggtatatcctccattaattctatggaattgccgttcacc tctattacagtccctttggacaatgggtgcagtgccacagccacattgtccgcagggtttatctggatatattcagtcataa caaactaacatttataaattgaagaatacaggtagaagtatcaacctacaaggtcttttactgtctgaagcattccttcgct ctggattttgttgatatagtaaattacacggtctgccagtcccgagatagtattaaggtcttcaccccaaatggaagtatcg gcgagaactgtcttcacaagattttctaccgagccatcgttccacaaacttgtaagcatcgccatgatttcctgtgcatcgt taggaactatctctacaccatcggcacgctttccacctttgtagtatactatgatggctgcaagaccgagtacaagtcctt caggaagcacacccttacgtttcagatattccttcactcctggaaggtcgcgtgtggcatacttagggaatgagttaagc atgattgatgttacctgatggtctacgaaaggattattgaaacgttccaggacatcatcggcaaacttcttgagttcctcttt cggcaggttgagggtctccatcagctcgtcgaacatcacacgtttgatgaacttgcctatcacctcatgttggcatgcgtc tctcacgatattgacgcccgaaaggaatgccaccggcgacaatacagtgtgaggaccgttcagcagagtaaccttgc gttcatgataaggctcctccgacgggacgaacagaacgttcagtcccgccttgtttgcaggaaattcttcggcaaccga ttccggtgcttcgataacccacagatgaaaagcctcgccctgtacaactaaattgtcatcaaagtatagtttagtttttatgt tgtctatgtctttacgagggaaacccggtacgatacggtccaccagtgtggcatatacaccacatgcagtttcaaaccat gacttgaactcttcgccaaggttccacaattcaatatactgatagattgtttccttcagtttgtgaccgttgaggaagataag ctcgcatgggaagatgatgagtcctttcgacttgtcaccgttgaaatgtttgaatctgtgataaagcaactgtgtcagcttg cccggataagagcttgcaggagcatcctcaagcttgcacgacggatcgaagttgataccggcctcagtagtgttcga gattacgaatctcatatcaggctgttccgccagtgccatgaagtcattatactggctgtatggattcagcgcgcggctgat gacatcaatcattctgaatgagttcaccacctcgccattgttcagtccctgaagattgacatgatacagacagtcctggg cattgagggcatcaaccatacctttttctataggctgcaccacaacaacactgctgttgaaatctgtcttttcattcatattcg agataatccagtcgacaaacgcacgaaggaaattaccttcgccaaactgtatgatacgttccggacgtactgcctttac tgcagtcttactatttaaagctttcattgtaatgccaaaaaattaaaattgataagattaaaattcaaccaacattctgaata ccttacctggattttccgaccatttctgcagagcctcgcctgcctcttcaggtttcactacggcagagataagttcgttcatc gggcagttgccattctgaagataatgtatcacggcacggaaatcctcaggcattgcattgcgcgaaccgcgtatgtcg agttccttctggacaaaatattttgtctggaaagccacttcactcttggcatagccgatacatgccacacggcctgtgaaa cctacaatgtcgatggcagtaacatatgtgataggactacccacagcctctatcaccacatcagccatatagccgtca gtaagttcccttactctttccaccacattttcagtcttcgaattgataaccatcgaagcacccaggcgttttgccagttcaag cttctcatcgtcaatatccaatgctattacccttgcgccacgaagcgatgctcttactatggcgccaagtccaatcattccg caaccaatcacggccacagtatcaatgtcagttacctgagctctcgacacggcatggaaacctacgctcataggctc aatcagcgcacattccttatccgaaagaccggcagccggaataacctttgtccaagggaggacaaggaactcctgc atagaaccgttacgctgaacacccaaagtctcgttgtgttcgcaggcattcacacgtccgttgcggcatgaagcacact ttccgcagttggtatatggatttactgtcacgttcattcccttctcgaaaccgacaggaacgccttcgcctatttcctctatca cagcacccacttcatgtcccgggatgacaggcatcttcaccataggatttcttcccaggtaagtattaaggtcggaacc acagaatccgacatatttgatacgaagtaaaatttctccggctccaagtgttggtttaactatatcagctacttgaacctttc cggcttcagtaatttgtacagctttcataatctatgtatttatttaaatttgttattgtattattttgatgttgcattaattcaatgttgtt ttttctctatcttatatcctctccagccataatatgccgtaaagaagaaacatatcagaggtattacatatgccacctgata gaagtccgcgttatgattcatcacaaatgcggtgaactgagggatgcacgcattacctataatagccatcacaaggaa tgccgaaccactctttgtgtcctcgccaaggtcgcgtagtgcaagtgagaactgggttggatacattatcgacatgaag aacgacactgcaagcatggcataaagtcctgtcataccaccgaacatgataattactccacacagtatgatatttacta tagcgtatgtaagcagcatatcctgaggtctgaatttcgacattagcatagtacctatccatctgccgccaaggaaagc cagcatatacagtccgaagaatgtggtcgcctcatcctccgacagacctgcatacatgcagcagtaaactaggaaca ggctgttgatggctgtctgccctccgttatagaagaactgtgcgataactccccatctcaggtgtttgcgtttcaacactgc aaaattgataagcttgcccttctcgccgtgcgattcctccttgtcaatatcaggcaacttatacagtgcaaacaccacag caagaataatcagcaggactgcaagaaccagataaggcatcttcatggagtctgtctccatctgaataaatccgtccc aacctccgggaaagtcggcaggcagagtctcgcgagtatagttctgtccggtaagtataagcttactcagaaacattg cggatatgaaagcaccaagaccgttgaacgactgtgcaagattcagtcttcttgaagccgtatcgtgtgtacccagag ctgtcacatacggattggcagcagtttcgaggaagcacattcccgttgccatgatgaagaagattacaagatatgccc agtattcctttatctcggctgcagggaagaaaagcagaccaccgatggctgcaagaatgagaccgacaattataccc gacttatagctgaaacgtttcatgaacattgctatcggtatgggaaacaggaagtaggccagccaataggcagcttca gtgaacgaggcctcaaaagcattcagttcacaggttttcatcaactgcctgatcattgtaggcaatagattactgctgata gcccacatgaagaacaagctgaatatcagtaaaagcggtataaaatatttgtttttcattctgacatgtttttaatataaggt aactcaggcagattcttgaaaccgtaaaaggctttcgcgttctcgcccaagaaaagttttttgcttctctcttccaattcttttg atttaatcacaaagtcgtacgacatcttgtaggtaatggctgtgattgtgcgtggatagtcggaaccccacatcagtttctc gaagccaacaaggtcggcagcttcgttgatggctctgacagcgctgcggaacggatagaactcgtcattgaacagc caagtgataccgcccgactcaatcatcacattcttatgacgggcaagcattatctgcttcttccaatccggtttagtcacc ataccgaaatgcccgatggcaatcttcaagtacggacattctgaaatgatttcttccatctcgcccacctggaggtctcc ctctgccatatctatggaaagaatcacccccttgtcttccattagatgaaacatcctcatcatctcgtccgagttgagcatc accctaccgtccttcagttgcaggcggtgtcccggaatctttatggccttgaaccctttgtctataagttcaaccgcctggtt atagaaacccggttttctgaattcacacataccacacacgaagaacctgtccggatatttcgtcatcacctccatcagat agtcattctgaatgccgtcgatatactcctgtgtgacaacagccgcgccaatcagggcataattcatattagccaggaa aacctcagccgtgtttcttccgtcaatcataaagggggggggagcatttgtctcacctcccccataaacaatgattgacc gttctctgtagtcttgattttcaggccatctacttcagtgtcctgataaagccacagatgcgaatgggcgtcaattattgtata atccatagaaacagtatttatgaatttgcccaacttactctttgctgatcgcctattatctccttaaccttttccacaaggctcc agtctatcggttcctcaatgtattttatgttctgaagcacagactctgttcttgccgagctgaacaatgttgtaggtattctcgg attgcttacagagaactgcaccgcaagtttctcgatagggtatccctgttcagcacaatacttggcagcctttgcacaca cctcaatcaatggttttggagccggatgccattcaggaacacctctatgtgtgagaagtcccataccgaacggcgaag cgtttatcactcccacaccattttcgtcaaaatagtcgaggaagtccaccagcttgtcgtcgttcaatgaatagtgacaga agttaagcaccgcctctactgtacccggagcggcatggtcgataatccatttcaggttttcgagctgcaggtcggtgata cccacgtggcccaccacgcctttcttcttcagttccaccagagcaggcaatgtctcgttcaccacctggttcatatccgag aactcaacgtcgtgaacgttgataaggtcgatatagtcgatgttcagacgttccatactttcgtaaacactctcctgagcg cgtttgtccgagtagtcccacgtattcacaccgtccttgccatagcgtcccacctttgtagaaaggatgaacgattctcttg gcaattccttcagagccttacccaatacggtttcggctttataatgtccgtaatatggagaaacatcaataaagttcagtc cgcgttccactgctgtaaaaacagactgtatagcgtcactttctttgatagaatgaaaaactccgcccaatgaagatgc gccataactcaatacaggaaccttaagtcctgtctttcccaattcacgatattccatttttgataaataatttaaaggttaata ttttttactctgtttattcttattcatacagatagaacatacgttccatcatcttccatttctcgtccgatgtggccccctcggcac actgctggaatttggctacgtattcttcccattcggcctgacgcggcagagtggcaagctttgccatagctgtatcccagt caaaatccagaggtgtttccactatcataaagagttttgaccccaatatgtatatttccatttccaggattcccacctcgcgt attccggcgcgtatctcaggccatgcctcttccttactgtgagcctttctgtaggcttcaatcaattccggattctcacgcag actcaatgtctgacagtatctcttcacaggcagggaataacttttcactttatatccttctgtcttcatgatattattgatattaat atgttagtattacatgtcactgtctttatcttttcgacgatgctaaagtatgaagtatccatcaaaacaatagaggagattttc aaaaaagaaagaggggatattataccccctctttttcgacatttttacccctcataaaggagataaaaagtcaccccaa actctataaaaaatcaaaacagattgaactgcattcctgtgtagaaaaatccctggttggatttcggattccaatacgtca tcaccgtcaacgggatttcatattccataatccgaagtttataaatcacattcagggacacctgagtaattcctgccgattc ggcatacatggttctgttcaccatttccccgctttcatttcttgaatttctcaatgcgaaagctgttccaataccaggaccga cccttagcttttcgttctgatagatggtatagcccacatatacgaaactggagtagatgttcttgctgttgtccagatccctgt cgcgaccgtaaacaagtgtagagaagctcaactccagcggaaatttcctgtcgcccgtataattgaccatgagatca acgaaacgtccagtttcatcaggcttatagttgaagaactccttattattatatgtagccccgggcgagaaattatatgtat ctatagcctttatctgaaacctgccatgagtatatgctatatactggctcagctccttataactccccctggtgttcgatccg ccaaggaaaccggcggtaaacctccccgatgggtcggaaaccgacaaatcggacgagagaatcagtccgtcggc cacttcaatgccacgccatagaatcatgttctgtagagtagtactgaaatgaagctgagcctgaacatttgctgacaaa aatataaatacaggaattaacagtcgctttttatacttacaggtatccaatgataatatatgtatcatactcagagcagtag aaaatcggttttaaattattattatggatttatttgtcgaaatactctataagattataaacattccagttaatatccgacatgt atttggtcaatgatgtataaggtttatagttataatcgagcatacctttattgcaatcctcatcatccagatacttgaagaaa acccatcctacacaattcttggcttcgagcagtcccaaggtaaaatgctggtaagcgaatccacggttttgctggtcgcg taccacgaaaccagctccacttgaattgtcaagcttagtatcctcacccttggtatagaattccgttaccatgaaaggagt accgcccgcctggttcttccagccatccatgtagcctttttcaggcgaccatttactataataatttatggaaatgacatca caatattttcccgctgccttaattatataactgttgtatttaggaaggctgtgcaggcgtgaacccagataaagcaattcag gatccttcgatgccttaaccgcattctttatggcagaataatatttttccgcacaaataccggcaaactcattgttcagttcat ccgttacatcagaaacatttgcactcttgtccttatccgtcataaacttggcggctgcaatataagcaggatcctgcttgttt gaaattttcaggaatctgtcgagcagcctgtttccccatgtagagaagtctatctcattatccgagaagaatcccaacac atccgggttgtttctgaacatgccgaaagcatccgaattgagatactccttgcaccattcatcccatccatcataaaaca caagacctatcttaagattcacgttctgccccggatagctaattcccttgctattcttgaactctgcaaggaatgaaaagg aaggagcctgtgtcagaggacttgaagccgatttattataatcatttacagccttgtcgccttcttccttaccgaaagcgc agacactatgaaatcctatttcagagaattgtttctgcgactttgccacccagtcatctactgaactgtaaagcttgccga aagctgagctgttgccatccattctgaatgaggcgataccccttacataatatggataaccttcggggtcgactatccaa cttcttccatttgagtttttctcaaccctgaaccgtccagtagccttggatttttgcccttttgcgtatgagccatatttattcacg ctttgcaaatactcatcctgtgtttttgtctgctgttcataaccaaccaggtatggcaatatccttgtctttgcctctataaaagc cttgtcaggtttttccgcatactcgacaattatcggttgatactgcttggtgctattaggataggtttcagcaggaccgggaa caggcagttgcagttctacatcatcatcgtcattatcgcctgcattgtcgccgggagtattatagtcctccacattccccgg ttgtgagtaaataacctcaggcggaatatatgagaactcctcctgagggtcttcacatgacaaagcgaagaacggaa cactcaagcaaatggttttagtaataatagtagaatatttcattgttgcaaatatttagtaaattaatataaatcccatgtcct gattgtatccccccatcggtggtctatcgggaactccatttctccccatgccttaacagaagtccaaggttggtcggcatc agtccagaatgggtcagaggcaggcaatcccaacggaaggaatgcaagtgtagtcatatacaggctgccattgtttg tataatgattcgaaatgccagtctgatgtccgcagaatcctatggtgaggaatccgccctcattgaagttattgcccgact tgaacatacgtttcatacacgctgtcagcgcacatctcacctgtgctttcgatactcccgccggcaactcattataccatg ctataagagccagtggctgcattgttgccatacggtaaggtatagagcgtccgaaaacagggaatgttccttcaggag atatgaaacgctccagaatcatggcgaacctctgtgccctcatcaatgccctgtcatagtacttgcgatagtcgaaacgt gtcctcacgcccgattccattattgcatgtatagattcgagatacataggatggaacacataactgctataataatcgaat gcaaagtgctgtccgtctgcgtaccatccgtcgcctacataccattcctccaccttgcggaaagtagaatttatacgatat gtatcctgtccggcatcaattttggcaaggaagctttcaatggtggccgagaacagcagccagttagtgtaaggaggg tcaatgcgtcggagacctttgaactcttttatgtagcgttcctttgttgtctggtccagcggtttccacagctggtcgaacgcg cgcaggaaactttccgcaatataggcagcatcaaccagtgcctgaccatgaccgttccacaacagataatccggact attagggtccaccgcatttgcataactcttcaatgcccattctttcagttgcttgcgctgctgtccttctgctgtatcatcgtca ggcaggctcaaccatggagctataccggccatgagacgtccgaaagtttccatatatgcaaccttcttgttacggttatc ccagtttggacttacctcaagaatcatatttttctgcagttcccctttcgccatattgctcaacacaggagcagccatcctgt aagccatatccgtccagtattttcttgtctcgttgttgtttgcctcgagataacgcacatactcgcaagcggcaagaagga atgcgcctaccccaaagttggcagtcgacttggcgtcaaccacctgtcccggaatagccttttcaccgattggctggac ataacccaccgaccagtctttctgcagtgcagtcttggtaagatatttccatgctttccccactacaggcataaattcatcc ttgtcaagataaccgttgtttatcccccaaagcataccgtaagtgaagaaagcggtaccgcttgtttccggtcccggagc atgttccggatccatcatacttcttgtccagtagccctccggctgctgcagacatgcaaccgcctttgccatacgcacaa acttatcctcgaaaaaagacagatgctcataaccctccggcaggtccttcagcacctttgccagagcggcaagcacc catccgtcgcctcttgcccagaaatccttctttccgttcagactcttatgcttgggataaacatattttgcgtcgcgataatag agtccttcctcctcatcatacattattgagtccgacgtacaaagatattcatacagtttcttaagataccggtgattatgcgt aatcttatacatcttcgtcattaccggcatcaccatataaagtccgtcgctccaccaccagtaatccttacgcggtgtgctc atctggtactccatgacttcgcgtgcacgcttgattttataattctccggcatgacgttatacaagtccgcataagtctgga agcacacctgataatcgccgaacagcacataatcatcctttaccccgtatttatacttccattcagatttgttgttgcttttcg cacccatccactggttatactcagcccatgcctccgaatactttctgtattcttctttcccagtaaggaaataggcttccatat taccggtgtgatatgccgcataatcccagaaagaccttgcttcgggggcatgatttttctgccaggcatcgttcactttttca atcatctccctaacttgctgagcctcagtttttttttgcgaaggaaaatgaaggtaaaacagctataaggatgtataacat ccagtagtatctataacagttcatctttgtgatattgtttacattttctaaaacgaaatggggaagaatatatattcctccctc atttcacgaataattgtattattatatttatttgttaggagtccattctgctccgttgttgaaaccttctgttgtagagtcaaaactt gcatctgctcctgtacttggtctttctgtaatttcttcaatcttaaaagaagtgattttagcggttccagtagcatcagtaccac cagggacattagtctgtacagttaaaataacgttctcaagaaccggccacacaagtgaaccatctgctcttgaagctg gagtttcagcagaagtagaactactgattgtgaatgtatttgtataggttccacttccggtatttcttccaatccagaatttat atttatcagatgctcccaatctgaatgttgttgcacagtcgttagatgcgtatgtataagtaaatttgtaagtacaaccatca cggaatgacattgatttagtaactgggaattgattatctgctggaacaatttccaattctccacttgcattaattttttcggca actccttctgcaagatattccttaactgcatctatgttagcgaagttaaaatcaaaagcatctgcatgagtcaaagcaac attggcagattcaatcttgatattagcatcttcgttgttttcgtttttagcagtcaaagcactaacagcataatcagtgttataa 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aaccttttttgtcttgccatatgaataagagaacggtccccagaaagagcggccgattcctacaccgtaatctgcaaga aatttcctgacatctggatcagaatctttagatgtgtgtatattgaaatatttacctctgtcaagtgccgatacatcattcagg tatctctgagtggcataatccactgtgacagtagtgttataagtcttattctcggaagatgataaaggaaaaaccgagaa agacaaacacacagacaaagctgtaagaattatgttattcattgtattatcaaaatttaaaaggcagagaacactccg atagttcaattaaagtattccctgccattaagattatcacttctgtttaaacactaatatcagaaatcggccggtttgagtac atcgttcagcaccacttcatattcaacttctgttccgtcgttttcagtaacagtaagatggccgtaaccgccacttgagttatt ttctttcttaccttcaaacatgaacattctcttcttcgtcacttcctgttcttctttatcgcctgtttcaggattgataacttcttcctttt cagtatagacttcattgaaagagaatgagagatgtttttctgtatccgaattgattttcagccactcgggcaattccgaag gagcctcagacgactcggcaaagaactcgatcttattcattctcaaagtctgatagtcattcttccaggcaatgaggtcg aacaattcgcgataaacagaaaacttggaaacctcgcctgtctttcctgtttccacattcttgagataggtaagttcatac acgggagtagaatcaagttcgacctcagcccatttgtcattatcacatgctccgaacaaaaccaaagcacataagaa tgtaattgtcttataaattttatctattagcttcattgttactataatttattatggtcttacttcaatatatccgaaaaatatatcgtc 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caggcatcgcccaagccatttacattcattccccatatattatataaggtagactccgaccatgtaccgaattctgtattat actgtgtagaataggaaacctcgagaatagattccgaattgaattcattggcagcagtaaaattatcgactatgtcatca accaaagcaaaacctccattatcaataatatccttaaaatattcggcagctttattatactctttatcataaaggtagcttttg cctaatattgcctttacagcccaagaggtgatacgtcccaaatcggttttctcccatttgtcattcaagccaaggtcaaga gctttctgtaaatcttctctgtaatatttcttgatttcatcacttggtgtaacctttttatagtaatcttcttctacctctgcaatttcatt aatataaggaacattaccattattgaatgaattattgagataaaaataaaacaagccacgcaaagaatatgcctgtgc ctcaatctgagcaagcttggttatttgaggttcatctgtaacatttggacggattttctctatactggccagaacctgattcgc acggaacacaccagtatacagtgcagaccatttaccacggactgttccgtatgaatcattaaaggtttgcttataggctt cgttatcaaactgctttctgtccttattaccttcaactgctatatcacttctacggttctcatcgagcggatgataaatattggt atttttcaaagcattatatacagcagccagtcctttctcgcagtcgcctattgttttataaaaattctgtgttgtcagctgatgta tgttttcctgcgtaaggaaatcgtcgcatgaaaccaatgtcatgcccgacatcaacagactgaatactattgttttatatct gaagttcatatatttatattattaaaagttagaaattaatctggaatccgccacgcatctggatacttataggatatgttccat agtccaaaccacgacgtgacaatccattactaccgacctcagggtcgtatccgtcgtattttgtcagtgtaagaagatta tcggctgcaacgtataaacggaacttgcccaatccaagctttgatacccaactcttggggaatgaatatcctaacataa tatttttaagtctgacaaatgaaccgtcctcaatccacatatcagtatgagcacgatagttgttatgcccctctgtacgata agaaggaatggtagaggtatagttggtaggggtccacatgtatatcagttccttattggttcttctttgatatgtatatatcttc gtaccgtttattatttcatttccaactgaagcataccagttcatagagaaatcgaagcctctatagtcggccgagaagttc aaaccaagttcataatccggcataccactaccggcataaacacggtcgtcatcattaagaacaccatcattattggtat cgatatacataaggtcacccatacgggcacttgactgtaatttctgatattctgcaagcttctgttcagtattgattacccct gcggttggcataacaaagaaagcaccggcttcatatcctttcttgattgcagttacataatcacttcctgatgaaacaggt ttaccgtcggggaagaaatataactcattttttcctgccatagacacaatctcattcacgtttttggtaaatgtaccagtcaa gctgtaattaacaccacgtattttgttgcggtgagtaagtgaaaactcaacaccacggttttccatatctccggcattcaat gtaacagttgaactctggccccctccatttgacggtggcacgaccatcgggaaaagcatattcttcttgttactcttgtaca aatcaagacctaagataagcttgttattatataaagccatgtcgataccggcattaagctgctgggttgtttcccatttcac attcggattggcaaatcccaattgggtaaaaccatttgcaagaatttcggaagttccggtaccaaaagtatagtcgtagt ttttgtatatagctggtgcgtatgaataatcagggaagttctgattaccggtagtaccatagctgaatcttaattttaacgaat ttactagccacctgaatctgtcgaagaatgattcctcagaaatattccatcctacagacaatgacgggaacaatcccca acgattttcttcggagaacttagatgaaccgtcgcgcctgatactggcacttgccatgtatttgtctgcatagctatattgta gacgacccaacataccaaccattgtactgatacggtcctgtccccactggccactgcctgtacccacagtcatatcgg atgttcccgcatttaggttcggaatctcgttagtaaccaaatccattatactggcatagaacatctcgtatgtatatttctcca tactgaaaactccggtaaatttaatatcatgcttttttatcttcttattataatttaccattgtttcccaagtgagactggtattcttt gaatgagtatcttttaattgcgaacggtaattagagctggttaccttttcgcctttctgattatatacctcaaactcaggtcga attgagacagctttctgattgttatatccaaagcccaaacgtgtggaaacattcagtccgggaattacattataagcaag ataaaaattaccgttaaatgattctgtgtccttatgattttcctctttcaatcttcccaatgtataacttacgccctgtaaatctg caggatcgccagctgcatttactatacttgcctgtggataaatctgagaacgagtaggcgagtagtcataacattcgttc aataacccccaagccggagataactggttttctatcttcatagcgatgttagtgttgatagtccattttccgcgctgaaaat gtgtattcgaacgaatattatatcttttgtaatcggaatttatcaacacacctttctggtcgaaatagttcgcggtaaggttat atgtcaaatctttcttgccgccattcgcagtaacagaataattctgtattggtgcgttattattgactacatattcatataaact agagttgttgaagaaattcacaggatatgttttcagattagaccaggccaggtcgtctgtattctggtttccttccatcattct gttagacatcacttttacaaatatactctcgttggcatcaagcaaatgaatattcgaagtaatgtgctgtacaccataatat ccgtcgacagctatcttcatttctccttccttacccttctttgtggtaataaggataacaccggaagcaccgcgagtaccat aaatggcagccgaagcagcatccttaagaatatctatacttgctatttcgctactactcaatcccgggtcgccctcgaac gggacaccatcgacaacatataaaggagaactgtcgcctgagatagaacttaaaccacgaatctggatgttggattt ggctccaggctcaccagaacttgcctgaacgttaactccggcaaccataccctgaagagctgtacccaagtcggaa gtactgatcttagtaatctcatctgagtttacacgtgccactgcacctgtcacctcttttttacgcattgagccataacctaca acaaccacttcatccaacacttttgtgtcttcctgaagcttgatattataaatctgaccattcttgattgcagcttttacagtttt atacccaacaaaactgaacactaagttacctttagtcggtaccccttgaagaacgaaattaccatccatatcagtaata gttccaagagaagtaccttcaacttgaacagctgcgcctataacttcaaggttattggcagcatcaatcacctttcctttaa ctgttatcttctgtgaatacatagacaatgtatagaagataagcatcacgaacaacatgtacctgccatggtaccatttttt ctgatttctcatttgtaaaaattttaatttagcaataggttatgaaattccttttataactgacgctaaattatttatttataatggt acaaaaggggagaattatatatttaaaaagggggtaaaattttacccccacttatattaagaatccaaatcggtctgtat actctgttctttgtactgttgcggcaatacaccgaattctttcttgaaacattctctgaaatacttcaaatcattgaaccctaca tcgtatgtcacctctgatacagaataccgtcctgtcttcaacagttctgccgctctcttcattcttattgaacgtacaaaagc attggctgttactcccataagtgctttcagcttcttgttcagaaccaaggccgtcacgccaagacctttacatatatcctcta tctggaacgaagagtctgtaatgttgtcctctattatctttacaagtttctcaaggaacttatcgtcggtagatgtagtgctta cctcggaaatctttattgccggaactttcttgtgttgaagaatccgcttcctgttggttataatggaattaagcagctctttcatt atcttgttgtcgaaaggtttagggcaataagcatctgcatggaatttatatccgatgaaataatcctgcaatgtagtcttgg ctgaaagcaatactacaggaatatgagatgtccttacatcctgcttgattctctcacacagttccagaccattcatgcccg gcatcattatatcggataaaacaagatccggttgcaaatctggaatcatgttccatgccatctccccatcatgggctatca ttatcttatacttatccgacaacagtaatgacaacatattacatatatccttattgtcatcaacaatcaatatagccggagat tctccgtccacttctatgtctatcatctcttcatgctcgcacgattcacttcttaacacatcagcaaacttttcatcctccccact gttggcagagatattctccgtaaccatgtccccctcagttatcataggaattacaacatggaaaacagtgcctttaccttc ctctgatacaaacgtaatatttccattatgtatctctacaagccgcttggtcagaaacagacctataccggtacctccttca gcagagtttttattctgactgtagaaacgctcgaagaggtgtgttttcaggttgtcggatattccgtttcccgagtctgccac agagatgtttattttgttatcctgttcattgacagtaaacgatacaaatcctccggcaggagtatgcttaatggcattcgata cgagattatagattatctgttccataagatgagggtcgaacagaaagcttatatcactgcgtgagacagaatattccag ccctacacctttctgttttgcccaatacgtgaactgctgaaatacttcttttgagaaagacgagaagttgccatatttgagat tcagactaagcattcctttctcgctctttgagaagttcatcagctggttgacaagacttaacaggaacttactgttatgctcc attgtctgcagcatgccggcaagatacttgtcggacgaatacttgcccgattcaataatcatactaagtggagaatgaat aagtgtgagtggtgtcctcaattcatgcgatatgttggtaaaaaatgtagtctccttttcaagaagttcttcagtcttgcgttttt ccatgtttgctatatatagagcatttctgcgctgcacccgtgaggtataatacaccttgaaccggtataaagacaagaca agcaatataaaatagagtgtataggcataccatgtacgccagaaaggagggttaataatgacaggtatggaaagttc attcaaactgtagactccatcgctattcctgaccctcagtctgaacatatattcgcctgaaggaagctttgtgtagaaagc ctcacgatgaaaagcggaggtggaaatccatgaatcatctacgccttcgagcatatattcgtaaccaaccttataagg acttctgtaatccagggagctgaactggaatgagaaagtgtttaaattataaggcaattcaatgtgctctgtaaaacttac acttttgtcgaaataagctgaatatgtggaatctgcctcaacgctgtgattgaagattttaaaatcaacgagtgtaggact accgttgaaatctatcacatcaaagtcattaggtctaaagacgttaattccgtttacgccaccgaatatcattgttccatcc gtcattactccagcagaaagttccataaattcataatcctgaagaccatcgaaaatatcataagatcttattctctgtgtgtt gatattcaacgaattaattcctttattggtagaaatccataatgttccatccgtgccattaacaattgattttattgtattgctgc tcaacccgtctgcagagctaaaattttcaacgcaggcattatggttttcatccaaatccacgattttccttaacccacgtcc aagtgttccataccagatattatgattcaagtcttcacatacaggcactatatagtcgagttcatcaagtcccttgactgag ttcaaaacaggattatctatatacaaatctgcagattccaatactttaagaccgaagctggaagctacccatatattacc cttatgatctttaatgatgtttcttactatcttaagttctttattgtcagatgttttgatttccttcatcacacctgtggacaaatcata tctgaaaagacctttattatatgtgccaatccacaaatattttccatcggcaagcattgcgcgcacatttctcaaacctgag atctttttataatcattatcagaagtgaaactgtaaataccatcgtacatcagagacacatacatgcagtcggtgtagtttg agtatgctgttgagtatactatcctgtttgccgtgaaaggaataagtctggcattaccggtaatggaattaaaatgatata gccctgagccttctgtgcctaaatatatatcagatttggcaaatgtataaacggacgatatatgatcatttcctattcctctg aataaatctataggtttattattttcgcgtatactcataaagccactcttgaaaaatcctatccaaagaatatcgtttttatca agaactacagtttgcggatagctgtaagaatatgtagcaataacctgtggttttgactcgatggcatgcaatacatcaaa agtcaacacattcacagtgcttgtagtggcataaaataatcttttgtttttatataccatttttcgtatatcacagttttccaaca gggtacttaccttgcaggtatgcttgtcgtataaacataattgatgattttccagatttgagtacaatatttgagaagatgag atgactatggctgaagctatagggcatcccaatagtttgttaagcagtaattcatctccatcgacgttacattcgtacagg ccgtcttcggaggagagcattatcgtattatctatttctatgatgtcggaaatgtatggtaattttaatgttgatcttaagacag tatttattttgccattttgaaaatcataatttacaaggtatatactttcatcagaggaatgaaaccagactctgtctttagagtc gacaagaatcttatcgcaagtgaaatttttatcaataccgctgtgaccaagatttaatgaaacgaattcgttctttacaga attgaacaggaacactcctctatcggctgtacctatccacagatttccatgtgaatcttcgtcaatacatactatcagatta ctgttaagaccgtttgactgatatccgtaaaccttaaattcatatccgtcaaacctgttcagtccgtcgttcgtggccaacc atataaagccttttgagtcttgataaatacattgcacatcattttgggaaagtccatcaagagtagtgtactttcttgtgaca aactcattggatgcaaaggatttgcaaactataatcagaactgatattaaacttaagattaatctaaacatataactattat tctttatatttcatcaagattacaaagttattgattttatctaaaacatcaagtatttacagtagttaatagataattatagatatt ttccactttagaatgcgtatcaaaatcaatcaagaaaaaaataaatctttaacttcatttcatagtataaaacaaaaaaa gcatcgtaccattacactcaataatagatacgatgcccgaaagaaattacagtaacagactgtattgggattgttcttaa aaagacttatctgtatgactttatatatatgtcgagtatttcggtatccgacagttcatgagggtccagactgaacaatgca cccatggcagttcgcgcattatcaatcatcttagggaaatcttcctttactattccccagtcgctaagcttcaaatcgcgga cattgcattccttctgcattctcaccaaagcatctataaaatgttcgggattaaggttcttgcatccggtcataacatctgcc atgcgcatatatctctttgtcctgtcataaataaaagtagagaaataggcctcgcttatagctatcaggccaacaccatg aggaagagcgggatagtatgcgctgagagcgtgctcgagagaatgttcggaagtacaactggatgtggattcaacc attcccgccagcgtacttgcccaagccacctttgccctcgctttcaggttatttccatccttcaccgcaacaggtaaatattt atacagcagtctgatggcctcaagagcgaaaatatcacttattggggttgcacaattggcaatatagccttcggctgcat gaaagaatgcgtcgaatccctgataggcagtcagatgtggcggaactgaaaccatcagttccgggtcgattatcgac agacatgggaaagttaaagtggagccgatacctatcttttcgtttgtttccagattggttatgacagtccatgggtcagcct cggttccggttccggctgttgtaggaatggctatgatgggcaatgctttgctgtaaggaagccccttgccggtacctccttc aacatattcccaataatcgccatcattacatgccatgattgcaatggatttggccgtatctatcgaacttccgcctcccaa acctataatcatatcgcaattttcctcacgacagattgccgtaccttccattacatggtcttttattgggttaggcaatatcttg tcgtacaccacggcatcaacattattttctttcagcagaccaatcaccttatccagataaccatatttacgcattgatgttcc ggatgaaatgactatcaaagcctttttgccgggcaatgtctctgttgaaagacgtttaagttcgccacatccgaagagaa tcttcgtcggaatattataaccaaaaacaaaattattgtccataaatattatcagtcagtcaacttactatcttaaagcctca tcaatcactttcttgagttcaggataagcctcatctgtatcgcccacctgttttctcaactcacgcagtttctttttcatgtcctta agaactttggcgtatttaggattatcagccaggtttaccatttcgtaagggtcgttcttcacatcgtagagttcgaaagaaa ccggagtaggaacaatcttgtggctgttcttcaaccatgacattgatttctgtccgtaacgtttgtcgtcgtaatgacggcc atagaaaagtatcagcttatagttttccgtgcggatacctatgtgtgccggaacgtcgtgatgaatcatgtgcatccagta tctgtagtaaacagcatccttccagttttctggctttttgccttcgaacacagaggcaaagctctttccatccatgtatgaag gttctttgccaccgaccatctctataagagttggagcaaaatcaatgttgttaatcatcaggtccgacttggctcccttgta aggacatctcgggtcgcggactatgaaaggcattctttgagattcttcatacatccatctcttatcctgcagatcgtgttcgc caagcatcataccctggtcgcctgtatatacgataatggtattttcccagagtccttccttcttgagatagtcgaaaagac gtttcaggttgtcatccacaccctttacgcaacgcagatacgatttcaggtaatgctggtaggcaaggtatgtattctccat ttcatcacctgtattgcacttatattccattacataattgcggatttcatgacggcttgagacagaagttccgatgaagtgac gaagtgaatcgttcttgcctcttgtgccttcggagccccatttgtctgtatcgaacaatgacaatggaacaggcacttcca catcgtcaagataatattcatagcgcggtgcgtactcgaacatatcgtgcggtgccttgtaatgatgcatcatgaagaaa ggtttggacttgtcgcgtctgttcttcaaccagtcaatagcaaggttggtcacgatatccgaggagtaacccattttctttat ctggttattaggccatttcttgtcagttacgtcacttgtaaggaaaatagggtcgaagtattcgccctgtccgccatgaccg ttgaatacagaataatagtcgaagtgcgacggttcgcatcccaaatgccatttaccgatcatggcagtctgatatcccat attatggaactcatcaaccagatattcctggtccggctgaagcacttcatccaaagtgagcaccttgttacgatgggaat actgtccggtcatgatacatgcacggcttggggtactgatggagtttgtacagaaacagttctcgaagagcataccgtc ccttgccagttcatcaattgtaggagtagggttcagtactgcaagacgacttccgtatgcgccgatagcctgcgaagtat ggtcgtccgacatgatgtagatgacattcatctgtttctgctgtgctgcgacaccaacacatacagacaggaatggcat aacagccattcccttcattatattattttttaaattcgttttcataagtcagattatcattgaaatagaacttgcaagacatatc atcgaatgattttacgtccttattctgcattttaacccattgttctgatttagccttgacagcgacctgagttgaaacctcatta ccgtcgactacacttttaagagtgacatttgcatcctctgcattatggtttgccacacgtacagtgataaggcatccgttatc aaccttatcgtatagcggtttggaaaccaccgcccctttaagcttaatcttgaacacatgtgcatattcagtaggtttgttctt agggaagtttactacaagaccctcgtcagtcatcttatagtcaatcttctctgagcttccaagcatttcaaccgactcaattt ccacgttctggcaatacttaggagcaaatgacttgatagtaacactaccatctgtccaagccagagacacggcatag aggttattgtcgcgtgtagtaaagcgaatgtcgtccgctgtatattcagtttttgtattgtctgtcatataacctgcggtgcctg cgttatgtccttcgaaagcaatcacccatggtcgtgagccataaatagcctcaccgttagtcttcaaccatttacctatctc ggcaagtacgttcttctgttcgtctgtaatagtaccgtcggccttaggacctatattcagcaataagttaccgttcttgctga caatatcaacaaagtcgtcgatgatatggtcaggactcttgttttcctcgcccacacaatagctccacgatttcttgcctac agaagtatcagtctgccatggatattcacggattctgtcgctcttacctctttctatatcgaacacctggatattgtcgccata tccgaatttagtgttaaccacaacttctttattccaatcaagagccgaattgtaataataagccatgaatttatagaaagta ggctggaacggatattttcccacagtccagtcgaaccatatcaattcaggctgatatttgtcgataagctcgtatgtatgc ataaggaactgacggcgtgaacgttcgttcgagccttcatacttaccacaataaggtgtcataccctgaccttcgggctc atgcagtctttcgccatacagagtgattgtagtgtcctgaacatcagaaggagtttccattccatattcatagaaccatgc attctcgcatctgtgagaagaaagtccgaaacgcagaccggctttcttggtagcttccttcaattcgccgattatatcccttt tcggtcccatatccacagcattccacttattgaaagtactgctgtacatggcaaatccgtcgtgatgctcggccaccgga acaatgtattgtgctccagatgattttaccactgccagccactcgtcggcattgaaattttcggctttgaacatagggatga aatccttatatccgaatttggtcaaaggaccgtaagtctgtacgtgatacttattaataggatgaccttccttgtacatccag cgggaataccattcactgccgtatgcaggaacggaataaactccccagtggataaagataccgaacttggcatcctt aaaccattcaggaatagtgtaattttgagcaatcgatgccgaatcggccttgaacacatcagtaccttttaaagatacag tagaatctacattaggagcgtatgtagaattgcacgacgccaacaggcttaatgccgcaactcctaaaaccgttttcat ggatttcttattcataataatcttattacattaaataatgacattaattttttctgtaagcaaagatacacttgagttccatttaca ataaataatttaattactatagtaaggggtaaaatatttaccacctattattgaacaaatttaccccctctcatatatgataat aaactgccaatatcgaattacaagtaaatatatatttcaacaaaaaaggtttagcctattattacacaacaatttcaccct aagaataaaatatatatagagtaaatttgccaatataacaaactgtaaaaacaaatttatgaaaaactatttgatttactt actcgcagcagtatcgtgtacaactgtagcagacctaaatgctcaagtcagtacaaaaacaggtaatgaaaccaca gaacttacaattccgaaaaagttctacaaggacagcattgatttcagcaatgctccgaaaagacttaacaacaagtac cctctttccgaccagaagaacgaaggcggatgggttctaaacaaaaaggcctctgacgagttcaaaggaaagaag ctgaatgaggaaagatggttcccgaacaaccctaaatggaaaggaagacaacctactttctttgcaaaggagaata ctacatttgaagacggctgttgcgtgatgagaacttacaagccagcaggatcactgcccgaaggatatactcacactg ccggtttcctggtaagcaaagaacttttcctttacggatatttcgaagcaagactgagaccaaacgactcgccatgggtt ttcggtttctggatgtcgaacaatgaaagaaactggtggactgaaatagacatttgcgagaactgccccggcaatcctg ccaacagacatgacctgaactcgaacgtgcatgtatttaaagctccagcagataagggtgatataaagaaacatatc aacttccctgccaaatactatataccattcgaattgcagaaagactttcacgtatggggacttgactggagcaaggaat atatccgactatatatagacggagtactgtacagagaaatagagaacaagtactggcaccagccattacgcatcaat cttaacaacgaatcgaacaaatggttcggagccttgccggacgacaacaatatggattctgaatatctgatagattatg taagggtgtggtacaagaaataagaaataacataatctgaaattataaaaggcagtcttcattatcagtatgctgatgat aaagtctgcctttttaacaagaagataaagattttaatctgccctatcactcatttacttcatccggatactctgtaagcgag tttcccgaattgcttatttcaatagagccgataggaagataattgaacttcttgctccatgcagagataccataatctcttct aagaataggcatcatgacctcctcggcacgtcctgagcggacgaggtcaaaccatctgtcaccctcgcatgccagttc acaacgacgctcataccatagaacatcaattacgcttttaaatctgtcaggatacatctgcattagcttgtcaacatcaat ataacttccgtcgtctgcatgaacatgcttctttctgagttcatttatgtaatacttcgcttttgcttcatcaggattagtacctct gagatatgcttcggcaagcatcagatacacttcaccatatctgatgacccttacgtttccaggcttgtttagattggggtttc ctatcatatcgtaatttttgaaaggaggatatttcttctgggcatatccctggaaatcaggcccgtaagagcctgtctccca aacaactttttttgattcatcctgaatattggcattaggtttggttacaagttcatcgtaagtaaatatcgccgcatcacgacg cacatggtcatccggaaggaaataatcatacaattccttagtaggcagacaaaagccatatccattatcataatcagg actatttttcaactgtctcggtccgcagaaagtcacccacatagcaccttcgcctgcatcaatattaccccagtttgtattac cagatttggtagaggtctgtatttcaaatatagattcctcgttattctcctgatgagccgcaaacaatttagaataatcatcc gtcagagtataattaccacttgaaattacatcctccaataaaggtttcgctttgtcaaaaatcttagcatcatcgttgctcca gtcagcccaataaagatagaccttggccaacagggcttgagccgcagtcttggtaatacgtcctttcattgtgtccggg aaattatcctttagagaagggatagcttcaagaagatctttctctattgctttatttacattttcgcgagtatctctcgtaaactt gaatccttcaggataaagagtctcaagactgataaagcatggaccataatatctcaacaattcaaaatgataccaagc acgtaagaacttagcttcagctttataaactttagcttccggactgtcatactctgaatttattacaagattacatctatatata ccacggtaacgagttttccacaaattatcggaaatagaattgacactcgtatttgaataatcctctatagcctgcatgtaa ggctgatcctgatcagagccaccaccagtacgagcattatccgaacggatttcacccataggtacaatggaagcaag tgcattacccgaagcaccacctatgtgagctaacggatcataacaagcagtaagcgctttgaacatctgttcatcggtc ctataaaaagaactttctgtttcggacattataggagctgtatccaggaaactgtcgctgcaagatgatgatgcaatagc agcaaacatgaggacaagaatattattatgtattttcgacttcataattttcaattttagaaattaagacttaaaccaaatct gaatgtacgggcctgagggtaagtaccatagtcaatacctgtgctaagaatattgccacctgccatatttcctacttcag gatccataaacggatagctggtgaaagtggcaagattatcaattgctgcataaattcttgctttattcagcatcaacttgttt attaatttagttgggaatgaatagcctacctcaagtgaagaaatctttaaatgcgaaccatcataaagataaaaatcgg atggtttgccaaagtttccattaggatctttggatgaaagacgaggcactccattatcatcaccttctttccgccatctgtca agatagaatgatggaaggttgctgcgtccgtatgcttcctgtcggtaaatatcagagaagactttatatccagcttttcctg ttaagaagattgtcatatcaatacctctccagtcggcacctaaattcaaaccgaatgtccattttggccaaggattgccac aatcggttctatcttcatctgtaatctgcccatcgttatttgtatcttgccatataaagtcacccggaacggcatcaggttgta tcactttaccgtcttttgatttatagttctgtatctgctcttcattttggaatattcctaagttcttataaaggcggaaataacccat agcatgaccttcctccatacgcgttacattaacagatgttctccagctaccaccatcagtatatccatttacatttcctatcttt acaacctcatttttaagatatgaggcatttgcggaaatagagaagttgatttcgttccaatttttattaaatgtcatctgcattt ccacaccctggtttgttatattaccaaggtttctaaaagctgcattattacctctaatggcttcaactgttggctggaacaac aaatccttagtactttttttaaaccagtcgaaacttgctctaatcataccattatagaatgtcatatcggcaccaacattaaa ttgttcagaagtttcccatttcacgtctggattaacaaggttattaggagcagatcccacagtgatggcattaccaaacgt gtaattataattattgccaataatagaagtataggagaatggagaaattcgctcatttccgttctgtccccaagagaatct aagtttgaagacatcaaagttcttaattttccagaatttctcatttgaaacattccaacctaatgaaacgcccgggaaagt agcatatctgttattgggaccgaaatttgaagacccatcgcgtctgaccacaacttccgccatatatttttcagcataatta tagcttagacgagcaaaatatgagaacatactatgtctaggattagcaccgccactattagctgatgtcataacatcac cagcattaagataccagtaattctcattggtcattgcttcatttggatatttatttcgtgttccggccataaactcataaacatc tcttgatgcagaagtacctaacaggacagatgtagaatgttcaccaaaagattttttatatcgcaatgtattctcccactgc caactactattagcatttgtactttgttctaccctagaattatcttctttacattctgcagaatgaaaaaactttggtgcaaaca ttcttccacggaaattccgatgattaataccaaaatctgtgcggaaaacaaggtctttaataaaagtgatctcagcataa acattaccaaaaaattgctgggtaatatttttattcttaggtgcctcatccataaatgcaatagggttccacatacggctata aggtacaggagagactccatatccgaaagtatcgttgctattctcatcataaaccggagtagtaggatcaatattatag gcgtatgatatcggattataaccattgataccggttgccactccactattctctatatatgcatagttgacgtttgcacctac acttaagaaatcatttatagaataggaactgttcagccttgtgctgaatcgtttgtaaaatgacgcatcttcaccgataata ccattctggtctagataattcaatgaaagcaagcttgaacccttatcactgccaaagttagcagtaatgttatgctcagta acaggagctgtattcaatatttcattaaaccagtctgtattataacctgttggagcagtaggtacaccaccggcaagcgg catatcatcattgtcggcaaactctttcatcagcataatgtactgttcatcattcagcatggttggtttctttgctactgtagag aaaccatagtaaccatcataagcaagcgatgtctttcctttctttcctttctttgtggttataaggactacaccattagcggct ctggcaccataaatagcagctgaagttgcatccttcaagacttccatgctttcaatgtcgttgggatttacactgttcatgtc gtccataggcagtccgtcaattacaaaaagaggattagagtttccatttgtaccaacaccacgaattaccagcttcggt gctgttcctggctgaccggaatttgtcacaacgttcacaccactaaccctaccgctcaatgcattcacggcatttgctggtt tagattgcaataaatcatcggaatcgatgctactgatagcacctgttacaacactttttttcttaacctcatatcctattgcta caacttcctcgagtgcaatggcagatgtttttaattgaacgtctatcttagactgacctttatacactatattctgtgtatcatat cctacgaagctataaatcaatgtcgattccattggtacattttccaagatataatttccgtccaaatcagaaataataccgt ttgtggtacctttaactaaaatacttgcacctatcacaggtaaaccatcggagtctgttatacaaccggtaactttcccgttc tgtgcatttaatggtaaactgaacgttataagaatcagcatacacattaatgatagtgttctgttcataatctagagttttttgt aattagtgtttttcttaaaataaaaagttttgttctatcagttgcgcgctacttactgacacttgcaaatatatatactatgtaat ataaccaaagggggaaaatttcatttaaataggggggggaaatagattaactaaatattttaaggaaaaatggctgtt agaatccattcccagactccaacagccattttatcactaacaatcgcctgttaatcaatatatttttctgcccatttccttaag atttgcatccctgcccagtggaacaaaagtaaatccgtatgaatagcttcccttcagaagacgcttgtctattgaaggac gggctttcagactccagctatctgttccgcccactccagcctgaaccaggtcgatattaagagtattagaatacaagtcc ttttcaagttcatttatatgtttagccttatcaatcgcattctgcgacatctcccacactgaaacagataggggttcatcgccg acaatcatcacacctgccttatccgactgcaaggcaaaccatctcacgtcacaacggtttccgttttcctgcggcattac atagtcaaatcccagagcggacaccttgcagttatatatagacaccattgcagaggcttttctgtcggaatagttttccca tgggccacgtccataatatgtcacatccgacaaacgattggtacattcgcattgcaatcctacgcgcaacatttctgatat ttcaggagacttcatcattgaataatgaacgcctattgttccgtctgcttttactttataattcaaggtaagtctcagtctttcat ctatagcctttagcaccttaacctcaagattgccttccgatttgcgtacatctatagaaactgtctttagctttaatggagcat ctttccagaatgcaaacagtctatcgaccttccatcctcgccagtcattgtctgttgacgctctccagaagtttggtttcaga gcagatgtgatgatactttcattatctatcttatactgactgatataaccatcactgatattcagataaaagttctttcccttca cgctgatgtctttcttgttatctgaatcgatttccatatccaatgtagtatcaacgcattctactatctttggtaaagaaagata cttaaactgttcccaggcaacctcgtatccagctttggcatacagattgtcattcttgagcctggcactcaggaataacca atattccgcaccgtcatcggccttgaaattctgaataggaagttttagtttacagctctcaccagctggtgttgtcggcaca ataatctcaccttcctgcaatacactgtcttcgtccttcaattgccaaaaataacgatactcatctgttgaaaggaagaag tttctgttttttacagttatctctccactatagacattatcagttgtaaatgatacaggagcaaacacgtacttgcattcctcag tagcaggtttaatggagcggtcggcactgataacaccatttatacagaagttttggtcgttgtgctcccctttctcatagtca ccaccataattccatgatttcttattatatttccgttcattatccagcaatccctggtctatccagtcccaaatatatccgccgg caagcgcatcatgagaacgtattgcatcccagtattctttcagcccgccggtagagtttcccatagaatgtgcatattcac acattattatcggacggttcatgaccggattcttagtcattgctataagctcatcgaccataggatacatacggctaatga catcgacgtataaaggatcatcgggattggcatacacacaaagctctttctttgccggtttgacatcttcgttcacattaaa atctatctcactagtaacgattgacgcttccttacgtccgataggtttgtataaaggattttccggctgtccttgcgccccctc gtaatgaacaggacgggttgggtcataatctttcagccatcctgacagagctgcatgattagggccgcatccagactc gttgcccaacgaccacataaacacagaaggatggttcctgtctctcacagccattcttaccactctctccatgaacgagt tagcccactcaggcctattggacagataccccctttgatgatgagtttcaagattagcctcatccattacgtatataccata cttatcgcacagttcatagaaataagggtcgttaggatagtgcgatgtacggactgtattgaagttataacgcttcataag cagaacgtcttcgagcatctcatcacgtgtaacggtcttacctccggtctcgctatggtcatggcggtttacaccaatgag tttaataggagtgtcattcaccagaatctgattacctgttattttaatatccctgaaccctaccttattacttctcgcatccacc acgttgccctttttgtctgtgagctttataaccaaagtgtatagataagggtgttccgaattccatagttttggcttagaaaca attccctccatcattccgtaataaacattatcacgctgaggataaggttcgttcaccacataatcggcagtaacggtaat gtcttttccaaacaccggtttcccatcggcatcatataattgggctgacagattccatcccttcaaatcatccatattctgatt tgttatttccggacggatctgtaaccgtgctatattcttccggaaatcgatgcgtgtccttactccataatcatatattgccac ctgcggaatggacatgatatatacttcacgatggataccagccattcgccagtggtcggcatcttccatataacttccgtc ggtccacttatacacttgcaccgccagtttattctcccccttcttaacgtattcggtaatatcaaattcagtaggcagacaa ctgtcttcggaatatcccaccttctgtccgtttatccatacattaaatcccgaatagacgcctccgaaatggagtataatcc tgtcgctcttccacttgtcaggaacaacaaactccttgatataacaccccgtctgattattcctgtcaatatatggcggacg agcagggaaaggataaatagtatttgtatatataggatagccatatccctgcatctcccaacatgaaggaacaggaat agttttccatgatgatgaattgtactccactttataaaaaccggcgggagccaatgccatatcctcggaaaagttaaactt ccattggccgttcaacgacatatactccgatttctctctgtctccatccaaagcccaatccactctccggaaagaataagt agtactgcgggaaggcaaacggttaattccgtttatggtctgatcctgccatacattctgattgtttctccactgattggcac cgttgtccgatgcagacagaaattgcatcatgaaaaataacacagaaaatgaaaaaatagattttaagttcaagttcat aaattcgcattttaagtttctatgcaaatatataagtataacgaacaatgaatagggggtatttctatctatatagagtggta tttttacatatgagctaaaacttaaaaaaaactgtcagtattactatgctatgtagcactctatatgaaaatattatatattcc caagtcaaaagccttttcaaacaatttttatatattctcatcctatcccttccatcaaagataaattccaatcctgatttgcca gccgcatttattccttttttcaggagaattttctttatggctatcgccatgaaaattcacctgaaaaagaatgcggcggcaa acggattagaattaaagaaaagattacagggattaactgcgaccgacgtgacgcatagccgtaattcaaaggcggc tatccttatattccatatatgacctcacaaatactgtgaaaatccactttccccaataacaaaacatagcctgccatatca acacccaaaa
[0230] SEQ ID NO: 74 (pZR1622 - vetor de resistência ao cloranfenicol):
ACTAGAGATCTATGTGAGGATCCTAACTCGAGATCGAGACTGCTATGAC
TTGAGACCGGCTATTACGAGCGCTTAAACGGCGCGCCTGATAGGTGGGCTGCC
CTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCC
GGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGG
TGCGAATAAGGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTC
ACCTATCCTGCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAA
CCCTTTGGCAAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAAT
CGCTATAATGACCCCGAAGCAGGGTTATGCAGCGGAAAAGATAAAACGAAAGG
CTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTT
GTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAA
TGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATT
TAAAAAATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAAT
AATTTATTTTCAATGGAGAAAAAAATCACTGGATATACCACCGTTGATATATCCCA
ATGGCATCGTAAAGAACATTTTGAGGCATTTCAGTCAGTTGCTCAATGTACCTAT
AACCAGACCGTTCAGCTGGATATTACGGCCTTTTTAAAGACCGTAAAGAAAAATA
AGCACAAGTTTTATCCGGCCTTTATTCACATTCTTGCCCGCCTGATGAATGCTCA
TCCGGAATTTCGTATGGCAATGAAAGACGGTGAGCTGGTGATATGGGATAGTGT
TCACCCTTGTTACACCGTTTTCCATGAGCAAACTGAAACGTTTTCATCGCTCTGG
AGTGAATACCACGACGATTTCCGGCAGTTTCTACACATATATTCGCAAGATGTG
GCGTGTTACGGTGAAAACCTGGCCTATTTCCCTAAAGGGTTTATTGAGAATATGT
TTTTCGTTTCAGCCAATCCCTGGGTGAGTTTCACCAGTTTTGATTTAAACGTGGC
CAATATGGACAACTTCTTCGCCCCCGTTTTCACCATGGGCAAATATTATACGCAA
GGCGACAAGGTGCTGATGCCGCTGGCGATTCAGGTTCATCATGCCGTTTGTGA
TGGCTTCCATGTCGGCAGAATGCTTAATGAATTACAACAGTACTGCGATGAGTG
GCAGGGCGGGGCGTAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGG
CCTTTTTTTTTGATAATAAGCGGATGAATGGCAGAAATTCGACGAGTCATTGGTA
ACTATCTATGAAACTGTTTGATACTTTTATAGTTGATTAAACTTGTTCATGGCATT
TGCCTTAATATCATCCGCTATGTCAATGTAGGGTTTCATAGCTTTGTAGTCGCTG
TGTCCCGTCCATTTCATGACCACCTGTGCCGGGATTCCGAGAGCCAGCGCATT
GCAGATGAATGTCCTTTTTCCTGCATGGGTACTGAGCAAAGCGTATTTGGGTGT
GACTTCATCAATACGTTCATTTCCCTTGTAGTAGGTTTCCCGTACAGGCTCGTTG
ATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATCGTTCATCTTCTGGTTGCTGA
TGACGGGCAGAGCCATGTAATTCTCGAAATGGATGTCCTTGTATTTGTCCAGTAT
GGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGGCTGTCGGCAGTCTTGACTGT
GGTTATTTCGATGTGGTCGGACTTCACATCGCTTCTTTTCAGATTGCGAACATCC
GAATACCGCAAACTCGTAAAGCAGCAGAACAGGAAAACATCACGCACACGTTCC
AGGTATTGCTTATCCTTGGGTATCTGGTAGTCTTTCAGCTTGTTCAGTTCATCCC
AAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTTCAGTTTCGGTTTGAACGTATC
GTATGCAATGTTCTGATGATGTCCTTTCTTGAAGCTCCAGCGCAGGAACCATTTG
AGGAATCCCATTTGCTTGCCGATGGTGCTGTTTCTCATATCCTTGGTGTCACGC
AGGAAGTTGACGTATTCGTTCAATCCAAACTCGTTGAAATAGTTGAACGTTGCAT
CCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGCTGCAAATTTTTCATAGGTGGA
TGCCGTCCAGTTATTCTGGTTACCGCACTCTTTTACAAACTCATCGAACACCTCC
CAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCTTCACTGGTATCTTTCATTCTCA
TGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTGGCATGACCTCCTGCACCTCAA
ATTCCTTGAAAATATTCTGGATTTCGGCATAGTATTTCAGCAAGTCCGTATTGATT
TCGGCTGCACTTTGCTTTAGCTTGTTGGTACATCCGTTCTTTACCCGCTGCTTAT
CTGCATCCCATTTGGCTACGTCAATCCGGTAGCCCGTTGTAAACTCGATACGTT
GGCTGGCAAAGATGACACGCATACGGATGGGTACGTTCTCTACGATTGGCACA
CCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGATGTTGCGCTTGATATTCATAA
TTGGGTGCGTTTGAAATTCTACACCCAAATATACACCCAATTATTGAGATAGCAA
AAGACATTTAGAAACATTTACTTTTACTCTATATTGTAATTTACACTTGATTATCAG
TCGTTTGCAGTCTTATGATATTCTGTGAAAGTATAAGTTCGAGAGCCTGTCTCTC
CGCAAAAAACGCTGAAAATCAGCAGATTGCAAAACAAACACCCTGTTTTACACC
CAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTAAGATAATACAACCACTACATA
ATAAAAGAGTAGCGATATTAAAAGAATCCGATGAGAAAAGACTAATATTTATCTAT
CCATTCAGTTTGATTTCTCAGGACTTTACATCGTCCTGAAAGTATTTGTTGCCAG
TGTTACAACCAATTAACCAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAA
ACTGCAATTTATTCATATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTC
TGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGG
TATCGGTCTGCGATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCT
CGTCAAAAATAAGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCG
GTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGC
CATTACGCTCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGA
TTGCGCCTGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAAC
AGGAATCGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTC
ACCTGAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCA
GTGGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGA
AGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCAT
TGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCC
CATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATT
TATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGA
CGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCA
GACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAG
ATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGCCGCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCA
CGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTCA
CGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAATA
GCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAAAGC
TTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGAGAAG
CCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACGGCTGA
CATGGGGCGGCCGCTCAACGTACCGGTCTCAGTAGGGAGAGCTGTATGTGGGT
AG
[0231] SEQ ID NO: 75 (pZR0879 - vetor de expressão Ec_frc, Of_oxc, Sc_YBR222C, Sc_YEL020C, Ec_yfdE, Of_oxlT (promotor de alta resistência)):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATCTGGC
CCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAATTGAAC
GTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCCTGATATC
GATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGAGTTAAATA
CCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGCGAAGCTGAT
ATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGGCTTCACCTGG
GAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGATCAAAGGGTTTG
ATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACGTTGCTCAGGCAG
CGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCCGCCGCTGGTAAGC
GCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGCTGATCGGTTTACTT
GCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAACGAGTCACCATGTC
AATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTACGTGACCAGCAGCG
TCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATCCGAATGGTACATTT
GGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCT
GGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGCCTATATTTATTTCAC
TATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATG
GATTACCGATCCGGCATACAGTACAGCCCATGCACGACAGCCACATATTTTCGA
TATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTG
GCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAA
TTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAAC
CGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTAC
GCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCA
GGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCAT
CTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGAC
TGGTAAGCCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAA
AGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATG
GTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATA
TTTGCAGTGTCGAAAGAAACAAAGTAGCCTGAGCTGTCACCGGATGTGCTTTCC
GGTCTGATGAGTCCGTGAGGACGAAACAGCCTCTACAAATAATTTTGTTTAATCC
ATCAATTTAAAATTTAAAATAATGGTTTTTACTCTGGAAGATTTTGTTGGCGATTG
GCGTCAGACCGCGGGTTATAATTTGGATCAAGTCCTGGAACAGGGTGGCGTAA
GCTCTCTGTTCCAGAACCTGGGTGTGAGCGTGACGCCGATTCAGCGCATCGTT
CTGTCCGGCGAGAACGGTCTGAAAATTGATATTCATGTGATCATCCCGTACGAA
GGCCTGAGCGGTGACCAAATGGGTCAAATCGAGAAAATCTTTAAAGTCGTCTAC
CCAGTTGACGATCACCACTTCAAGGTTATCTTGCATTACGGTACGCTGGTGATT
GATGGTGTGACCCCGAATATGATTGACTATTTCGGCCGTCCGTATGAAGGCATT
GCCGTTTTTGACGGTAAAAAGATCACCGTCACCGGTACCCTGTGGAATGGCAAT
AAGATTATTGACGAGCGTCTGATTAACCCGGACGGCAGCCTGCTGTTCCGCGT
GACCATCAACGGTGTCACGGGTTGGCGTCTGTGCGAGCGCATCCTGGCAGGTT
CAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCGA
TGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCTATC
ACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTTCCGT
CACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGGAAAA
CCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCC
CTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTCCAGT
GAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCAGATG
AATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACA
TTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGT
GGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAA
GAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCT
GCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCC
AGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCC
GCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAA
GGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGC
ACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGAT
GCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGA
TCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTG
TTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTC
CAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAAC
AAAGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAA
CTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGA
CATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTAT
TGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCG
CTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCT
GCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAA
AGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAA
TACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACC
ATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTAT
CAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAGCTGAT
TAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCTGGCGTGGTG
CTCGCATAGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT
TACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAAT
TTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAA
ACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGA
AAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACAAGTGCCGCTA
CTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTAT
TGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGG
TCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTC
AGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCT
TTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTAT
AAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCG
TCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCAC
GTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGA
GTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTG
AACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTT
CCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAA
CGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACAC
TTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTC
CATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGG
TTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTG
TAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAA
CCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTC
CAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCT
ATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAA
AGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTA
GATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGA
GGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAAC
TTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCT
GAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATC
GATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAA
GCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAAC
TTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTG
ATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAA
CTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTA
GAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCCCGACGAACGGACTAAT
CCTGACGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTA
CAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTT
AAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAAC
AAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAA
AGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACCACGACCGCTAC
CCAACACTTCGCTCAACTTTTACAAAAATATGGCATCGACACAGTCTTTGGAATT
GTGGGCATCCCTATTGTCCAACTAGCGGATACGATGGTTGCCAACGGTATCAAA
TTCATTCCATGCAGGAACGAACAGGCTGCCTCATATGCAGCCTCTGCTTATGGT
TATATTAGTGATAAGCCCGGCGTGTTACTTATTGTCGGGGGCCCCGGTTTAATC
CACGCACTGGCTGGTATATACAACTCAATGAGTAATAGGTGGCCTCTTCTAGTA
ATTGCAGGGAGTTCTTCTCAAAGTGATATACATAAAGGCGGGTTTCAAGAGTTG
GATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGTTTACCGGAAAGTTAACCCCTG
ACAATATTGACATGATTACTCAGAAGGCTTTGAATTACTGTATACAAGGCACTGC
AGGGGTTTCTTACATAGACGTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTA
GAAGGAAACGACCGTACAGGAAATGAATTACCGATGATATTAACTCCAAACATAT
GTGGCCCTGATCCGTCGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAA
AAATAAAAATATTCTGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAA
ATCCGCAGACTAGTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTA
AGGGAATTGTCCCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAG
CATTGAAAATAGCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATT
GCATTTTGGTACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGAT
TCCAATCCCGAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCC
ATATGGGGAGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGC
CAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATT
CAACTGAATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTG
AATTACAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAA
TACTTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTAC
AGACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTG
GGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTGC
TGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGCAG
TAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTTACC
ATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAAGAACT
GCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTGTCAACA
CAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCTCGGACTA
AAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACAAAAGCAAA
TTGCCTTTGCCTGGCAGAATAAACCGCGTTTATAGGGTTCCTAGCTGATTAGAA
GGCCATCCTGACGGATGGCCTTTTTTTTGACTGCTCTGGGTCTGACGGCCATCA
AGGGTAGTGAGACTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTT
GACTGGGTGTTCCGATACACTCAATTTGTGTAGGATAAAACGAAAGGCTCAGTC
GAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCA
ATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTT
ATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAA
TAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTAT
TTTCAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCGA
TATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGGC
GCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATTT
GGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAAG
AGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATATG
CTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAAAAC
TGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATATGCTT
CATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTACGATA
CCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTGATGCTC
CGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGTCTATTTAT
TCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGAGAGGGGCG
CATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGAGCATGGTCTG
ATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGAAATCGCCATCCC
TACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCCGATTACGATTTGTT
GTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACTGGAGCTTACGGAAC
TGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCGTACAAAACCAGGCTAT
TCTTAAACAATATATTGAGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTA
GCCAGAATACATGAAGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAG
GCCATTAAATTGCCACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGA
ATAATGATGCCGGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTT
ATGCCGGGAGCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTT
CTCATCATAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTT
TTGACTTAGTTTCAATTTTACATTCCAGGAAGTAGGATAAAACGAAAGGCTCAGT
CGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGC
AATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCT
TATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAA
ATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTA
TTTTAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTG
GTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATAT
TCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCT
GCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCT
GGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTG
GTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTG
CTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGTAT
CGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTTCCG
GTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACTGATCA
GCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGGTTTGA
TCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGCCAGCA
AGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGCGAAAT
GCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGTTAACTTT
GGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGCCTCGGTCT
TGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGTTCAATGGTG
GTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGTTACAAAACCAT
GTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTCCCGACGATTGCT
GCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCGCATTCTTCACATGG
GGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGATATTTTCGGTACGGCA
TACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAAAGCAACTGCCTCGATC
TTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAACTTCGGATGGAATACCGCT
TTCCTGATTACTGCGATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTCGTTAT
TCCAAGAATGGGCCGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAA
AGCTGTACATTAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTT
TTTTTTGACTGCTATGACTAAACGGCGCGCCTGATAGGTGGGCTGCCCTTCCTG
GTTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTA
GCCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAAT
AAGGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATC
CTGCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTG
GCAAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATA
ATGACCCCGAAGCAGGGTTATGCAGCGGAAAAGTTATATACATTCATGTCCATTT
ATGTAAAAAATCCTGCTGACCTTGTTTATGTCTTGTCAGTCACCATTTGCAAAAC
CATATTTGACCCTCAAAGAGGCTGAATTTGATAAGCAACTTGCTACATACTCATA
ATAAGGAGCTAAATAGAACACGAATGGGAAATACTCAAATGCCAAACTAAAGAA
GATATTGGCCAAAATAAACGCTATACCGAGAGAGAAACTTGATTTTTCAACTTCC
TAAAACAGTGTTGTTCAAACATTTCTACTTATTTGTACTTACCAGTTGAACCTACG
TTTCCCTAATAAAATGTCTATGGTAAAAAGTTAAAAAATCCTCCTACTTTTGTTAG
ATATATTTTTTTGTGTAATTTTGTAATCGTTATGCGGCAGTAATAATATACATATTA
ATACGAGTTAGGAATCCTGTAGTTCTCATATGCTACGAGGAGGTATTAAAAGGT
GCGTTTCGACAATGCATCTATTGTAGTATATTATTGCTTAATCCAAATGAATATTA
TAAATTTAGGAATTCTTGCTCACATTGATGCAGGAAAAACTTCCGTAACCGAGAA
TCTGCTGTTTGCCAGTGGAGCAACGGAAAAGTGCGGCTGTGTGGATAATGGTG
ACACCATAACGGACTCTATGGATATAGAGAAACGTAGAGGAATTACTGTTCGGG
CTTCTACGACATCTATTATCTGGAATGGTGTGAAATGCAATATCATTGACACTCC
GGGACACATGGATTTTATTGCGGAAGTGGAGCGGACATTCAAAATGCTTGATGG
AGCAGTCCTCATCTTATCCGCAAAGGAAGGCATACAAGCGCAGACAAAGTTGCT
GTTCAATACTTTACAGAAGCTGCAAATCCCGACAATTATATTTATCAATAAGATTG
ACCGAGCCGGTGTGAATTTGGAGCGTTTGTATCTGGATATAAAAGCAAATCTGT
CTCAAGATGTCCTGTTTATGCAAAATGTTGTCGATGGATCGGTTTATCCGGTTTG
CTCCCAAACATATATAAAGGAAGAATACAAAGAATTTGTATGCAACCATGACGAC
AATATATTAGAACGATATTTGGCGGATAGCGAAATTTCACCGGCTGATTATTGGA
ATACGATAATCGCTCTTGTGGCAAAAGCCAAAGTCTATCCGGTGCTACATGGAT
CAGCAATGTTCAATATCGGTATCAATGAGTTGTTGGACGCCATCACTTCTTTTAT
ACTTCCTCCGGCATCGGTTTCAAACAGACTTTCATCTTATCTTTATAAGATAGAG
CATGACCCCAAAGGACATAAAAGAAGTTTTCTAAAAATAATTGACGGAAGTCTGA
GACTTCGAGATGTTGTAAGAATCAACGATTCGGAAAAATTCATCAAGATTAAAAA
TCTAAAAACTATCAATCAGGGCAGAGAGATAAATGTTGATGAAGTGGGCGCCAA
TGATATCGCGATTGTAGAGGATATGGATGATTTTCGAATCGGAAATTATTTAGGT
GCTGAACCTTGTTTGATTCAAGGATTATCGCATCAGCATCCCGCTCTCAAATCCT
CCGTCCGGCCAGACAGGCCCGAAGAGAGAAGCAAGGTGATATCCGCTCTGAAT
ACATTGTGGATTGAAGATCCGTCTTTGTCCTTTTCCATAAACTCATATAGTGATG
AATTGGAAATCTCGTTATATGGTTTAACCCAAAAGGAAATCATACAGACATTGCT
GGAAGAACGATTTTCCGTAAAGGTCCATTTTGATGAGATCAAGACTATATACAAA
GAACGACCTGTAAAAAAGGTCAATAAGATTATTCAGATCGAAGTGCCGCCCAAC
CCTTATTGGGCCACAATAGGGCTGACTCTTGAACCCTTACCGTTAGGGACAGGG
TTGCAAATCGAAAGTGACATCTCCTATGGTTATCTGAACCATTCTTTTCAAAATG
CCGTTTTTGAAGGGATTCGTATGTCTTGCCAATCCGGGTTACATGGATGGGAAG
TGACTGATCTGAAAGTAACTTTTACTCAAGCCGAGTATTATAGCCCGGTAAGTAC
ACCAGCTGATTTCAGACAGCTGACCCCTTATGTCTTTAGGCTGGCCTTGCAACA
GTCAGGTGTGGACATTCTCGAACCGATGCTCTATTTTGAGTTGCAGATACCCCA
AGCGGCAAGTTCCAAAGCTATTACAGATTTGCAAAAAATGATGTCTGAGATTGAA
GATATCAGTTGCAATAATGAGTGGTGTCATATTAAAGGGAAAGTTCCATTAAATA
CAAGTAAAGACTATGCATCAGAAGTAAGTTCATACACTAAGGGCTTAGGCATTTT
TATGGTTAAGCCATGCGGGTATCAAATAACAAAAGGCGGTTATTCTGATAATATC
CGCATGAACGAAAAAGATAAACTTTTATTCATGTTCCAAAAATCAATGTCATCAAA
ATAACCACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTATAGTTGA
TTAAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGTAGGGTTT
CATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTGCCGGGAT
TCCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGGTACTGAG
CAAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTAGTAGGTT
TCCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATCG
TTCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAAATGGATG
TCCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGGC
TGTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACATCGCTTC
TTTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAGAACAGGA
AAACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGGTAGTCTTT
CAGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTTC
AGTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTTCTTGAAGC
TCCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGTGCTGTTTC
TCATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCAAACTCGTT
GAAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGCT
GCAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCACTCTTTTA
CAAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCTT
CACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTGG
CATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGGCATAGTAT
TTCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTTGGTACATC
CGTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATCCGGTAGC
CCGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACGGATGGGTA
CGTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGAT
GTTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCCAAATATACA
CCCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTACTCTATATTG
TAATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGTGAAAGTATA
AGTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAGATTGCAAAA
CAAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTAA
GATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAATCCGATGAG
AAAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTTTACATCGTC
CTGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGATTAGAAAAA
CTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCAT
ATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCA
TAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAAT
ACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACCA
TGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAG
ACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAACC
AAACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCTG
TTAAAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGCC
AGCGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAATG
CTGTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACGG
ATAAAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTG
ACCATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACA
ACTCTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGCC
CGACATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAATT
TAATCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCT
TGTATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATC
TTGTGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAAT
CGAACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTTGATAGTAC
GTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTC
TCATGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAAC
GTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAA
TATAAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAG
AATATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAG
GGATGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACA
CAGGAACACTTAACGGCTGACATGGGGCGGCCGCTCAAGTAG
[0232] SEQ ID NO: 76 (pZR0901 - vetor de expressão Ec_frc, Of_oxc,
Sc_YBR222C, Sc_YEL020C, At_AAE3, Ec_yfdE, Of_oxlT (promotor de média resistência)):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATCTGGC
CCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAATTGAAC
GTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCCTGATATC
GATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGAGTTAAATA
CCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGCGAAGCTGAT
ATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGGCTTCACCTGG
GAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGATCAAAGGGTTTG
ATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACGTTGCTCAGGCAG
CGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCCGCCGCTGGTAAGC
GCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGCTGATCGGTTTACTT
GCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAACGAGTCACCATGTC
AATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTACGTGACCAGCAGCG
TCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATCCGAATGGTACATTT
GGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCT
GGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGCCTATATTTATTTCAC
TATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATG
GATTACCGATCCGGCATACAGTACAGCCCATGCACGACAGCCACATATTTTCGA
TATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTG
GCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAA
TTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAAC
CGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTAC
GCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCA
GGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCAT
CTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGAC
TGGTAAGCCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAA
AGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATG
GTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATA
TTTGCAGTGTCGAAAGAAACAAAGTAGCCTGAGCTGTCACCGGATGTGCTTTCC
GGTCTGATGAGTCCGTGAGGACGAAACAGCCTCTACAAATAATTTTGTTTAATCC
ATCAATTTAAAATTTAAAATAATGGTTTTTACTCTGGAAGATTTTGTTGGCGATTG
GCGTCAGACCGCGGGTTATAATTTGGATCAAGTCCTGGAACAGGGTGGCGTAA
GCTCTCTGTTCCAGAACCTGGGTGTGAGCGTGACGCCGATTCAGCGCATCGTT
CTGTCCGGCGAGAACGGTCTGAAAATTGATATTCATGTGATCATCCCGTACGAA
GGCCTGAGCGGTGACCAAATGGGTCAAATCGAGAAAATCTTTAAAGTCGTCTAC
CCAGTTGACGATCACCACTTCAAGGTTATCTTGCATTACGGTACGCTGGTGATT
GATGGTGTGACCCCGAATATGATTGACTATTTCGGCCGTCCGTATGAAGGCATT
GCCGTTTTTGACGGTAAAAAGATCACCGTCACCGGTACCCTGTGGAATGGCAAT
AAGATTATTGACGAGCGTCTGATTAACCCGGACGGCAGCCTGCTGTTCCGCGT
GACCATCAACGGTGTCACGGGTTGGCGTCTGTGCGAGCGCATCCTGGCAGGTT
CAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCGA
TGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCTATC
ACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTTCCGT
CACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGGAAAA
CCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCC
CTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTCCAGT
GAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCAGATG
AATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACA
TTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGT
GGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAA
GAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCT
GCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCC
AGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCC
GCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAA
GGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGC
ACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGAT
GCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGA
TCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTG
TTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTC
CAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAAC
AAAGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAA
CTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGA
CATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTAT
TGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCG
CTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCT
GCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAA
AGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAA
TACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACC
ATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTAT
CAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAGCTGAT
TAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCTGGCGTGGTG
CTCGCATAGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT
TACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAAT
TTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAA
ACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGA
AAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACAAGTGCCGCTA
CTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTAT
TGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGG
TCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTC
AGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCT
TTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTAT
AAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCG
TCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCAC
GTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGA
GTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTG
AACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTT
CCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAA
CGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACAC
TTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTC
CATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGG
TTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTG
TAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAA
CCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTC
CAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCT
ATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAA
AGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTA
GATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGA
GGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAAC
TTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCT
GAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATC
GATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAA
GCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAAC
TTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTG
ATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAA
CTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTA
GAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCCCGACGAACGGACTAAT
CCTGACGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTA
CAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTT
AAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAAC
AAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAA
AGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACCACGACCGCTAC
CCAACACTTCGCTCAACTTTTACAAAAATATGGCATCGACACAGTCTTTGGAATT
GTGGGCATCCCTATTGTCCAACTAGCGGATACGATGGTTGCCAACGGTATCAAA
TTCATTCCATGCAGGAACGAACAGGCTGCCTCATATGCAGCCTCTGCTTATGGT
TATATTAGTGATAAGCCCGGCGTGTTACTTATTGTCGGGGGCCCCGGTTTAATC
CACGCACTGGCTGGTATATACAACTCAATGAGTAATAGGTGGCCTCTTCTAGTA
ATTGCAGGGAGTTCTTCTCAAAGTGATATACATAAAGGCGGGTTTCAAGAGTTG
GATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGTTTACCGGAAAGTTAACCCCTG
ACAATATTGACATGATTACTCAGAAGGCTTTGAATTACTGTATACAAGGCACTGC
AGGGGTTTCTTACATAGACGTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTA
GAAGGAAACGACCGTACAGGAAATGAATTACCGATGATATTAACTCCAAACATAT
GTGGCCCTGATCCGTCGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAA
AAATAAAAATATTCTGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAA
ATCCGCAGACTAGTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTA
AGGGAATTGTCCCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAG
CATTGAAAATAGCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATT
GCATTTTGGTACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGAT
TCCAATCCCGAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCC
ATATGGGGAGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGC
CAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATT
CAACTGAATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTG
AATTACAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAA
TACTTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTAC
AGACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTG
GGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTGC
TGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGCAG
TAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTTACC
ATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAAGAACT
GCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTGTCAACA
CAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCTCGGACTA
AAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACAAAAGCAAA
TTGCCTTTGCCTGGCAGAATAAACCGCGTTTATAGGGTTCCTAGCTGATTAGAA
GGCCATCCTGACGGATGGCCTTTTTTTTGACTGCTCTGGGTCTGACGGCCATCA
AGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAA
TTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAA
GTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAA
GTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAAAGA
GATTCAAAGGTAATATTAACAATAATTTATTTTCAATGGATAGCGATACTCTCTCA
GGATTATTGGAAAACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTT
TCTGGAAAATTCAATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCC
GCTTCACGCCTTGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTC
ACCTTCCCTAACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTA
GAGCCACGGCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTT
TACCTCTCCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCAC
CGGCTCAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGC
TTGACGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTG
ACTCAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACA
CTTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAG
CTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTAC
GGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGC
TCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCA
ACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGC
CGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAAT
ATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGA
CAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACACA
AGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATGAG
AAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGGTCCA
AATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTTTCGAG
TTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGGTATTTGC
ATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAAGATATCTC
CAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCAGGGTGTTG
CATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTGCGGTGATTC
CAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTTTGTAAGAAGA
ATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGATAACCTCCCCA
AAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAACATTTCCTTGAGA
AGCCCTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTT
TGACTGGGTGTTCCGATACACTCAATTTGTGTAGGATAAAACGAAAGGCTCAGT
CGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGC
AATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCT
TATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAA
ATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTA
TTTTCAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCG
ATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGG
CGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATT
TGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATAT
GCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAAA
ACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATATGC
TTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTACGA
TACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTGATGC
TCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGTCTATTT
ATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGAGAGGGG
CGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGAGCATGGTC
TGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGAAATCGCCATC
CCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCCGATTACGATTTG
TTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACTGGAGCTTACGGA
ACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCGTACAAAACCAGGCT
ATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGT
TAGCCAGAATACATGAAGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTG
AGGCCATTAAATTGCCACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGG
GAATAATGATGCCGGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCAT
GTTATGCCGGGAGCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGA
GTTCTCATCATAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTT
TTTTTTGACTTAGTTTCAATTTTACATTCCAGGAAGTAGGATAAAACGAAAGGCTC
AGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTT
TGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGT
TCTTATATTTCCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAA
AAAATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAAT
TTATTTTAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCG
TTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAA
TATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTG
GCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAG
CCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCG
GTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTC
CTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACG
GTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCT
TCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACT
GATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGG
TTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGC
CAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGC
GAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGTTA
ACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGCCTCG
GTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGTTCAATG
GTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGTTACAAAA
CCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTCCCGACGAT
TGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCGCATTCTTCAC
ATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGATATTTTCGGTAC
GGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAAAGCAACTGCCTC
GATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAACTTCGGATGGAATAC
CGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTC
GTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAA
GAAAAAGCTGTACATTAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATG
GCCTTTTTTTTGACTGCTATGACTAAACGGCGCGCCTGATAGGTGGGCTGCCCT
TCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGG
CGGTAGCCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTG
CGAATAAGGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCAC
CTATCCTGCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAACC
CTTTGGCAAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAATCG
CTATAATGACCCCGAAGCAGGGTTATGCAGCGGAAAAGTTATATACATTCATGT
CCATTTATGTAAAAAATCCTGCTGACCTTGTTTATGTCTTGTCAGTCACCATTTGC
AAAACCATATTTGACCCTCAAAGAGGCTGAATTTGATAAGCAACTTGCTACATAC
TCATAATAAGGAGCTAAATAGAACACGAATGGGAAATACTCAAATGCCAAACTAA
AGAAGATATTGGCCAAAATAAACGCTATACCGAGAGAGAAACTTGATTTTTCAAC
TTCCTAAAACAGTGTTGTTCAAACATTTCTACTTATTTGTACTTACCAGTTGAACC
TACGTTTCCCTAATAAAATGTCTATGGTAAAAAGTTAAAAAATCCTCCTACTTTTG
TTAGATATATTTTTTTGTGTAATTTTGTAATCGTTATGCGGCAGTAATAATATACAT
ATTAATACGAGTTAGGAATCCTGTAGTTCTCATATGCTACGAGGAGGTATTAAAA
GGTGCGTTTCGACAATGCATCTATTGTAGTATATTATTGCTTAATCCAAATGAATA
TTATAAATTTAGGAATTCTTGCTCACATTGATGCAGGAAAAACTTCCGTAACCGA
GAATCTGCTGTTTGCCAGTGGAGCAACGGAAAAGTGCGGCTGTGTGGATAATG
GTGACACCATAACGGACTCTATGGATATAGAGAAACGTAGAGGAATTACTGTTC
GGGCTTCTACGACATCTATTATCTGGAATGGTGTGAAATGCAATATCATTGACAC
TCCGGGACACATGGATTTTATTGCGGAAGTGGAGCGGACATTCAAAATGCTTGA
TGGAGCAGTCCTCATCTTATCCGCAAAGGAAGGCATACAAGCGCAGACAAAGTT
GCTGTTCAATACTTTACAGAAGCTGCAAATCCCGACAATTATATTTATCAATAAGA
TTGACCGAGCCGGTGTGAATTTGGAGCGTTTGTATCTGGATATAAAAGCAAATC
TGTCTCAAGATGTCCTGTTTATGCAAAATGTTGTCGATGGATCGGTTTATCCGGT
TTGCTCCCAAACATATATAAAGGAAGAATACAAAGAATTTGTATGCAACCATGAC
GACAATATATTAGAACGATATTTGGCGGATAGCGAAATTTCACCGGCTGATTATT
GGAATACGATAATCGCTCTTGTGGCAAAAGCCAAAGTCTATCCGGTGCTACATG
GATCAGCAATGTTCAATATCGGTATCAATGAGTTGTTGGACGCCATCACTTCTTT
TATACTTCCTCCGGCATCGGTTTCAAACAGACTTTCATCTTATCTTTATAAGATAG
AGCATGACCCCAAAGGACATAAAAGAAGTTTTCTAAAAATAATTGACGGAAGTCT
GAGACTTCGAGATGTTGTAAGAATCAACGATTCGGAAAAATTCATCAAGATTAAA
AATCTAAAAACTATCAATCAGGGCAGAGAGATAAATGTTGATGAAGTGGGCGCC
AATGATATCGCGATTGTAGAGGATATGGATGATTTTCGAATCGGAAATTATTTAG
GTGCTGAACCTTGTTTGATTCAAGGATTATCGCATCAGCATCCCGCTCTCAAATC
CTCCGTCCGGCCAGACAGGCCCGAAGAGAGAAGCAAGGTGATATCCGCTCTGA
ATACATTGTGGATTGAAGATCCGTCTTTGTCCTTTTCCATAAACTCATATAGTGAT
GAATTGGAAATCTCGTTATATGGTTTAACCCAAAAGGAAATCATACAGACATTGC
TGGAAGAACGATTTTCCGTAAAGGTCCATTTTGATGAGATCAAGACTATATACAA
AGAACGACCTGTAAAAAAGGTCAATAAGATTATTCAGATCGAAGTGCCGCCCAA
CCCTTATTGGGCCACAATAGGGCTGACTCTTGAACCCTTACCGTTAGGGACAGG
GTTGCAAATCGAAAGTGACATCTCCTATGGTTATCTGAACCATTCTTTTCAAAAT
GCCGTTTTTGAAGGGATTCGTATGTCTTGCCAATCCGGGTTACATGGATGGGAA
GTGACTGATCTGAAAGTAACTTTTACTCAAGCCGAGTATTATAGCCCGGTAAGTA
CACCAGCTGATTTCAGACAGCTGACCCCTTATGTCTTTAGGCTGGCCTTGCAAC
AGTCAGGTGTGGACATTCTCGAACCGATGCTCTATTTTGAGTTGCAGATACCCC
AAGCGGCAAGTTCCAAAGCTATTACAGATTTGCAAAAAATGATGTCTGAGATTGA
AGATATCAGTTGCAATAATGAGTGGTGTCATATTAAAGGGAAAGTTCCATTAAAT
ACAAGTAAAGACTATGCATCAGAAGTAAGTTCATACACTAAGGGCTTAGGCATTT
TTATGGTTAAGCCATGCGGGTATCAAATAACAAAAGGCGGTTATTCTGATAATAT
CCGCATGAACGAAAAAGATAAACTTTTATTCATGTTCCAAAAATCAATGTCATCAA
AATAACCACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTATAGTTG
ATTAAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGTAGGGTT
TCATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTGCCGGGA
TTCCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGGTACTGA
GCAAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTAGTAGGT
TTCCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATC
GTTCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAAATGGAT
GTCCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGG
CTGTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACATCGCTT
CTTTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAGAACAGG
AAAACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGGTAGTCTT
TCAGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTT
CAGTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTTCTTGAAG
CTCCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGTGCTGTTT
CTCATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCAAACTCGT
TGAAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGC
TGCAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCACTCTTTT
ACAAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCT
TCACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTG
GCATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGGCATAGTA
TTTCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTTGGTACAT
CCGTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATCCGGTAG
CCCGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACGGATGGGT
ACGTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGA
TGTTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCCAAATATAC
ACCCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTACTCTATATT
GTAATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGTGAAAGTAT
AAGTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAGATTGCAAA
ACAAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTA
AGATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAATCCGATGA
GAAAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTTTACATCGT
CCTGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGATTAGAAAA
ACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCA
TATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCC
ATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAA
TACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACC
ATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCA
GACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAAC
CAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCT
GTTAAAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGC
CAGCGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAAT
GCTGTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACG
GATAAAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCT
GACCATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAAC
AACTCTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGC
CCGACATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAAT
TTAATCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCC
TTGTATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTAT
CTTGTGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAA
TCGAACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTTGATAGTA
CGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCT
CTCATGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAA
CGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTA
ATATAAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAA
GAATATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCA
GGGATGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGAC
ACAGGAACACTTAACGGCTGACATGGGGCGGCCGCTCAAGTAG
[0233] SEQ ID NO: 77 (pZR1871 - vetor de expressão Ec_frc, Of_oxc,
Sc_YBR222C, Sc_YEL020C, At_AAE3, Ec_yfdE, Of_oxlT (promotor de alta resistência)):
GGAGAGCTGTATGTGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGAC
TGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTA
ATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTG
CAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATT
ATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAAT
GTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATCTGGC
CCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAATTGAAC
GTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCCTGATATC
GATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGAGTTAAATA
CCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGCGAAGCTGAT
ATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGGCTTCACCTGG
GAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGATCAAAGGGTTTG
ATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACGTTGCTCAGGCAG
CGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCCGCCGCTGGTAAGC
GCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGCTGATCGGTTTACTT
GCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAACGAGTCACCATGTC
AATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTACGTGACCAGCAGCG
TCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATCCGAATGGTACATTT
GGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCT
GGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGCCTATATTTATTTCAC
TATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATG
GATTACCGATCCGGCATACAGTACAGCCCATGCACGACAGCCACATATTTTCGA
TATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTG
GCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAA
TTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAAC
CGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTAC
GCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCA
GGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCAT
CTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGAC
TGGTAAGCCAATCTAGGGCCTCGTCTGTAGGATAAAACGAAAGGCTCAGTCGAA
AGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATG
GTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATA
TTTGCAGTGTCGAAAGAAACAAAGTAGCCTGAGCTGTCACCGGATGTGCTTTCC
GGTCTGATGAGTCCGTGAGGACGAAACAGCCTCTACAAATAATTTTGTTTAATCC
ATCAATTTAAAATTTAAAATAATGGTTTTTACTCTGGAAGATTTTGTTGGCGATTG
GCGTCAGACCGCGGGTTATAATTTGGATCAAGTCCTGGAACAGGGTGGCGTAA
GCTCTCTGTTCCAGAACCTGGGTGTGAGCGTGACGCCGATTCAGCGCATCGTT
CTGTCCGGCGAGAACGGTCTGAAAATTGATATTCATGTGATCATCCCGTACGAA
GGCCTGAGCGGTGACCAAATGGGTCAAATCGAGAAAATCTTTAAAGTCGTCTAC
CCAGTTGACGATCACCACTTCAAGGTTATCTTGCATTACGGTACGCTGGTGATT
GATGGTGTGACCCCGAATATGATTGACTATTTCGGCCGTCCGTATGAAGGCATT
GCCGTTTTTGACGGTAAAAAGATCACCGTCACCGGTACCCTGTGGAATGGCAAT
AAGATTATTGACGAGCGTCTGATTAACCCGGACGGCAGCCTGCTGTTCCGCGT
GACCATCAACGGTGTCACGGGTTGGCGTCTGTGCGAGCGCATCCTGGCAGGTT
CAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCGA
TGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCTATC
ACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTTCCGT
CACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGGAAAA
CCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCC
CTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTCCAGT
GAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCAGATG
AATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACA
TTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGT
GGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAA
GAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCT
GCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCC
AGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCC
GCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAA
GGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGC
ACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGAT
GCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGA
TCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTG
TTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTC
CAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAAC
AAAGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAA
CTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGA
CATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTAT
TGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCG
CTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCT
GCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAA
AGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAA
TACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACC
ATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTAT
CAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAGCTGAT
TAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCGTTCCTGGCGTGGTG
CTCGCATAGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT
TACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAAT
TTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAA
ACAAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGA
AAAGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACAAGTGCCGCTA
CTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTAT
TGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGG
TCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTC
AGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCT
TTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTAT
AAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCG
TCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCAC
GTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGA
GTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTG
AACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTT
CCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAA
CGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACAC
TTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTC
CATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGG
TTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTG
TAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAA
CCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTC
CAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCT
ATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAA
AGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTA
GATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGA
GGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAAC
TTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCT
GAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATC
GATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAA
GCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAAC
TTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTG
ATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAA
CTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTA
GAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTGCCCGACGAACGGACTAAT
CCTGACGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTA
CAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTT
AAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAAC
AAAGTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAA
AGAGATTCAAAGGTAATATTAACAATAATTTATTTTCAATGACCACGACCGCTAC
CCAACACTTCGCTCAACTTTTACAAAAATATGGCATCGACACAGTCTTTGGAATT
GTGGGCATCCCTATTGTCCAACTAGCGGATACGATGGTTGCCAACGGTATCAAA
TTCATTCCATGCAGGAACGAACAGGCTGCCTCATATGCAGCCTCTGCTTATGGT
TATATTAGTGATAAGCCCGGCGTGTTACTTATTGTCGGGGGCCCCGGTTTAATC
CACGCACTGGCTGGTATATACAACTCAATGAGTAATAGGTGGCCTCTTCTAGTA
ATTGCAGGGAGTTCTTCTCAAAGTGATATACATAAAGGCGGGTTTCAAGAGTTG
GATCAAGTTAGTCTTTTGTCCCCATTTTTGAAGTTTACCGGAAAGTTAACCCCTG
ACAATATTGACATGATTACTCAGAAGGCTTTGAATTACTGTATACAAGGCACTGC
AGGGGTTTCTTACATAGACGTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTA
GAAGGAAACGACCGTACAGGAAATGAATTACCGATGATATTAACTCCAAACATAT
GTGGCCCTGATCCGTCGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAA
AAATAAAAATATTCTGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAA
ATCCGCAGACTAGTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTA
AGGGAATTGTCCCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAG
CATTGAAAATAGCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATT
GCATTTTGGTACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGAT
TCCAATCCCGAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCC
ATATGGGGAGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGC
CAAGATTCCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATT
CAACTGAATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTG
AATTACAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAA
TACTTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTAC
AGACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTG
GGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTGC
TGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGCAG
TAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTTACC
ATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAAGAACT
GCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTGTCAACA
CAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCTCGGACTA
AAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACAAAAGCAAA
TTGCCTTTGCCTGGCAGAATAAACCGCGTTTATAGGGTTCCTAGCTGATTAGAA
GGCCATCCTGACGGATGGCCTTTTTTTTGACTGCTCTGGGTCTGACGGCCATCA
AGGGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAA
TTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAA
GTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAA
GTAGCCTGGATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAAAGA
GATTCAAAGGTAATATTAACAATAATTTATTTTCAATGGATAGCGATACTCTCTCA
GGATTATTGGAAAACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTT
TCTGGAAAATTCAATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCC
GCTTCACGCCTTGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTC
ACCTTCCCTAACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTA
GAGCCACGGCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTT
TACCTCTCCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCAC
CGGCTCAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGC
TTGACGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTG
ACTCAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACA
CTTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAG
CTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTAC
GGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGC
TCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCA
ACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGC
CGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAAT
ATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGA
CAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACACA
AGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATGAG
AAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGGTCCA
AATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTTTCGAG
TTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGGTATTTGC
ATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAAGATATCTC
CAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCAGGGTGTTG
CATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTGCGGTGATTC
CAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTTTGTAAGAAGA
ATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGATAACCTCCCCA
AAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAACATTTCCTTGAGA
AGCCCTGAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTT
TGACTGGGTGTTCCGATACACTCAATTTGTGTAGGATAAAACGAAAGGCTCAGT
CGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTTTGC
AATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGTTCT
TATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAAAAA
ATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAATTTA
TTTTCAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCG
ATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGG
CGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATT
TGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATAT
GCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAAA
ACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATATGC
TTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTACGA
TACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTGATGC
TCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGTCTATTT
ATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGAGAGGGG
CGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGAGCATGGTC
TGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGAAATCGCCATC
CCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCCGATTACGATTTG
TTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACTGGAGCTTACGGA
ACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCGTACAAAACCAGGCT
ATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGT
TAGCCAGAATACATGAAGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTG
AGGCCATTAAATTGCCACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGG
GAATAATGATGCCGGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCAT
GTTATGCCGGGAGCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGA
GTTCTCATCATAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTT
TTTTTTGACTTAGTTTCAATTTTACATTCCAGGAAGTAGGATAAAACGAAAGGCTC
AGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTTTTTTTTGTTTTGTT
TGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGAACTTTCAAATAATGT
TCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGGATCACACAACATTTAA
AAAATAACATTATGAAAGCACTCGAAAAGAGATTCAAAGGTAATATTAACAATAAT
TTATTTTAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCG
TTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAA
TATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTG
GCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAG
CCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCG
GTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTC
CTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACG
GTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCT
TCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACT
GATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGG
TTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGC
CAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGC
GAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGTTA
ACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGCCTCG
GTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGTTCAATG
GTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGTTACAAAA
CCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTCCCGACGAT
TGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCGCATTCTTCAC
ATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGATATTTTCGGTAC
GGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAAAGCAACTGCCTC
GATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAACTTCGGATGGAATAC
CGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTC
GTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAA
GAAAAAGCTGTACATTAAGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATG
GCCTTTTTTTTGACTGCTATGACTAAACGGCGCGCCTGATAGGTGGGCTGCCCT
TCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGG
CGGTAGCCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTG
CGAATAAGGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCAC
CTATCCTGCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAACC
CTTTGGCAAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAATCG
CTATAATGACCCCGAAGCAGGGTTATGCAGCGGAAAAGTTATATACATTCATGT
CCATTTATGTAAAAAATCCTGCTGACCTTGTTTATGTCTTGTCAGTCACCATTTGC
AAAACCATATTTGACCCTCAAAGAGGCTGAATTTGATAAGCAACTTGCTACATAC
TCATAATAAGGAGCTAAATAGAACACGAATGGGAAATACTCAAATGCCAAACTAA
AGAAGATATTGGCCAAAATAAACGCTATACCGAGAGAGAAACTTGATTTTTCAAC
TTCCTAAAACAGTGTTGTTCAAACATTTCTACTTATTTGTACTTACCAGTTGAACC
TACGTTTCCCTAATAAAATGTCTATGGTAAAAAGTTAAAAAATCCTCCTACTTTTG
TTAGATATATTTTTTTGTGTAATTTTGTAATCGTTATGCGGCAGTAATAATATACAT
ATTAATACGAGTTAGGAATCCTGTAGTTCTCATATGCTACGAGGAGGTATTAAAA
GGTGCGTTTCGACAATGCATCTATTGTAGTATATTATTGCTTAATCCAAATGAATA
TTATAAATTTAGGAATTCTTGCTCACATTGATGCAGGAAAAACTTCCGTAACCGA
GAATCTGCTGTTTGCCAGTGGAGCAACGGAAAAGTGCGGCTGTGTGGATAATG
GTGACACCATAACGGACTCTATGGATATAGAGAAACGTAGAGGAATTACTGTTC
GGGCTTCTACGACATCTATTATCTGGAATGGTGTGAAATGCAATATCATTGACAC
TCCGGGACACATGGATTTTATTGCGGAAGTGGAGCGGACATTCAAAATGCTTGA
TGGAGCAGTCCTCATCTTATCCGCAAAGGAAGGCATACAAGCGCAGACAAAGTT
GCTGTTCAATACTTTACAGAAGCTGCAAATCCCGACAATTATATTTATCAATAAGA
TTGACCGAGCCGGTGTGAATTTGGAGCGTTTGTATCTGGATATAAAAGCAAATC
TGTCTCAAGATGTCCTGTTTATGCAAAATGTTGTCGATGGATCGGTTTATCCGGT
TTGCTCCCAAACATATATAAAGGAAGAATACAAAGAATTTGTATGCAACCATGAC
GACAATATATTAGAACGATATTTGGCGGATAGCGAAATTTCACCGGCTGATTATT
GGAATACGATAATCGCTCTTGTGGCAAAAGCCAAAGTCTATCCGGTGCTACATG
GATCAGCAATGTTCAATATCGGTATCAATGAGTTGTTGGACGCCATCACTTCTTT
TATACTTCCTCCGGCATCGGTTTCAAACAGACTTTCATCTTATCTTTATAAGATAG
AGCATGACCCCAAAGGACATAAAAGAAGTTTTCTAAAAATAATTGACGGAAGTCT
GAGACTTCGAGATGTTGTAAGAATCAACGATTCGGAAAAATTCATCAAGATTAAA
AATCTAAAAACTATCAATCAGGGCAGAGAGATAAATGTTGATGAAGTGGGCGCC
AATGATATCGCGATTGTAGAGGATATGGATGATTTTCGAATCGGAAATTATTTAG
GTGCTGAACCTTGTTTGATTCAAGGATTATCGCATCAGCATCCCGCTCTCAAATC
CTCCGTCCGGCCAGACAGGCCCGAAGAGAGAAGCAAGGTGATATCCGCTCTGA
ATACATTGTGGATTGAAGATCCGTCTTTGTCCTTTTCCATAAACTCATATAGTGAT
GAATTGGAAATCTCGTTATATGGTTTAACCCAAAAGGAAATCATACAGACATTGC
TGGAAGAACGATTTTCCGTAAAGGTCCATTTTGATGAGATCAAGACTATATACAA
AGAACGACCTGTAAAAAAGGTCAATAAGATTATTCAGATCGAAGTGCCGCCCAA
CCCTTATTGGGCCACAATAGGGCTGACTCTTGAACCCTTACCGTTAGGGACAGG
GTTGCAAATCGAAAGTGACATCTCCTATGGTTATCTGAACCATTCTTTTCAAAAT
GCCGTTTTTGAAGGGATTCGTATGTCTTGCCAATCCGGGTTACATGGATGGGAA
GTGACTGATCTGAAAGTAACTTTTACTCAAGCCGAGTATTATAGCCCGGTAAGTA
CACCAGCTGATTTCAGACAGCTGACCCCTTATGTCTTTAGGCTGGCCTTGCAAC
AGTCAGGTGTGGACATTCTCGAACCGATGCTCTATTTTGAGTTGCAGATACCCC
AAGCGGCAAGTTCCAAAGCTATTACAGATTTGCAAAAAATGATGTCTGAGATTGA
AGATATCAGTTGCAATAATGAGTGGTGTCATATTAAAGGGAAAGTTCCATTAAAT
ACAAGTAAAGACTATGCATCAGAAGTAAGTTCATACACTAAGGGCTTAGGCATTT
TTATGGTTAAGCCATGCGGGTATCAAATAACAAAAGGCGGTTATTCTGATAATAT
CCGCATGAACGAAAAAGATAAACTTTTATTCATGTTCCAAAAATCAATGTCATCAA
AATAACCACGAGTCATTGGTAACTATCTATGAAACTGTTTGATACTTTTATAGTTG
ATTAAACTTGTTCATGGCATTTGCCTTAATATCATCCGCTATGTCAATGTAGGGTT
TCATAGCTTTGTAGTCGCTGTGTCCCGTCCATTTCATGACCACCTGTGCCGGGA
TTCCGAGAGCCAGCGCATTGCAGATGAATGTCCTTTTTCCTGCATGGGTACTGA
GCAAAGCGTATTTGGGTGTGACTTCATCAATACGTTCATTTCCCTTGTAGTAGGT
TTCCCGTACAGGCTCGTTGATTTCTGCCAGTTCGCCCAGCTCTTTCAGGTAATC
GTTCATCTTCTGGTTGCTGATGACGGGCAGAGCCATGTAATTCTCGAAATGGAT
GTCCTTGTATTTGTCCAGTATGGCTTTGCTGTATTTGTTCAGTTCAATCGTCAGG
CTGTCGGCAGTCTTGACTGTGGTTATTTCGATGTGGTCGGACTTCACATCGCTT
CTTTTCAGATTGCGAACATCCGAATACCGCAAACTCGTAAAGCAGCAGAACAGG
AAAACATCACGCACACGTTCCAGGTATTGCTTATCCTTGGGTATCTGGTAGTCTT
TCAGCTTGTTCAGTTCATCCCAAGTCAGGAAGATTACTTTTTTCGAGGTGGTTTT
CAGTTTCGGTTTGAACGTATCGTATGCAATGTTCTGATGATGTCCTTTCTTGAAG
CTCCAGCGCAGGAACCATTTGAGGAATCCCATTTGCTTGCCGATGGTGCTGTTT
CTCATATCCTTGGTGTCACGCAGGAAGTTGACGTATTCGTTCAATCCAAACTCGT
TGAAATAGTTGAACGTTGCATCCTCCTTGAACTCTTTGAGGTGGTTCCTCACTGC
TGCAAATTTTTCATAGGTGGATGCCGTCCAGTTATTCTGGTTACCGCACTCTTTT
ACAAACTCATCGAACACCTCCCAAAAGCTGACAGGGGCTTCTTCCGGCTGTTCT
TCACTGGTATCTTTCATTCTCATGTTGAAAGCTTCCTTCAACTGTTGGGTCGTTG
GCATGACCTCCTGCACCTCAAATTCCTTGAAAATATTCTGGATTTCGGCATAGTA
TTTCAGCAAGTCCGTATTGATTTCGGCTGCACTTTGCTTTAGCTTGTTGGTACAT
CCGTTCTTTACCCGCTGCTTATCTGCATCCCATTTGGCTACGTCAATCCGGTAG
CCCGTTGTAAACTCGATACGTTGGCTGGCAAAGATGACACGCATACGGATGGGT
ACGTTCTCTACGATTGGCACACCGTTCTTTTTCCGGCTCTCCAATGCAAAAATGA
TGTTGCGCTTGATATTCATAATTGGGTGCGTTTGAAATTCTACACCCAAATATAC
ACCCAATTATTGAGATAGCAAAAGACATTTAGAAACATTTACTTTTACTCTATATT
GTAATTTACACTTGATTATCAGTCGTTTGCAGTCTTATGATATTCTGTGAAAGTAT
AAGTTCGAGAGCCTGTCTCTCCGCAAAAAACGCTGAAAATCAGCAGATTGCAAA
ACAAACACCCTGTTTTACACCCAAGAATGTAAAGTCGGGTGTTTTTGTTTTATTTA
AGATAATACAACCACTACATAATAAAAGAGTAGCGATATTAAAAGAATCCGATGA
GAAAAGACTAATATTTATCTATCCATTCAGTTTGATTTCTCAGGACTTTACATCGT
CCTGAAAGTATTTGTTGCCAGTGTTACAACCAATTAACCAATTCTGATTAGAAAA
ACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCA
TATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCC
ATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAA
TACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACC
ATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCA
GACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAAC
CAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCT
GTTAAAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGC
CAGCGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAAT
GCTGTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACG
GATAAAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCT
GACCATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAAC
AACTCTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGC
CCGACATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAAT
TTAATCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCC
TTGTATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTAT
CTTGTGCAATGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAA
TCGAACTTTTGCTGAGTTGAAGGATCAGCCGCGCAGTTCAACCTGTTGATAGTA
CGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCT
CTCATGTTTAACGAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAA
CGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTA
ATATAAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAA
GAATATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCA
GGGATGTAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGAC
ACAGGAACACTTAACGGCTGACATGGGGCGGCCGCTCAAGTAG
[0234] SEQ ID NO: 78 (RBS e peptídeo líder N-terminal):
GATCACACAACATTTAAAAAATAACATTATGAAAGCACTCGAAAAGAGAT
TCAAAGGTAATATTAACAATAATTTATTTTCA
[0235] SEQ ID NO: 79 (RBS e repórter de luciferase NanoLuc N-terminal):
TCCATCAATTTAAAATTTAAAATAATGGTTTTTACTCTGGAAGATTTTGTT
GGCGATTGGCGTCAGACCGCGGGTTATAATTTGGATCAAGTCCTGGAACAGGG
TGGCGTAAGCTCTCTGTTCCAGAACCTGGGTGTGAGCGTGACGCCGATTCAGC
GCATCGTTCTGTCCGGCGAGAACGGTCTGAAAATTGATATTCATGTGATCATCC
CGTACGAAGGCCTGAGCGGTGACCAAATGGGTCAAATCGAGAAAATCTTTAAAG
TCGTCTACCCAGTTGACGATCACCACTTCAAGGTTATCTTGCATTACGGTACGCT
GGTGATTGATGGTGTGACCCCGAATATGATTGACTATTTCGGCCGTCCGTATGA
AGGCATTGCCGTTTTTGACGGTAAAAAGATCACCGTCACCGGTACCCTGTGGAA
TGGCAATAAGATTATTGACGAGCGTCTGATTAACCCGGACGGCAGCCTGCTGTT
CCGCGTGACCATCAACGGTGTCACGGGTTGGCGTCTGTGCGAGCGCATCCTGG
CA
[0236] SEQ ID NO: 80 (P_BfP2E5):
GATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATT
GGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGT
TTCACTTGAACTTTCAAATAATGTTCTTATATTTCCAGTGTCGAAAGAAACAAAGT
AG
[0237] SEQ ID NO: 81 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAGC
AGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAACG
AGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCGGAGG
ACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAGTCGGT
ATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGCCGGTGTA
AAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAAGATTCAAAA
GTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCCCTTTACGGTG
AAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATATGATTAAAGATA
AGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCATGAGGAGTTCAA
GAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGACTTGATTCTTGATTT
GCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGATATTGCCAATGAATT
TTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCCGTCGTAATCCTCGTAG
CGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAACGGTCGTCTGATGGTATT
GGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGTGACCGGAGCTGTTCAGGA
TTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAGTTTTGGTAAAGGCTTGGTGC
AGCGTCCCATTGATTTGCCGGACGGTTCGATGATCCGTCTGACGGTGGCCCGC
TATTATACGCCTGCCGGACGTTGTATCCAGAAACCTTACGAGAGCATTGAAAAG
TATAATGAAGACCTGATAGACCGTTATAATAAAGGAGAAATGATGAGTGAAGACA
GCATCCACTTTCCGGATTCACTGAAGTTCAAGACTCATAGGTTGGCCCGTACGG
TATATGGTGGCGGAGGGATCATGCCCGATTATTTTGTGCCGATTGATACGACTC
TCTATACTAAATACCATCGTCAGTTGCGTGATAAAGGAGCATTGATGAAAGCTCA
TTTCCATTTTATTGATGCCCATCGTAAAGAATGGCTGGGCAAATACAAGACTTTC
AATGAGTTCTACAAACGTTTTGAAGTGACTCCGGATATGTTGACACAACTGGTTG
CTACCGGCAAGGAGATGGGAGTGGAATATAATGAAGAAGAGTATCAAAAGGCC
CTGCCTCTGCTGAGGTTGCAGATGAAAGCATTGATAGCCCGTGATTTATGGGAT
ATGAATGAATATTATCACGTCATTAATGACGCGAATGAAAGTATCAGGAAAGCGC
TGGAACTGTTGGAGCAACCGGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAG
TCAAGACTTTATATTAACTGCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTG
AAAAACTTGTAGGATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT
TACAATTGGGCTACCTTTTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAAT
TTAAAGTTTCACTTGAACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAA
ACAAAGTAGCCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAA
AAAAAAATAATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACC
GGTGTGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGAC
GTTATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGA
GATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTT
CTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGA
TCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTC
GATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAAC
GTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCC
GCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTGC
TGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGCAAC
GAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAATTAC
GTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCAGTATC
CGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGTGGTGGC
GGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATCCTAACGC
CTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTAAAGCCATC
GGCAAACCAGAATGGATTACCGATCCGGCATACAGTACAGCCCATGCACGACA
GCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGTCACTATTGATA
AACATGAAGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTGTGCACCGGTTTT
AAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAGTGGCAGTGTTGTT
GAAGTGGAACAACCGTTGCGTGGAAAATATCTGACCGTTGGTTGTCCAATGAAA
TTCTCTGCCTTTACGCCGGATATTAAAGCTGCGCCGCTATTAGGTGAACATACC
GCTGCTGTATTGCAGGAGCTGGGTTATAGCGACGATGAAATTGCTGCAATGAAG
CAAAACCACGCCATCTGAGGTTCCTAACCTGCCTGGCATCAACTACCTAAATTAA
TTATCACCCCAAATTAATAACATAAAAATATAATAAAATGAGTAACGACGACAATG
TAGAGTTGACTGATGGCTTTCATGTTTTGATCGATGCCCTGAAAATGAATGACAT
CGATACCATGTATGGTGTTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTG
GCAAGATGACGGTCAGCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTA
TGCAGCTTCTATCGCCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGT
TTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAA
CTGCTTCCCAATGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTT
GCAACAGGGCGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACTG
CAAAGCTTCTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGT
GCAGTTCGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCA
GCAAAACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCA
AACCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCG
CTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCG
CTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGC
ATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCA
CAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTA
CTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTG
GGGCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGG
ACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTT
CCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGAT
GACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTTGT
TCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGCTAA
TGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAACGTCT
TGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTTGCTGC
AGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCGCATTCG
GTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCAGTTACCG
TTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGATCCACAACC
AGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACATGATGATGGA
AGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAACTGAAAGCTGC
TCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAACGCGATGATCGA
TCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTGAACGTTGTAAGTAA
AGTTGGCAAGAAATAAGGTTCCTAAACGACCTGGCATCACCTAAAAATTATAAAT
AAATTAATAAACTTTTATTAAAAAAAAATTACAAAATGAATAATCCACAAACAGGA
CAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTTGGTATTAGCAGTTTTGC
TGATGTGTATGATCTCGGGTGTCCAATATTCCTGGACACTGTACGCTAACCCGG
TTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGTTCAGACGGCTTTCACACTCT
CTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATT
CGGTCCAAGAATTCCATTGATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGAC
CTTCATGGGTATGGTTGACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCC
GGTGCAGGTGTTGGTATCGTTTACGGTATCGCGATGAACACGGCTAACAGATG
GTTCCCGGACAAACGCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTC
TGGGTGTTCTGCCGTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTG
TTGGCGCAGCATTCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGAT
CGCTTTCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGT
TACCGACAAGGATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGT
TCTGTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAAC
AGCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGG
TGTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTT
TCCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTG
TTGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCG
CCATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTT
CTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAA
TTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTT
CATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAA
GAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAATTC
CCCTGGCATCATCTACCTTTATTAATCAACAATCCAAATTATTAATAAAAAAAATT
TAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCG
ATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGG
CGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATT
TGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATAT
GCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAAA
ACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATATGC
TTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTACGA
TACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTGATGC
TCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGTCTATTT
ATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGAGAGGGG
CGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGAGCATGGTC
TGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGAAATCGCCATC
CCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCCGATTACGATTTG
TTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACTGGAGCTTACGGA
ACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCGTACAAAACCAGGCT
ATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGT
TAGCCAGAATACATGAAGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTG
AGGCCATTAAATTGCCACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGG
GAATAATGATGCCGGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCAT
GTTATGCCGGGAGCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGA
GTTCTCATCATAAGGTTCCTAAAAACCCTGGCATCATCTACCTATATTAATCATCA
ACCCAATTTTCATATGTATAAAATTAACAAAATGACAAGTGCCGCTACTGTTACTG
CTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTATTGTTCCTGA
AACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGGTCACTTCCA
GACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGAT
ACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGT
GCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAG
GAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGG
GTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATG
TTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATAT
ATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGC
CAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGAC
GTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCT
TTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGC
TAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTT
AATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGAT
GGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGT
TCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACC
CTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAAC
GTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAA
GCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACA
ATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAA
AACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCA
AGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGT
TTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGA
TTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAG
CCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCA
TTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAA
GAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTA
CCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCT
AAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTAGAAGGCCA
TCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTGGAAT
AATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGCCATCG
GTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCCTGCCAC
TACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTACTCCGCA
AGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGTGATGGAGA
GTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGGAATGACGGA
CTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATACTTTACAAAAG
GCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCCCCACTGCTTCAA
TCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGCTGGTCTTTCTTTAT
CAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGGTAGAATCACTCCGCT
AGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCATCGGTTGATGGTTTTCAA
CGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAATGTAAAACAGGCTGTCAG
TATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTTTGGCATTTGTTCAGTGCAAA
GATAGGAAAATAATGTAATTCGCATTTACCCTTCCCCGAATTAAAGAATAATTTCC
ATAATTCCTTGTATTATCGCTAGAATTCCTTTACTTTTGCATCGTGAATACACAGC
TTTTAACAGAATTTTTAGTTCTAACAATTAAATAATTTAAATTCAATCATTTATGTG
GTTAAGTAATTCATCTATTGGAAGGAAAGTGGTGATGAGTGTCACAGGTATCGC
CCTTGTCCTGTTTCTGACGTTTCACATGGCGATGAACCTTGTTGCGCTCTTCTCG
GAAGATGCTTACAACATGATTTGTGAATTCTTGGGAGCTAACTGGTACGCGTTG
GTTGCAACTGCCGGGCTGGCTGCTCTGTTTGTAATTCACATCATCTACGCTTTCT
GGTTGACCATGCAGAACCGTGCAGCTCGCGGTAGCGAACGTTATGCAGTGAAC
GTTAAACCTAAAACTGTGGAATGGGCATCTCAGAACATGCTTGTCCTGGGTATT
GTCGTTATTGCCGGATTGGCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGT
TTGCCGAAATTATCGGTGTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTG
CCGCTTACATTCGTGAAACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCAT
TTGGTTAGCAGCTTTGTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCA
GACTTTGGGCTGGAGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAA
CATCTACTCTACTTTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTC
GCTATGACTGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTT
CATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCT
CGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAA
GAAGGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGAC
GCCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTAT
ATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGC
AGGGTTATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAA
GGTGTTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTAT
CATTTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAAT
TTTAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCAT
ATTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTT
TCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAA
AGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACA
GACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACATA
AATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGTAAA
TATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATAATGAA
TTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGGAAAGGT
CATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATAGAAATTG
ATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTAACTATCAA
ATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCCATATAAAAT
ATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAAAATTGTTTTTG
AAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTTGCTAAAATGTTA
TTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAGGTAGATATTTCTA
TATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTAAAGTGGATAGCAC
ATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTAAAGAGAGAAAAAAA
TATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACGAAAAACTGTTTACAA
AAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATATGATATAAACAATATT
AGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAAATATTTAACGGCTAAAA
ACAATAGGCCACATGCAACTGTAAATGTTTACGCGGGTACCGACACCGCGGTG
GAGGGGAATTGTGTTACAACCAATTAACCAATTCTGATTAGAAAAACTCATCGAG
CATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCATATTTTTGAA
AAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCATAGGATGG
CAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAATACAACCTA
TTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACCATGAGTGAC
GACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCA
ACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAACCAAACCGTTA
TTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGA
CAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTGCCAGCGCATC
AACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCC
CGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGC
TTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCA
TCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCG
CATCGGGCTTCCCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTAT
CGCGAGCCCATTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGG
CCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACT
GTTTATGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAA
TGTAACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTT
TGCTGAGTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCA
TCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCG
TGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTG
ATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATAC
CATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCC
AGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGA
TATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGG
ATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCA
AGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAA
ACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAAGT
ATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTGCAT
ATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGCCAGT
CATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAAGATAT
CAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAG
GATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAA
ACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGT
CTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTA
AGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTC
TTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTA
GCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGC
TGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAG
GCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGT
GAAACTTTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTA
GCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCT
ACAGTCGCTCGGCGATCGAAGGCTTCGGAAAAAAAAGGCCATCCGTCAGGATG
GCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTTCA
GAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCGATAC
CCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGATTCAAG
TACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTT
ACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCCATTTCCGC
ACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGC
ACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGA
TACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGA
TAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGA
GGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAAT
ACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGG
ATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTC
CGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTT
CTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAAC
GCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAG
CGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACT
TCTTTTTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGG
CTCCCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGA
GGCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCT
CACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTT
TCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAA
TTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTA
AAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCT
GTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACCC
TCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAATAG
CCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAAAGCT
TTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGAGAAGC
CCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACGGCTGAC
ATGGGGCGGCCGCGTAG
[0238] SEQ ID NO: 82 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAATAATAA
AATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATC
TGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAA
TTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCC
TGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGA
GTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGC
GAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGG
CTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGAT
CAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACG
TTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCC
GCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTG
CTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGC
AACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAA
TTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCA
GTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGT
GGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATC
CTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTA
AAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTACAGCCCA
TGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGT
CACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTG
TGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAG
TGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGACCGTTG
GTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCGCCGCTA
TTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCGACGATG
AAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAACCTGCCTGG
CATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATATAATAA
AATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCG
ATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCT
ATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTT
CCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAA
GGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCG
TGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGC
GGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAAT
GGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACA
GCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCC
GGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGA
CCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCT
CCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCA
AGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACGCACA
ATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATTCCTG
CCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCCGCTG
CTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGATCGG
CGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGGCGAC
GAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACAGCAA
CCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTCCCTG
CTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACCGGCG
CTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGATGAC
TGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTTGTTC
GTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGCTAAT
GCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAACGTCT
TGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTTGCT
GCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCGCAT
TCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCAGTT
ACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGATCC
ACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACATGA
TGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAACTG
AAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAACG
CGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTGAA
CGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAAACGACCTGGCATCACC
TAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAAATGAATA
ATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTTG
GTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGGAC
ACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGTTC
AGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTGGT
GGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTGGTGC
GATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTGCTC
TGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGTATC
GCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTTCCG
GTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACTGAT
CAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGGTT
TGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGCC
AGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGC
GAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGT
TAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGC
CTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGT
TCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGT
TACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTC
CCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCG
CATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGAT
ATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAA
AGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAAC
TTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCATTT
GCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATGGT
CAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAATTCCCCTGGC
ATCATCTACCTTTATTAATCAACAATCCAAATTATTAATAAAAAAAATTTAAAAAA
TGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCGATATG
ACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGGCGCA
AGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATTTG
GTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAAG
AGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAATAT
GCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGAAA
AACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATATAT
GCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCCTA
CGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCCTG
ATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGTGT
CTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCAGA
GAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTGGA
GCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGGGA
AATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGCC
GATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCACT
GGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGCG
TACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCAG
GCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGTCGCGC
CGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCGAGAAAT
ATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAAAATCAG
CGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGACCAGCA
TGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGGTTCCTAAAAACCCTGGC
ATCATCTACCTATATTAATCATCAACCCAATTTTCATATGTATAAAATTAACAAA
ATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCC
GATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGA
TCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCC
ATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATG
GGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGC
GCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGAC
CTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTC
TGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTT
CGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACT
ACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATC
CCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCAT
ACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACAT
TGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACA
GATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTAC
TTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAA
AGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTC
CCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACAC
ATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAG
CTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAG
CATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGT
ACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACA
ATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGT
CACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGA
GAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTT
TTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGAT
TTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAG
CCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGC
CATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCT
TAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATA
AGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACT
TTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTAG
AAGGCCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGG
TGTGGAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATT
CAGCCATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGG
CTCCTGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAA
CCCTACTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGA
TAAGTGATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTG
AAGGGAATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCC
GGATACTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGT
AATCCCCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCAT
CGGCTGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTA
CGGGTAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATC
CCATCGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGC
TGAATGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTT
AGTTTGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACC
CTTCCCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCC
TTTACTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAAT
TAAATAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGA
AAGTGGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCAC
ATGGCGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTG
TGAATTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCT
GCTCTGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGT
GCAGCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGG
AATGGGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTG
GCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGT
GTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGA
AACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTT
GTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGG
AGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACT
TTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGC
GCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATC
CGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCA
GGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAAC
ACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTG
GATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTG
CGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGT
TATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTG
TTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCAT
TTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTT
TAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATA
TTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTT
TTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCA
GAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATA
TACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAA
AACATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACA
AAGTAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAA
AATAATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGC
AGGGAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGG
CGATAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATT
ATCCTAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCA
CAATCCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATT
CGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATAT
GGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATG
GCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCA
AAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATG
GCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAA
GAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCG
AGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATA
GTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTT
TACGCGGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAAC
CAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCAT
ATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGA
AAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCG
ATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATA
AGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATG
GCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGC
TCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCC
TGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAAT
CGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCT
GAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGT
GGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAA
GAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCAT
TGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTC
CCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCA
TTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCA
AGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTA
AGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACAT
CAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGA
GTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGT
CAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTA
TCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATA
CGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACC
ATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCC
AGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTG
ATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGAC
GGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGC
TTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGG
AAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGG
ACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACA
GAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGT
GTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAAC
ACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACG
GGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTAC
CGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTG
TCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTT
TTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTA
CGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATG
CGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTT
TCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTA
AACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAA
AGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATAT
AAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACC
ATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGT
CTTTCGACTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTT
CGGAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTC
GAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCA
CCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCG
CTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATA
CCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTT
ACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACG
GGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTG
GCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTAC
ATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTT
CGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGT
TTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCG
GGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTC
GGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTT
CGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACA
ATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCA
AATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGT
TGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTT
TTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTC
CCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAG
GCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCC
TCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTT
GTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACT
TTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCC
AATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAG
GATCAGCTGTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCT
CATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAAC
GAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGC
TCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATC
AGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATAT
AAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATG
TAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGG
AACACTTAACGGCTGACATGGGGCGGCCGCGTAG
[0239] SEQ ID NO: 83 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAATAAAAA
AATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTACGGAA
TTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGACACT
ATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCGCAAG
TTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCTGTTA
ATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATAGTAT
GTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTCAGAC
ATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGTCCGTT
CCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAACCCAAA
AAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCGATGTC
CCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAGAACTG
GTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGACCCCAG
TAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAACATATT
AATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGACGCTTGG
TTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGCATAGTG
CCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTCTTAAGA
TTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTTCACTTC
GGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGACAGTAA
CCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTAAGTATCT
GGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCACGAGACA
GGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGAAAAGATA
CAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAGCTCAGC
TTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGACTATCGCA
CGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAATAAGTTTT
CCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTACAATGG
GTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAGTTAGAC
GTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGAGATCGA
GACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATAACTCTG
GGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGACCGCTTT
GTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTAACGACT
TCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCAGTTCAAT
TGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGAACCGGG
AGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTGTAAGGT
TCCTAACCTGCCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGA
AAAAAAAAAATAATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTT
CACCGGTGTGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGC
GCTGACGTTATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCA
GCTGCGAGATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAA
CAAACGTTCTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGG
AAAAGCTGATCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCC
ATTGATCACATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCT
GATTTTTGGTTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAA
AGCCTATGAAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGG
TTTTTGGGATGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAAC
ACCGGAATGCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAA
AACGGGGCGTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAAC
CTTTGCCGCGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCT
GGAAGAATACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGC
GGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAG
GCTGGGAAACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACT
GGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGC
ATACAGTACAGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAAT
CGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTC
AGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATC
CCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGG
AAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATAT
TAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTG
GGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAG
GTTCCTAAACGACCTGGCATCATCTACCTTTATTAATCAACAATCCAAATTATTA
ATAAAAAAAATTTAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGC
TTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTT
CTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTG
ATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGT
TTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGAT
AAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTC
GCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATC
AACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCT
AAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGA
TGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGC
GGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATG
GCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGC
CACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGT
CACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTC
AATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCT
GCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAG
CAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCG
GACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTG
GTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAA
ACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTA
ATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGG
CAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGG
TTCCTAAGGGTCCTGGCATCAACTACCTACATTAATAACCAACCCAAATGCCTA
ATCAATAAATATTATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTC
TTGGGCAATCGTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATC
TCGGGTGTCCAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCT
TGGCGTTTCTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTC
AAGCTGGTTCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGA
ATTCCATTGATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGG
GTATGGTTGACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCA
GGTGTTGGTATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCC
GGACAAACGCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGT
GTTCTGCCGTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGG
CGCAGCATTCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCG
CTTTCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTT
ACCGACAAGGATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGT
TCTGTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCA
ACAGCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGAT
CGGTGTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTT
TCGTTTCCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATC
AATGCTGTTGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGC
CTTTATCGCCATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTC
TGTTCCCATCGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAAC
TATGGTTTCTTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCT
GGGTGCTGCAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTG
CGATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGG
GCCGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
TAAGGTTCCTAATTCCCCTGGCATCCCCAAAAAATTAATTCATTTTCTCTTTTCA
ACAATTTAAAAAAAATTAAAAAATGAGTAACGACGACAATGTAGAGTTGACTGA
TGGCTTTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACCATGTA
TGGTGTTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGAC
GGTCAGCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTC
TATCGCCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCC
CTGGCTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTT
CCCAATGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAAC
AGGGCGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAA
GCTTCTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGC
AGTTCGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCA
GCAAAACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTT
CAAACCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTC
GCGCTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAA
AGGCGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAA
ACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACA
ACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGA
CGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAA
GGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGG
CTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATC
AAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTG
ACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAA
ACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCC
AATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCT
GGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGACATGC
TGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGT
ATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTG
TTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGC
CGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAA
GGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCC
GTGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCC
AATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAA
ACCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGC
CGTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTA
AAATGCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATCTATGCGTAAA
AAAAATTATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCC
AAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACT
CACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCG
ACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTC
GAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCC
GTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAG
ATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCA
GCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTC
GGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACG
GAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCAC
TACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCC
GTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATT
GTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTT
GGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAAC
ATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGA
CCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATAT
CCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATG
ACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCAC
ACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAA
TGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGA
GGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAG
GTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGAT
GGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTG
AGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTT
TCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAA
CTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAA
GCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCAT
CACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCG
CACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAAAAACCCTGGCATCTTTTC
CATAACAAAAATTAAACCTCCTCCATATGAAAAATAAAAATTATAAAATGACAAG
TGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGT
CGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCC
ACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTAC
GGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCC
TTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAA
TCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAAT
TCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATG
CGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAA
AGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTT
AAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAG
TGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGA
GAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCT
TATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCC
ACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTA
TTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACA
ATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGA
TTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGA
GAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCA
CATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGT
GGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTC
TTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTT
TGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAG
AACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGT
CCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGATTTCAC
CCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAGCCGTT
GCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCATTGT
TTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAAGA
AGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTAC
CAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCT
AAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTAGAAGGCC
ATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTGGA
ATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGCCA
TCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCCTG
CCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTACT
CCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGTGA
TGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGGAA
TGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATACT
TTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCCCC
ACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGCTG
GTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGGTA
GAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCATCG
GTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAATG
TAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTTTG
GCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTCCC
CGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTACT
TTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAATA
ATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGTG
GTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGGC
GATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAATT
CTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTCTG
TTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCAGCT
CGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATGGG
CATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTCTT
CATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTCAT
GATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACATT
CGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGGTT
CCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAAT
AAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGTA
GTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGCC
TGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTG
CCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTC
CCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCCG
CTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATAC
ACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAAA
AAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATGC
AGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTCT
CTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTAT
CGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAGC
ATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTTT
TGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTCC
GACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAAA
GATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACA
GACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACA
TAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGT
AAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATA
ATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGG
AAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATA
GAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTA
ACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCC
ATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAA
AATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTT
GCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAG
GTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTA
AAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTA
AAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACG
AAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATA
TGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAA
ATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGCGG
GTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATTCTG
ATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGAT
TATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCAC
CGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGAC
TCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATC
AAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGC
TTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCA
AAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAG
GCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATGCA
ACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAGG
ATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTA
ACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCATA
AATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAAC
GCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACA
ATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATAC
CCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGT
TTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGA
TTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGAT
GGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTT
CAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCG
ATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGAT
TCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGG
TGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCC
ATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCT
TTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAG
TCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAA
CAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAA
GTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTG
CATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGC
CAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAA
GATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTT
CTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGA
CTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTT
CATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAAT
CTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGA
GCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAG
TTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAA
TTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACAT
CCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACA
TTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAA
ACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGA
CTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAA
AAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTT
TTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATAT
TTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATAT
TTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACC
GAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCG
CAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTA
AGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGA
GCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGC
GCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACG
ATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATC
ACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAG
CTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAG
TTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAAT
GCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGA
GCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAG
TCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTT
GTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTG
TTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTT
ACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTA
AGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTT
TTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGA
CTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTT
CGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTT
AACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAA
ACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTG
TACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTC
ACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAA
TAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAA
AGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGA
GAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACG
GCTGACATGGGGCGGCCGCGTAG
[0240] SEQ ID NO: 84 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAATAAAAA
AATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTACGGAA
TTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGACACT
ATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCGCAAG
TTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCTGTTA
ATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATAGTAT
GTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTCAGAC
ATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGTCCGTT
CCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAACCCAAA
AAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCGATGTC
CCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAGAACTG
GTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGACCCCAG
TAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAACATATT
AATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGACGCTTGG
TTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGCATAGTG
CCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTCTTAAGA
TTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTTCACTTC
GGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGACAGTAA
CCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTAAGTATCT
GGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCACGAGACA
GGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGAAAAGATA
CAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAGCTCAGC
TTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGACTATCGCA
CGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAATAAGTTTT
CCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTACAATGG
GTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAGTTAGAC
GTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGAGATCGA
GACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATAACTCTG
GGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGACCGCTTT
GTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTAACGACT
TCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCAGTTCAAT
TGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGAACCGGG
AGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTGTAAGGT
TCCTAACCTGCCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGA
AAAAAAAAAATAATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTT
CACCGGTGTGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGC
GCTGACGTTATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCA
GCTGCGAGATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAA
CAAACGTTCTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGG
AAAAGCTGATCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCC
ATTGATCACATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCT
GATTTTTGGTTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAA
AGCCTATGAAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGG
TTTTTGGGATGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAAC
ACCGGAATGCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAA
AACGGGGCGTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAAC
CTTTGCCGCGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCT
GGAAGAATACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGC
GGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAG
GCTGGGAAACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACT
GGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGC
ATACAGTACAGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAAT
CGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTC
AGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATC
CCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGG
AAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATAT
TAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTG
GGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAG
GTTCCTAAACGACCTGGCATCATCTACCTTTATTAATCAACAATCCAAATTATTA
ATAAAAAAAATTTAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGC
TTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTT
CTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTG
ATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGT
TTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGAT
AAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTC
GCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATC
AACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCT
AAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGA
TGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGC
GGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATG
GCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGC
CACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGT
CACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTC
AATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCT
GCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAG
CAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCG
GACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTG
GTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAA
ACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTA
ATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGG
CAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGG
TTCCTAAGGGTCCTGGCATCACCTAAAAATTATAAATAAATTAATAAACCTTTTA
ACATAAAAATTAATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCT
TGGGCAATCGTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCT
CGGGTGTCCAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTT
GGCGTTTCTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCA
AGCTGGTTCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAA
TTCCATTGATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGT
ATGGTTGACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGG
TGTTGGTATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGG
ACAAACGCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGT
TCTGCCGTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCG
CAGCATTCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTT
TCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACC
GACAAGGATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCT
GTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACA
GCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCG
GTGTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTC
GTTTCCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAAT
GCTGTTGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTT
TATCGCCATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGT
TCCCATCGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTAT
GGTTTCTTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGG
GTGCTGCAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCG
ATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGC
CGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTA
AGGTTCCTAATTCCCCTGGCATCCCCAAAAAATTAATTCATTTTCTCTTTTCAAC
AATTTAAAAAAAATTAAAAAATGAGTAACGACGACAATGTAGAGTTGACTGATG
GCTTTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACCATGTATG
GTGTTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGG
TCAGCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTA
TCGCCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCC
TGGCTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTC
CCAATGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACA
GGGCGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAA
GCTTCTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGC
AGTTCGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCA
GCAAAACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTT
CAAACCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTC
GCGCTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAA
AGGCGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAA
ACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACA
ACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGA
CGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAA
GGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGG
CTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATC
AAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTG
ACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAA
ACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCC
AATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCT
GGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGACATGC
TGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGT
ATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTG
TTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGC
CGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAA
GGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCC
GTGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCC
AATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAA
ACCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGC
CGTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTA
AAATGCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATCTATGCGTAAA
AAAAATTATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCC
AAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACT
CACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCG
ACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTC
GAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCC
GTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAG
ATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCA
GCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTC
GGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACG
GAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCAC
TACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCC
GTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATT
GTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTT
GGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAAC
ATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGA
CCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATAT
CCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATG
ACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCAC
ACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAA
TGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGA
GGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAG
GTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGAT
GGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTG
AGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTT
TCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAA
CTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAA
GCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCAT
CACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCG
CACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAAAAACCCTGGCATCTTTTC
CATAACAAAAATTAAACCTCCTCCATATGAAAAATAAAAATTATAAAATGACAAG
TGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGT
CGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCC
ACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTAC
GGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCC
TTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAA
TCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAAT
TCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATG
CGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAA
AGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTT
AAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAG
TGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGA
GAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCT
TATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCC
ACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTA
TTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACA
ATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGA
TTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGA
GAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCA
CATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGT
GGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTC
TTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTT
TGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAG
AACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGT
CCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGATTTCAC
CCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAGCCGTT
GCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCATTGT
TTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAAGA
AGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTAC
CAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCT
AAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTAGAAGGCC
ATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTGGA
ATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGCCA
TCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCCTG
CCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTACT
CCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGTGA
TGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGGAA
TGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATACT
TTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCCCC
ACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGCTG
GTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGGTA
GAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCATCG
GTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAATG
TAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTTTG
GCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTCCC
CGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTACT
TTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAATA
ATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGTG
GTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGGC
GATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAATT
CTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTCTG
TTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCAGCT
CGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATGGG
CATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTCTT
CATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTCAT
GATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACATT
CGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGGTT
CCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAAT
AAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGTA
GTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGCC
TGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTG
CCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTC
CCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCCG
CTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATAC
ACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAAA
AAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATGC
AGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTCT
CTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTAT
CGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAGC
ATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTTT
TGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTCC
GACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAAA
GATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACA
GACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACA
TAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGT
AAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATA
ATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGG
AAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATA
GAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTA
ACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCC
ATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAA
AATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTT
GCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAG
GTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTA
AAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTA
AAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACG
AAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATA
TGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAA
ATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGCGG
GTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATTCTG
ATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGAT
TATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCAC
CGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGAC
TCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATC
AAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGC
TTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCA
AAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAG
GCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATGCA
ACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAGG
ATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTA
ACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCATA
AATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAAC
GCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACA
ATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATAC
CCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGT
TTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGA
TTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGAT
GGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTT
CAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCG
ATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGAT
TCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGG
TGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCC
ATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCT
TTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAG
TCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAA
CAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAA
GTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTG
CATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGC
CAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAA
GATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTT
CTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGA
CTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTT
CATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAAT
CTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGA
GCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAG
TTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAA
TTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACAT
CCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACA
TTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAA
ACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGA
CTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAA
AAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTT
TTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATAT
TTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATAT
TTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACC
GAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCG
CAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTA
AGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGA
GCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGC
GCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACG
ATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATC
ACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAG
CTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAG
TTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAAT
GCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGA
GCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAG
TCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTT
GTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTG
TTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTT
ACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTA
AGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTT
TTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGA
CTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTT
CGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTT
AACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAA
ACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTG
TACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTC
ACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAA
TAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAA
AGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGA
GAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACG
GCTGACATGGGGCGGCCGCGTAG
[0241] SEQ ID NO: 85 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCACCTAAAAATTATAAATAAATTAATAAACCACAATACTAAAAATTTAATAA
AATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGT
TCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATT
CCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCT
GCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCC
TGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCG
GTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGT
TCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTT
ACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCT
GGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTG
CCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTA
CACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTT
CCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCA
ATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTC
TTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGG
TCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAG
AACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAAT
CGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCG
CACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTG
GCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAA
CAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGG
CTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGC
AACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCAT
CGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGA
AAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAACCTG
CCTGGCATCATCTACCTATATTAATCATCAACCCAATTTTCATATGTATAAAATT
AACAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGC
GTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTA
CAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTA
ATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATG
CGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAA
AATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTT
GAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTAC
AGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGC
TGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAG
GACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAAC
ACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGAT
TTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTT
GAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCT
TGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGT
GTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTC
CATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGT
TGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTT
CCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTT
CCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATG
ACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAA
GCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGAC
AATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCG
AAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTC
ACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGA
GGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAAA
CGACCTGGCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAA
AATAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAA
GTACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGG
CCGACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAA
GCCGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTG
TCCTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTAT
AATAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCC
AGTCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCT
AAGTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGA
TAACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTAT
ATCGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATG
ATAGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCA
GACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAA
GAACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTA
GACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAA
GGCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAG
GCTCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGAT
CCTTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATT
TGACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGAT
TTAAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGC
TCACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAG
GGAAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTG
GAGCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGAC
GACTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTA
GAATAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAAT
GCTACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCC
TGAGTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTA
TGGAGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATG
AATAACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCC
GACCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAG
CTAACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGG
CAGTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATC
GAACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGAC
TGTAAGGTTCCTAAGGGTCCTGGCATCTAAACTAAAATACAATAACCAAAAATC
ATGTTTAACAAATAAAAATAATAAAATGGATAGCGATACTCTCTCAGGATTATT
GGAAAACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAA
AATTCAATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCA
CGCCTTGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCT
TCCCTAACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGA
GCCACGGCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTT
TACCTCTCCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCA
CCGGCTCAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCT
GCTTGACGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTC
GTTGACTCAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCC
TCCACACTTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCT
CAATCTAGCTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTC
TGATTCTACGGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGG
GTTGCTTAGCTCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTA
GATTCTCAGCAACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGG
TATACTGCTGTGCCGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCA
CCCTGAAACGGAATATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTT
TGGCTCCGGTGATATTGTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCT
CGAGGCCTATGCAATGACAGAGGCAACACATTTGATGAGCTCAAACCCCTTAC
CAGAGGAAGGTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGA
AATGGCGATCCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGA
GAGGTTTGTATAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGA
AGCCAACAAGGCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGT
TACTTTGATACCGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTAT
TAACCGTGGAGGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAA
CGCATCCTGACGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATAT
GGGGAAGAGATTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCG
AAGAGGACATTAAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCA
AAGAGAGTGTTCATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCA
GCGCCGTATCGTCGCACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAATTCC
CCTGGCATCATCTACCTATATTACTAAACAAACCAATTATAATAATTTTAAAAAT
AAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATC
GATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATG
GGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCA
CATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATG
GCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTA
TAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAA
TGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTC
ATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCC
TGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGAT
ATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGG
CGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGA
GCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTT
TCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGT
CTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGA
TAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCA
GGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTT
TACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAA
CGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGT
CGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGGTTCCTAAAATG
CCTGGCATCATCTACCTAAATTAATAAACAACCCATTTATAAACCCTTTAAAATT
AACAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAAAAA
CCCTGGCATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATA
TAATAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAGCTGATTAGAAGGCC
ATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTGGA
ATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGCCA
TCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCCTG
CCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTACT
CCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGTGA
TGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGGAA
TGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATACT
TTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCCCC
ACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGCTG
GTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGGTA
GAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCATCG
GTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAATG
TAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTTTG
GCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTCCC
CGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTACT
TTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAATA
ATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGTG
GTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGGC
GATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAATT
CTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTCTG
TTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCAGCT
CGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATGGG
CATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTCTT
CATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTCAT
GATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACATT
CGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGGTT
CCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAAT
AAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGTA
GTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGCC
TGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTG
CCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTC
CCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCCG
CTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATAC
ACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAAA
AAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATGC
AGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTCT
CTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTAT
CGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAGC
ATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTTT
TGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTCC
GACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAAA
GATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACA
GACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACA
TAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGT
AAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATA
ATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGG
AAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATA
GAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTA
ACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCC
ATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAA
AATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTT
GCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAG
GTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTA
AAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTA
AAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACG
AAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATA
TGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAA
ATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGCGG
GTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATTCTG
ATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGAT
TATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCAC
CGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGAC
TCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATC
AAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGC
TTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCA
AAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAG
GCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATGCA
ACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAGG
ATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTA
ACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCATA
AATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAAC
GCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACA
ATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATAC
CCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGT
TTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGA
TTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGAT
GGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTT
CAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCG
ATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGAT
TCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGG
TGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCC
ATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCT
TTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAG
TCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAA
CAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAA
GTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTG
CATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGC
CAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAA
GATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTT
CTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGA
CTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTT
CATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAAT
CTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGA
GCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAG
TTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAA
TTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACAT
CCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACA
TTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAA
ACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGA
CTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAA
AAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTT
TTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATAT
TTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATAT
TTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACC
GAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCG
CAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTA
AGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGA
GCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGC
GCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACG
ATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATC
ACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAG
CTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAG
TTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAAT
GCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGA
GCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAG
TCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTT
GTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTG
TTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTT
ACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTA
AGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTT
TTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGA
CTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTT
CGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTT
AACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAA
ACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTG
TACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTC
ACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAA
TAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAA
AGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGA
GAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACG
GCTGACATGGGGCGGCCGCGTAG
[0242] SEQ ID NO: 86 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAA
ATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTT
CTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTC
CTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTG
CGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCT
GGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGG
TGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTT
CCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTA
CGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTG
GCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGC
CACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTAC
ACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTC
CCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAA
TTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCT
TTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGT
CGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGA
ACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATC
GGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGC
ACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGG
CAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAAC
AGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGC
TGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCA
ACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATC
GCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAA
AATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAACCTG
CCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAAT
AATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAAACG
ACCTGGCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
TAAGGTTCCTAAGGGTCCTGGCATCAACTACCTAAATTACTTATCAAACCACTT
AGTAGTAAAAAAAATATAACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTG
AAGGCTTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTC
AACTTCTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCAT
GGTGATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTA
CAGTTTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCA
CGATAAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAA
TTTTCGCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAG
AAATCAACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGT
CCGCTAAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGAT
AATGATGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTC
TTGCGGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTT
TATGGCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTG
ATGCCACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGG
AAGTCACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGT
TTTCAATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTT
TTCTGCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGAT
TTAGCAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTG
AGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGA
AGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGC
CACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCC
GGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGA
GCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCAT
AAGGTTCCTAATTCCCCTGGCATCTTTTCCATAACAAAAATTAAACCTCCTCCA
TATGAAAAATAAAAATTATAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTT
CAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGG
ACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGGTCACTTCCAGAC
CATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATAC
AGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTG
CTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAG
GAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAG
GGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGG
ATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATG
ATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACA
ACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCC
AGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAAC
GGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACA
CTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCAC
GTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTT
GTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTA
CAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACAT
GCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGC
TTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCT
TGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTG
CCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACC
GTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAA
GCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCA
AGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGC
TTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATG
CTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATAT
GTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGA
CCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTC
CAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATC
CAGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAA
GTTGTAGGGTTCCTAAAATGCCTGGCATCAACTACCTAAATTAATTATCACCCC
AAATTAATAACATAAAAATATAATAAAATGAGTAACGACGACAATGTAGAGTTG
ACTGATGGCTTTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACC
ATGTATGGTGTTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGA
TGACGGTCAGCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAG
CTTCTATCGCCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCC
GCCCCTGGCTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACT
GCTTCCCAATGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTG
CAACAGGGCGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACT
GCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCT
CGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACT
TGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTG
CTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTAT
CGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTG
GGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTG
AAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCC
TGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAG
TGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACG
GTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACAT
CCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGT
GACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAA
AAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAA
AGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAAC
TACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTG
ACATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGG
TATTGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTA
TCGCTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAAC
CATCTGCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTA
TCTATAAAGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGT
CTGACCCGTGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTT
ATGTTGCCAATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCT
TCCGGCAAACCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCG
AATCTGGCCGTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAA
GGTTCCTAAAAACCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATTAC
AAATGAAAAAAAATAATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAA
ACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTC
AATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCT
TGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTA
ACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACG
GCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCT
CCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCT
CAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGA
CGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACT
CAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACAC
TTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTA
GCTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCT
ACGGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTT
AGCTCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTC
AGCAACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTG
CTGTGCCGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGA
AACGGAATATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTC
CGGTGATATTGTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGC
CTATGCAATGACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGG
AAGGTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGC
GATCCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTT
GTATAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAAC
AAGGCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGA
TACCGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTG
GAGGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCT
GACGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGA
GATTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGAC
ATTAAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGT
GTTCATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTA
TCGTCGCACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAGCTGATTAGAAGG
CCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTG
GAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGC
CATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCC
TGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTA
CTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGT
GATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGG
AATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATA
CTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCC
CCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGC
TGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGG
TAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCAT
CGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAA
TGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTT
TGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTC
CCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTA
CTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAA
TAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGT
GGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGG
CGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAA
TTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTC
TGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCA
GCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATG
GGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTC
TTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTC
ATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACA
TTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGG
TTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAA
TAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGT
AGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGC
CTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTT
GCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATT
CCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCC
GCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATA
CACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAA
AAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATG
CAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTC
TCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTA
TCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAG
CATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTT
TTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTC
CGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAA
AGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATAC
AGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAAC
ATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAG
TAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAAT
AATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGG
GAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGA
TAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCC
TAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAAT
CCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGA
AAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTT
TTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAG
AGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACC
TAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATT
TAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTA
CGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAAT
ATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTAT
AAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGC
GGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATT
CTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAG
GATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACT
CACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCC
GACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTT
ATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAA
GCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCAT
CAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCG
AGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATG
CAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAG
GATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGT
AACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCAT
AAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAAC
GCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACA
ATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATAC
CCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGT
TTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGA
TTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGAT
GGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTT
CAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCG
ATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGAT
TCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGG
TGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCC
ATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCT
TTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAG
TCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAA
CAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAA
GTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTG
CATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGC
CAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAA
GATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTT
CTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGA
CTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTT
CATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAAT
CTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGA
GCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAG
TTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAA
TTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACAT
CCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACA
TTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAA
ACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGA
CTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAA
AAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTT
TTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATAT
TTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATAT
TTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACC
GAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCG
CAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTA
AGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGA
GCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGC
GCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACG
ATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATC
ACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAG
CTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAG
TTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAAT
GCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGA
GCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAG
TCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTT
GTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTG
TTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTT
ACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTA
AGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTT
TTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGA
CTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTT
CGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTT
AACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAA
ACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTG
TACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTC
ACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAA
TAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAA
AGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGA
GAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACG
GCTGACATGGGGCGGCCGCGTAG
[0243] SEQ ID NO: 87 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAA
ATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTT
CTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTC
CTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTG
CGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCT
GGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGG
TGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTT
CCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTA
CGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTG
GCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGC
CACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTAC
ACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTC
CCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAA
TTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCT
TTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGT
CGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGA
ACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATC
GGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGC
ACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGG
CAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAAC
AGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGC
TGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCA
ACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATC
GCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAA
AATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAACCTG
CCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAAT
AATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAAACG
ACCTGGCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
TAAGGTTCCTAATTCCCCTGGCATCAACTACCTAAATTACTTATCAAACCACTT
AGTAGTAAAAAAAATATAACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTG
AAGGCTTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTC
AACTTCTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCAT
GGTGATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTA
CAGTTTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCA
CGATAAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAA
TTTTCGCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAG
AAATCAACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGT
CCGCTAAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGAT
AATGATGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTC
TTGCGGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTT
TATGGCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTG
ATGCCACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGG
AAGTCACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGT
TTTCAATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTT
TTCTGCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGAT
TTAGCAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTG
AGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGA
AGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGC
CACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCC
GGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGA
GCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCAT
AAGGTTCCTAAAATGCCTGGCATCTTTTCCATAACAAAAATTAAACCTCCTCCA
TATGAAAAATAAAAATTATAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTT
CAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGG
ACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGGTCACTTCCAGAC
CATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATAC
AGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTG
CTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAG
GAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAG
GGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGG
ATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATG
ATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACA
ACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCC
AGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAAC
GGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACA
CTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCAC
GTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTT
GTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTA
CAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACAT
GCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGC
TTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCT
TGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTG
CCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACC
GTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAA
GCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCA
AGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGC
TTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATG
CTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATAT
GTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGA
CCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTC
CAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATC
CAGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAA
GTTGTAGGGTTCCTAAAAACCCTGGCATCTAAACTAAAATACAATAACCAAAAA
TCATTACAAATGAAAAAAAATAATAAAATGGATAGCGATACTCTCTCAGGATTA
TTGGAAAACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGG
AAAATTCAATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTT
CACGCCTTGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCAC
CTTCCCTAACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAG
AGCCACGGCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTT
TTACCTCTCCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGC
ACCGGCTCAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACG
CTGCTTGACGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGT
CGTTGACTCAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTC
CTCCACACTTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGC
TCAATCTAGCTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGT
CTGATTCTACGGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTG
GGTTGCTTAGCTCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGG
TAGATTCTCAGCAACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATG
GTATACTGCTGTGCCGACCATTCATCAGATCATATTGGACCGCCACGCGAGC
CACCCTGAAACGGAATATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTC
TTTGGCTCCGGTGATATTGTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTG
CTCGAGGCCTATGCAATGACAGAGGCAACACATTTGATGAGCTCAAACCCCTT
ACCAGAGGAAGGTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAA
GAAATGGCGATCCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAG
GAGAGGTTTGTATAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAACCCA
GAAGCCAACAAGGCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCG
GTTACTTTGATACCGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTT
ATTAACCGTGGAGGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTT
AACGCATCCTGACGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAAT
ATGGGGAAGAGATTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAAC
CGAAGAGGACATTAAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGC
CAAAGAGAGTGTTCATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATT
CAGCGCCGTATCGTCGCACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAGCT
GATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCT
TTTAGGTGTGGAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCAC
CTTATTCAGCCATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGA
TAGCGGCTCCTGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCG
GGCAAACCCTACTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCAC
TTAGGATAAGTGATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGT
GTCCTGAAGGGAATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAAT
CTTATCCGGATACTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGG
CGTATGTAATCCCCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTT
TCAGCATCGGCTGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGT
ATTCCTACGGGTAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGT
GTACATCCCATCGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGC
TGAGGCTGAATGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGT
TTCATTTAGTTTGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGC
ATTTACCCTTCCCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTA
GAATTCCTTTACTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTC
TAACAATTAAATAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTG
GAAGGAAAGTGGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGAC
GTTTCACATGGCGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACA
TGATTTGTGAATTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGG
CTGGCTGCTCTGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAG
AACCGTGCAGCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAA
CTGTGGAATGGGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCC
GGATTGGCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATT
ATCGGTGTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACAT
TCGTGAAACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGC
AGCTTTGTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGG
GCTGGAGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTAC
TCTACTTTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATG
ACTGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCA
GCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCA
GAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAA
GGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACG
CCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTAT
ATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAG
CAGGGTTATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAA
AAGGTGTTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAG
GTATCATTTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCA
ACAAATTTTAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTA
TTTTCATATTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGC
ATACCTTTTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTG
GACTCAGAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTT
GCTGATATACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTT
CTCAAAAAACATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATA
ATGAACAAAGTAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACA
TAGAAAAAATAATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAAT
AGGTGCAGGGAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTG
TAACGGCGATAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCT
TAAATTATCCTAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCC
TAGCCACAATCCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAA
TATAATTCGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTG
GAATATGGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTG
TTAATGGCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCC
ATCCAAAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAA
AAATGGCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTA
ACAAAGAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACA
TGCGAGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTT
AATAGTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAA
TGTTTACGCGGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAAT
TAACCAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTAT
TCATATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAG
GAGAAAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTC
TGCGATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAA
AATAAGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGA
ATGGCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTAC
GCTCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGC
GCCTGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAG
GAATCGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCA
CCTGAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGC
AGTGGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCG
GAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACA
TCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGG
CTTCCCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAG
CCCATTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGG
AGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTA
TGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTA
ACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGC
TGAGTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATC
CGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGT
GTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTG
ATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATA
CCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTAC
CCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGC
TGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAG
ACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCT
GCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGAT
GGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCC
GGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTA
CAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAA
GTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGA
ACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGA
CGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGT
ACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGT
TGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTG
TTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACAT
TACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGA
TGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTC
TTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGT
TAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGG
AAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAAT
ATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAA
CCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCA
GTCTTTCGACTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGC
TTCGGAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTT
CGAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTC
ACCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACC
GCTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCAT
ACCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTT
TACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAAC
GGGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTT
GGCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTA
CATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCT
TCGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAG
TTTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCC
GGGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTT
CGGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCT
TCGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTAC
AATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTC
AAATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCG
TTGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTT
TTTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTC
CCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAG
GCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCC
TCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTT
GTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACT
TTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCC
AATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAG
GATCAGCTGTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCT
CATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAAC
GAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGC
TCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATC
AGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATAT
AAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATG
TAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGG
AACACTTAACGGCTGACATGGGGCGGCCGCGTAG
[0244] SEQ ID NO: 88 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCATCTACCTTCATTATTAATCATTCCAATTGTATCACTTAAAAATATAAAAA
AATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATC
TGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAA
TTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCC
TGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGA
GTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGC
GAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGG
CTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGAT
CAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACG
TTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCC
GCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTG
CTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGC
AACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAA
TTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCA
GTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGT
GGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATC
CTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTA
AAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTACAGCCCA
TGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGT
CACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTG
TGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAG
TGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGACCGTTG
GTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCGCCGCTA
TTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCGACGATG
AAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAACCTGCCTGG
CATCAACTACCTAAATTACTTATCAAACCACTTAGTAGTAAAAAAAATATAACAA
AATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCGATAT
GACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGGCG
CAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATTT
GGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAAT
ATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGA
AAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATAT
ATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCC
TACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCC
TGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGT
GTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCA
GAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTG
GAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGG
GAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGC
CGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCAC
TGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGC
GTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCA
GGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGTCGCG
CCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCGAGAAA
TATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAAAATCA
GCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGACCAGC
ATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGGTTCCTAAACGACCTGG
CATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAATAAAAA
AATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTACGGAA
TTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGACACT
ATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCGCAAG
TTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCTGTTA
ATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATAGTAT
GTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTCAGAC
ATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGTCCGTT
CCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAACCCAAA
AAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCGATGTC
CCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAGAACTG
GTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGACCCCAG
TAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAACATATT
AATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGACGCTTGG
TTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGCATAGTG
CCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTCTTAAGA
TTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTTCACTTC
GGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGACAGTAA
CCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTAAGTATCT
GGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCACGAGACA
GGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGAAAAGATA
CAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAGCTCAGC
TTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGACTATCGCA
CGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAATAAGTTTT
CCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTACAATGG
GTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAGTTAGAC
GTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGAGATCGA
GACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATAACTCTG
GGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGACCGCTTT
GTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTAACGACT
TCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCAGTTCAAT
TGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGAACCGGG
AGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTGTAAGGT
TCCTAAGGGTCCTGGCATCCCCAAAAAATTAATTCATTTTCTCTTTTCCCTAAC
CCTTAAAATATAATAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCT
TTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTG
TTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCA
GCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCG
CCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGG
CTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAA
TGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGG
CGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTT
CTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTT
CGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAA
AACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAA
CCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCG
CTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGG
CGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACC
GGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACC
ATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGT
TTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGC
AAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTA
ACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAA
GTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGAC
GCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAAC
TGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAA
TTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGG
TTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGACATGCTG
AAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTAT
GGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTT
GAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCC
GTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAG
GTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCA
ATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAA
CCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCC
GTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAA
TTCCCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATACTACATGTATA
AAATTAAAAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCA
AAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACT
CACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCG
ACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTC
GAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCC
GTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAG
ATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCA
GCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTC
GGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACG
GAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCAC
TACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCC
GTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATT
GTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTT
GGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAAC
ATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGA
CCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATAT
CCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATG
ACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCAC
ACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAA
TGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGA
GGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAG
GTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGAT
GGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTG
AGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTT
TCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAA
CTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAA
GCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCAT
CACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCG
CACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAAAATGCCTGGCATCAACTA
CCTCAATTAATAATCAAACCATCTGAACAATGAATAAATTTAAAAAAATGACAAG
TGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGT
CGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCC
ACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTAC
GGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCC
TTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAA
TCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAAT
TCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATG
CGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAA
AGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTT
AAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAG
TGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGA
GAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCT
TATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCC
ACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTA
TTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACA
ATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGA
TTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGA
GAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCA
CATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGT
GGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTC
TTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTT
TGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAG
AACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGT
CCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGATTTCAC
CCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAGCCGTT
GCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCATTGT
TTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAAGA
AGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTAC
CAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCT
AAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAAAAACCCTGGCATCA
CCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAAATGAA
TAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACT
TGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGG
ACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGT
TCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTG
GTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTGGT
GCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTG
CTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGT
ATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTT
CCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACT
GATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCG
GTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTG
GCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCT
GGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTC
CGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCA
GCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCT
GTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCC
GTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTT
TCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATC
GCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCG
ATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCA
AAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCA
ACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCAT
TTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATG
GTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAGCTGATTAGA
AGGCCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGT
GTGGAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTC
AGCCATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGC
TCCTGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAAC
CCTACTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGAT
AAGTGATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGA
AGGGAATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCC
GGATACTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGT
AATCCCCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCAT
CGGCTGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTA
CGGGTAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATC
CCATCGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGC
TGAATGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTT
AGTTTGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACC
CTTCCCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCC
TTTACTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAAT
TAAATAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGA
AAGTGGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCAC
ATGGCGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTG
TGAATTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCT
GCTCTGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGT
GCAGCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGG
AATGGGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTG
GCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGT
GTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGA
AACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTT
GTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGG
AGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACT
TTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGC
GCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATC
CGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCA
GGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAAC
ACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTG
GATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTG
CGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGT
TATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTG
TTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCAT
TTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTT
TAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATA
TTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTT
TTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCA
GAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATA
TACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAA
AACATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACA
AAGTAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAA
AATAATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGC
AGGGAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGG
CGATAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATT
ATCCTAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCA
CAATCCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATT
CGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATAT
GGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATG
GCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCA
AAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATG
GCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAA
GAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCG
AGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATA
GTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTT
TACGCGGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAAC
CAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCAT
ATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGA
AAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCG
ATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATA
AGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATG
GCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGC
TCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCC
TGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAAT
CGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCT
GAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGT
GGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAA
GAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCAT
TGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTC
CCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCA
TTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCA
AGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTA
AGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACAT
CAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGA
GTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGT
CAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTA
TCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATA
CGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACC
ATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCC
AGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTG
ATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGAC
GGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGC
TTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGG
AAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGG
ACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACA
GAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGT
GTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAAC
ACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACG
GGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTAC
CGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTG
TCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTT
TTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTA
CGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATG
CGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTT
TCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTA
AACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAA
AGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATAT
AAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACC
ATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGT
CTTTCGACTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTT
CGGAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTC
GAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCA
CCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCG
CTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATA
CCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTT
ACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACG
GGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTG
GCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTAC
ATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTT
CGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGT
TTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCG
GGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTC
GGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTT
CGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACA
ATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCA
AATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGT
TGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTT
TTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTC
CCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAG
GCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCC
TCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTT
GTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACT
TTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCC
AATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAG
GATCAGCTGTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCT
CATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAAC
GAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGC
TCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATC
AGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATAT
AAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATG
TAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGG
AACACTTAACGGCTGACATGGGGCGGCCGCGTAG
[0245] SEQ ID NO: 89 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCATCTACCTTCATTATTAATCATTCCAATTGTATCACTTAAAAATATAAAAA
AATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATC
TGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAA
TTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCC
TGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGA
GTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGC
GAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGG
CTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGAT
CAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACG
TTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCC
GCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTG
CTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGC
AACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAA
TTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCA
GTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGT
GGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATC
CTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTA
AAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTACAGCCCA
TGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGT
CACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTG
TGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAG
TGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGACCGTTG
GTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCGCCGCTA
TTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCGACGATG
AAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAACCTGCCTGG
CATCTACCCCTAACAACCCATAAATTTAACTTTAAAAAATTTTTAAATATAATAA
AATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTACGGAA
TTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGACACT
ATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCGCAAG
TTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCTGTTA
ATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATAGTAT
GTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTCAGAC
ATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGTCCGTT
CCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAACCCAAA
AAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCGATGTC
CCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAGAACTG
GTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGACCCCAG
TAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAACATATT
AATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGACGCTTGG
TTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGCATAGTG
CCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTCTTAAGA
TTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTTCACTTC
GGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGACAGTAA
CCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTAAGTATCT
GGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCACGAGACA
GGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGAAAAGATA
CAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAGCTCAGC
TTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGACTATCGCA
CGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAATAAGTTTT
CCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTACAATGG
GTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAGTTAGAC
GTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGAGATCGA
GACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATAACTCTG
GGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGACCGCTTT
GTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTAACGACT
TCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCAGTTCAAT
TGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGAACCGGG
AGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTGTAAGGT
TCCTAAACGACCTGGCATCATCTACCTATATTACTAAACAAACCAATTATAATA
ATTTTAAAAATAAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCT
TATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTC
TTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGAT
GATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTT
TATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAA
AAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCG
CCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCA
ACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTA
AAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGAT
GGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCG
GATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGG
CCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCC
ACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTC
ACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCA
ATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTG
CGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGC
AGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGG
ACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGG
TGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAA
CTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAA
TCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGC
AACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGGTT
CCTAAGGGTCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATCTATGCG
TAAAAAAAATTATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGT
CGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATC
TCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTC
TCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACAC
CGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGG
CGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGA
TTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAG
AAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCT
GGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGC
GACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTG
GCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTC
ATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGG
TGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCT
CGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCA
ACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGT
GCCGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACG
GAATATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGT
GATATTGTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTAT
GCAATGACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAG
GTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGAT
CCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTA
TAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAG
GCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATAC
CGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGA
GGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGA
CGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGA
TTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATT
AAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTT
CATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCG
TCGCACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAATTCCCCTGGCATCCC
CAAAAAATTAATTCATTTTCTCTTTTCAACAATTTAAAAAAAATTAAAAAATGAGT
AACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCGATGCCCT
GAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCTATCACGA
ACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTTCCGTCAC
GAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAAGGAAAACC
TGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCGTGACTTCC
CTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGCGGTTCCAG
TGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAATGGATCAGA
TGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACAGCATCAAA
GACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCCGGACGTC
CAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGACCATTTCT
GTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCTCCGGCACA
GATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCAAGAACGCC
AAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACGCACAATGCGACG
ACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATTCCTGCCAATGGG
TATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCCGCTGCTGCAACC
CGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGATCGGCGCTCGTC
TGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGGCGACGAACTGAA
GAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACAGCAACCAGCCTA
TCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTCCCTGCTCCGCAAA
GCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACCGGCGCTCTGAAAG
CCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGATGACTGCCGAAAC
CCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTTGTTCGTGACTTCA
TGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGCTAATGCACTCGAC
AACACTCGTATGATTGTTGACATGCTGAAACCACGCAAACGTCTTGACTCCGG
TACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTTGCTGCAGCTGCT
GTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCGCATTCGGTTTCTC
CGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCAGTTACCGTTATCA
TCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGATCCACAACCAGGC
GTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACATGATGATGGAAGC
ATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAACTGAAAGCTGCTC
TGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAACGCGATGATCGA
TCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTGAACGTTGTAAGT
AAAGTTGGCAAGAAATAAGGTTCCTAAAATGCCTGGCATCAACTACCTCAATTA
ATAATCAAACCATCTGAACAATGAATAAATTTAAAAAAATGACAAGTGCCGCTA
CTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTA
TTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCCACATGGTG
GGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTT
TTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGT
CGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCA
ATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGA
TTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTG
CCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTT
AGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTA
CCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTG
GGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACC
TCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTT
GAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGA
TGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAA
CTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGAC
CAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATG
ATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGA
TCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATT
CAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGA
CCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCC
ACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGG
GCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGC
TAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCA
GAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGG
CAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGC
TCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGT
GTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAA
GGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAG
CCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCG
CTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGC
AGAAATAAGAGTAAGTTGTAGGGTTCCTAAAAACCCTGGCATCATCTACCTATA
TTATTCATCAAACCATTTGATCCAACATTAAATATTAAAAAATGAATAATCCACA
AACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTTGGTATTAG
CAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGGACACTGTAC
GCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGTTCAGACGG
CTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTGGTGGTTAC
TTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTGGTGCGATGGT
TCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTGCTCTGTATG
CTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGTATCGCGATG
AACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTTCCGGTTTCA
CCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACTGATCAGCTC
CGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGGTTTGATCA
TGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGCCAGCAA
GGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGGCGAAAT
GCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCGTTAACT
TTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGCCTCGG
TCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGTTCAATG
GTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGTTACAAA
ACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTCCCGAC
GATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCGCATTCT
TCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGATATTTTC
GGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAAAGCAAC
TGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAACTTCGGA
TGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCATTTGCTCTG
GCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATGGTCAAATT
GTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAGCTGATTAGAAGGCCAT
CCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTGGAAT
AATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGCCATC
GGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCCTGCC
ACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTACTCC
GCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGTGATG
GAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGGAATG
ACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATACTTT
ACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCCCCAC
TGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGCTGGT
CTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGGTAGA
ATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCATCGGT
TGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAATGTAA
AACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTTTGGCA
TTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTCCCCGA
ATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTACTTTT
GCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAATAATT
TAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGTGGTG
ATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGGCGAT
GAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAATTCTT
GGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTCTGTTT
GTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCAGCTCG
CGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATGGGCAT
CTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTCTTCAT
TTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTCATGAT
TTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACATTCG
GATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGGTTCC
ACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAATAAA
ATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGTAGTT
CTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGCCTGA
TAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTGCC
CTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTCCC
GTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCCGCT
CGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATACAC
CAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAAAAA
GGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATGCAG
CGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTCTCT
CTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTATCG
TAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAGCAT
TTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTTTTG
CATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTCCGA
CCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAAAGA
TGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACAGA
CCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACATAA
ATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGTAAA
TATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATAATG
AATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGGAAA
GGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATAGA
AATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTAAC
TATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCCAT
ATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAAAA
TTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTTGC
TAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAGGT
AGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTAAA
GTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTAAA
GAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACGAA
AAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATATG
ATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAAAT
ATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGCGGGT
ACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATTCTGAT
TAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGATTA
TCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCG
AGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGACTC
GTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAA
GTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGCTT
ATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCAAA
ATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGC
GAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATGCAAC
CGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAGGATA
TTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTAACC
ATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCATAAAT
TCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAACGCT
ACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACAATC
GATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATACCCA
TATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGTTTC
CCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGACAG
TTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGATTT
TGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAGGA
TCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGATGG
CCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTTCA
GAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCGAT
ACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGATTC
AAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGGTG
TGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCCATT
TCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCTTTG
TATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAGTCG
GTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAACAG
TGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGATGAT
GCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAAGTA
TGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTGCAT
ATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGCCAG
TCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAAGAT
ATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTTCTA
CAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGACTT
TCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTTCAT
TCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAATCTG
CCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGAGCTT
CGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGT
TCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAATTAT
TTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACATCCG
GTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACATTAT
TTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAAACAA
AACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGACTGA
GCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAAAAAA
GGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAG
GAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCA
GGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTG
CTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAG
GATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGA
TATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGAC
GGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAG
CAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTC
TACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATA
CACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACG
AGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGA
TAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGT
GCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAA
TCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGT
GGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTC
ACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTG
CGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGC
AGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAG
GTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCT
TCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGC
GGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCAT
CAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACA
CTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAA
TAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAA
AGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTGTACGT
ACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCACGTACT
AAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACCCTCAT
GGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTCACGT
ACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAATAGC
CTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAAAGCT
TTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGAGAAG
CCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACGGCTG
ACATGGGGCGGCCGCGTAG
[0246] SEQ ID NO: 90 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAATAATAA
AATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATC
TGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAA
TTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCC
TGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGA
GTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGC
GAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGG
CTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGAT
CAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACG
TTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCC
GCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTG
CTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGC
AACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAA
TTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCA
GTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGT
GGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATC
CTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTA
AAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTACAGCCCA
TGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGT
CACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTG
TGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAG
TGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGACCGTTG
GTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCGCCGCTA
TTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCGACGATG
AAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAACCTGCCTGG
CATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATATAATAA
AATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTTGATCG
ATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCATTCCT
ATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTACAGCTT
CCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACATCGAA
GGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAACGGCG
TGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTTGAGC
GGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAAGAAAT
GGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTATCAACA
GCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTGTATCC
GGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGTCAGA
CCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCCAGCT
CCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTGATCA
AGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACGCACA
ATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATTCCTG
CCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCCGCTG
CTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGATCGG
CGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGGCGAC
GAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACAGCAA
CCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTCCCTG
CTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACCGGCG
CTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGATGAC
TGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTTGTTC
GTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGCTAAT
GCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAACGTCT
TGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTTGCT
GCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCGCAT
TCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCAGTT
ACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGATCC
ACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACATGA
TGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAACTG
AAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAACG
CGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTGAA
CGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAAACGACCTGGCATCAAC
TACCTACATTAATAACCAACCCAAATGCCTAATCAATAAATATTATAAAATGAAT
AATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACTT
GGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGGA
CACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGTT
CAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTGG
TGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTGGTG
CGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTGCT
CTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGTAT
CGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTTCC
GGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACTGA
TCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCGGT
TTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTGGC
CAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCTGG
CGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTCCG
TTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCAGC
CTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCTGT
TCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCCGT
TACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTTTC
CCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATCG
CATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCGAT
ATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCAAA
AGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCAAC
TTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCATTT
GCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATGGT
CAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAATTCCCCTGGC
ATCAACTACCTAAATTACTTATCAAACCACTTAGTAGTAAAAAAAATATAACAAA
ATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCGATAT
GACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGGCG
CAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATTT
GGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAAT
ATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGA
AAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATAT
ATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCC
TACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCC
TGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGT
GTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCA
GAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTG
GAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGG
GAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGC
CGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCAC
TGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGC
GTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCA
GGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGTCGCG
CCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCGAGAAA
TATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAAAATCA
GCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGACCAGC
ATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGGTTCCTAAAAACCCTGG
CATCTTTTCCATAACAAAAATTAAACCTCCTCCATATGAAAAATAAAAATTATAA
AATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATC
CGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGG
ATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTC
CATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAAT
GGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGG
CGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGA
CCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTT
CTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCT
TCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAAC
TACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAAT
CCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCA
TACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACA
TTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGAC
AGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTA
CTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCA
AAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTT
CCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACA
CATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAA
GCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAA
GCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGG
TACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGAC
AATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACG
TCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAG
AGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTT
TTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGA
TTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAA
GCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCG
CCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTC
TTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGAT
AAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAAC
TTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTA
GAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAG
GTGTGGAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTAT
TCAGCCATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCG
GCTCCTGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAA
ACCCTACTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGG
ATAAGTGATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCT
GAAGGGAATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTAT
CCGGATACTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTAT
GTAATCCCCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGC
ATCGGCTGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCT
ACGGGTAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACAT
CCCATCGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGG
CTGAATGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATT
TAGTTTGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTAC
CCTTCCCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTC
CTTTACTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAA
TTAAATAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGG
AAAGTGGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCA
CATGGCGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTT
GTGAATTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGC
TGCTCTGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCG
TGCAGCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTG
GAATGGGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATT
GGCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGG
TGTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTG
AAACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTT
TGTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTG
GAGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTA
CTTTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTG
GCGCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCA
TCCGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAG
CAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGA
ACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGT
TGGATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCG
TGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGG
GTTATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGG
TGTTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATC
ATTTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAA
TTTTAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTC
ATATTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATAC
CTTTTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACT
CAGAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTG
ATATACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCA
AAAAACATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGA
ACAAAGTAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGA
AAAAATAATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGG
TGCAGGGAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAA
CGGCGATAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAA
ATTATCCTAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAG
CCACAATCCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATAT
AATTCGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAA
TATGGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTA
ATGGCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCAT
CCAAAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAA
ATGGCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAAC
AAAGAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATG
CGAGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAA
TAGTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATG
TTTACGCGGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTA
ACCAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTC
ATATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGA
GAAAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTG
CGATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAA
TAAGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAAT
GGCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACG
CTCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGC
CTGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGA
ATCGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACC
TGAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAG
TGGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGA
AGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATC
ATTGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCT
TCCCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCC
CATTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAG
CAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATG
TAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAAC
ATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTG
AGTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCC
GTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTG
TATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGA
TACGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATAC
CATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACC
CAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCT
GATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGA
CGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTG
CTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATG
GAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCG
GACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTAC
AGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAG
TGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAA
CACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGAC
GGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTA
CCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTT
GTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGT
TTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATT
ACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGAT
GCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCT
TTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTT
AAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGA
AAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATA
TAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAAC
CATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAG
TCTTTCGACTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCT
TCGGAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTC
GAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCA
CCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCG
CTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATA
CCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTT
ACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACG
GGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTG
GCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTAC
ATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTT
CGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGT
TTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCG
GGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTC
GGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTT
CGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACA
ATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCA
AATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGT
TGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTT
TTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTC
CCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAG
GCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCC
TCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTT
GTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACT
TTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCC
AATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAG
GATCAGCTGTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCT
CATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAAC
GAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGC
TCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATC
AGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATAT
AAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATG
TAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGG
AACACTTAACGGCTGACATGGGGCGGCCGCGTAG
[0247] SEQ ID NO: 91 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAA
ATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTT
CTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTC
CTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTG
CGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCT
GGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGG
TGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTT
CCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTA
CGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTG
GCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGC
CACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTAC
ACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTC
CCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAA
TTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCT
TTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGT
CGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGA
ACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATC
GGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGC
ACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGG
CAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAAC
AGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGC
TGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCA
ACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATC
GCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAA
AATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAACCTG
CCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAAT
AATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAAACG
ACCTGGCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
TAAGGTTCCTAATTCCCCTGGCATCAACTACCTAAATTACTTATCAAACCACTT
AGTAGTAAAAAAAATATAACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTG
AAGGCTTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTC
AACTTCTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCAT
GGTGATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTA
CAGTTTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCA
CGATAAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAA
TTTTCGCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAG
AAATCAACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGT
CCGCTAAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGAT
AATGATGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTC
TTGCGGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTT
TATGGCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTG
ATGCCACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGG
AAGTCACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGT
TTTCAATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTT
TTCTGCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGAT
TTAGCAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTG
AGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGA
AGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGC
CACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCC
GGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGA
GCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCAT
AAGGTTCCTAAAAACCCTGGCATCTTTTCCATAACAAAAATTAAACCTCCTCCA
TATGAAAAATAAAAATTATAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTT
CAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGG
ACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGGTCACTTCCAGAC
CATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATAC
AGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTG
CTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAG
GAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAG
GGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGG
ATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATG
ATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACA
ACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCC
AGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAAC
GGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACA
CTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCAC
GTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTT
GTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTA
CAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACAT
GCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGC
TTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCT
TGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTG
CCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACC
GTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAA
GCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCA
AGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGC
TTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATG
CTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATAT
GTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGA
CCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTC
CAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATC
CAGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAA
GTTGTAGGGTTCCTAGCTGATTAGAAGGCCATCCTGACGGATGGCCTTTTTTT
TGACTCTGTTGTGTCTTCTTTTAGGTGTGGAATAATTTTCCAACCATCACTTTAT
CTGTCTCCCGAACAGCACCTTATTCAGCCATCGGTTCACATACACGTTCACGA
AAGCACATCCTACTCCGATAGCGGCTCCTGCCACTACATCACTGGGATAGTG
CACCCCTTGGTTCATCCGGGCAAACCCTACTCCGCAAGCCCATACGGCTGAA
GGGGCGATAACATACCACTTAGGATAAGTGATGGAGAGTGAGGTGGCTAAAG
AAAAAGCTGCCGCAGTGTGTCCTGAAGGGAATGACGGACTATCGGCATCCGG
TGCTCCGTATGCATGAATCTTATCCGGATACTTTACAAAAGGCCGGTCACGAC
CTATTATATGTTTGGCGGCGTATGTAATCCCCACTGCTTCAATCACACTGGTTC
CTATGTAAATGGCATCTTTCAGCATCGGCTGGTCTTTCTTTATCAATGCATAGA
GTCCCATGGCTGTAGGTATTCCTACGGGTAGAATCACTCCGCTAGCGGACAA
TCCGCGGCTCAGTCCGTGTACATCCCATCGGTTGATGGTTTTCAACGTGTTGA
TGTCTATATTCTGTGCGCTGAGGCTGAATGTAAAACAGGCTGTCAGTATAAGA
AAAATAATCCTTTGGCGTTTCATTTAGTTTGGCATTTGTTCAGTGCAAAGATAG
GAAAATAATGTAATTCGCATTTACCCTTCCCCGAATTAAAGAATAATTTCCATAA
TTCCTTGTATTATCGCTAGAATTCCTTTACTTTTGCATCGTGAATACACAGCTTT
TAACAGAATTTTTAGTTCTAACAATTAAATAATTTAAATTCAATCATTTATGTGGT
TAAGTAATTCATCTATTGGAAGGAAAGTGGTGATGAGTGTCACAGGTATCGCC
CTTGTCCTGTTTCTGACGTTTCACATGGCGATGAACCTTGTTGCGCTCTTCTC
GGAAGATGCTTACAACATGATTTGTGAATTCTTGGGAGCTAACTGGTACGCGT
TGGTTGCAACTGCCGGGCTGGCTGCTCTGTTTGTAATTCACATCATCTACGCT
TTCTGGTTGACCATGCAGAACCGTGCAGCTCGCGGTAGCGAACGTTATGCAG
TGAACGTTAAACCTAAAACTGTGGAATGGGCATCTCAGAACATGCTTGTCCTG
GGTATTGTCGTTATTGCCGGATTGGCTCTTCATTTTGCCAATTTCTGGTACAAA
ATGCAGTTTGCCGAAATTATCGGTGTTCATGATTTGGGCGCATTCGGTCCTAC
AGACGGTGCCGCTTACATTCGTGAAACATTCGGATGCCCTGTATTTACAGTGC
TTTACCTCATTTGGTTAGCAGCTTTGTGGTTCCACCTGACTCACGGATTCTGG
AGTGCTTTGCAGACTTTGGGCTGGAGCAATAAAATCTGGTTCGAGCGTTGGAA
GACTATTGGTAACATCTACTCTACTTTGGTAGTTCTTGGTTTTGCAGCAGTAGT
CGTTATCTACTTCGCTATGACTGGCGCGCCTGATAGGTGGGCTGCCCTTCCT
GGTTGGCTTGGTTTCATCAGCCATCCGCTTGCCCTCATCTGTTACGCCGGCG
GTAGCCGGCCAGCCTCGCAGAGCAGGATTCCCGTTGAGCACCGCCAGGTGC
GAATAAGGGACAGTGAAGAAGGAACACCCGCTCGCGGGTGGGCCTACTTCAC
CTATCCTGCCCGGCTGACGCCGTTGGATACACCAAGGAAAGTCTACACGAAC
CCTTTGGCAAAATCCTGTATATCGTGCGAAAAAGGATGGATATACCGAAAAAA
TCGCTATAATGACCCCGAAGCAGGGTTATGCAGCGGAAAAGCGGGATTAAAA
GTCGGGGATTGGTGAACAAAAAGGTGTTTCTCTCTTTAAGAGAAATATCGTTTT
GCTAAACAGTTGATATTGAGGTATCATTTTATCGTAAAAGACATTTTTGCTCAA
CAATTGCTTGACGGAAATCAACAAATTTTAGCATTTTGTAAAAAAGTCGCTATA
TAATTTGGTGAATTGGAGTTATTTTCATATTTTTGCATCCCGAAGAGTTTCTCTT
AAAGAGAGAAACATCTTTTGCATACCTTTTCCGACCGAATTTTTATGTCGTAAA
GAGGGGCTTTGCAGGGGGTGGACTCAGAAAGATGAGAATAGATGACTATTGT
AGTTGAAACACATAGAAAGTTGCTGATATACAGACCGATACGCATATCGGGAT
GAACCATGAGTACGTTCTTTTCTCAAAAAACATAAATATTCGAAAAGAGATGCA
ATAAATTAAGGAGAGGTTATAATGAACAAAGTAAATATAAAAGATAGTCAAAAT
TTTATTACTTCAAAATATCACATAGAAAAAATAATGAATTGCATAAGTTTAGATG
AAAAAGATAACATCTTTGAAATAGGTGCAGGGAAAGGTCATTTTACTGCTGGA
TTGGTAAAGAGATGTAATTTTGTAACGGCGATAGAAATTGATTCTAAATTATGT
GAGGTAACTCGTAATAAGCTCTTAAATTATCCTAACTATCAAATAGTAAATGAT
GATATACTGAAATTTACATTTCCTAGCCACAATCCATATAAAATATTTGGCAGC
ATACCTTACAACATAAGCACAAATATAATTCGAAAAATTGTTTTTGAAAGTTCAG
CCACAATAAGTTATTTAATAGTGGAATATGGTTTTGCTAAAATGTTATTAGATAC
AAACAGATCACTAGCATTGCTGTTAATGGCAGAGGTAGATATTTCTATATTAGC
AAAAATTCCTAGGTATTATTTCCATCCAAAACCTAAAGTGGATAGCACATTAAT
TGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTAAAGAGAGAAAAAAATATGA
AACTTTTGTAATGAAATGGGTTAACAAAGAGTACGAAAAACTGTTTACAAAAAA
TCAATTTAATAAAGCTTTAAAACATGCGAGAATATATGATATAAACAATATTAGT
TTCGAACAATTTGTATCGCTATTTAATAGTTATAAAATATTTAACGGCTAAAAAC
AATAGGCCACATGCAACTGTAAATGTTTACGCGGGTACCGACACCGCGGTGG
AGGGGAATTGTGTTACAACCAATTAACCAATTCTGATTAGAAAAACTCATCGAG
CATCAAATGAAACTGCAATTTATTCATATCAGGATTATCAATACCATATTTTTGA
AAAAGCCGTTTCTGTAATGAAGGAGAAAACTCACCGAGGCAGTTCCATAGGAT
GGCAAGATCCTGGTATCGGTCTGCGATTCCGACTCGTCCAACATCAATACAAC
CTATTAATTTCCCCTCGTCAAAAATAAGGTTATCAAGTGAGAAATCACCATGAG
TGACGACTGAATCCGGTGAGAATGGCAAAAGCTTATGCATTTCTTTCCAGACT
TGTTCAACAGGCCAGCCATTACGCTCGTCATCAAAATCACTCGCATCAACCAA
ACCGTTATTCATTCGTGATTGCGCCTGAGCGAGGCGAAATACGCGATCGCTG
TTAAAAGGACAATTACAAACAGGAATCGAATGCAACCGGCGCAGGAACACTG
CCAGCGCATCAACAATATTTTCACCTGAATCAGGATATTCTTCTAATACCTGGA
ATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTAACCATGCATCATCAGGAGT
ACGGATAAAATGCTTGATGGTCGGAAGAGGCATAAATTCCGTCAGCCAGTTTA
GTCTGACCATCTCATCTGTAACATCATTGGCAACGCTACCTTTGCCATGTTTCA
GAAACAACTCTGGCGCATCGGGCTTCCCATACAATCGATAGATTGTCGCACCT
GATTGCCCGACATTATCGCGAGCCCATTTATACCCATATAAATCAGCATCCAT
GTTGGAATTTAATCGCGGCCTGGAGCAAGACGTTTCCCGTTGAATATGGCTCA
TAACACCCCTTGTATTACTGTTTATGTAAGCAGACAGTTTTATTGTTCATGATG
ATATATTTTTATCTTGTGCAATGTAACATCAGAGATTTTGAGACACAACGTGGC
TTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAGGATCAGAGCCTACGTTCC
GAATACGGTCAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGC
CGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGT
CTTTCACCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCAT
AACCGCTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTA
CCATACCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACA
TCCTTTACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAG
CAAACGGGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACAT
TTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTT
ATCTACATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGA
TAGCTTCGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTG
TGAAGTTTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTA
CGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATG
ATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCG
GACCTTCGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTC
TTTACAATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAAC
GCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCA
GCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGA
CTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAA
TGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCA
TTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTAT
CATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTT
TCGTCCTCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGC
TACTTTGTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTG
AAACTTTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTA
GCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATC
CTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAAAAAAGGCCATCCGTCAGG
ATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTT
TTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCT
CGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTG
ATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCG
GTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATC
CATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATC
TTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAA
GTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGA
AACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACA
GATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAA
GAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTC
CTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACG
TGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGC
AAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGA
GTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCC
TGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCA
GTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGA
AATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGA
GAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGA
AGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAA
AATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCAC
ATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAA
CATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGC
AAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTC
GACTGAGCCTTTCGTTTTATCCTAGGATCAGCTGTACGTACTCGCAGTTCAAC
CTGTTGATAGTACGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGTTT
AACGTACTAAGCTCTCATGTTTAACGAACTAAACCCTCATGGCTAACGTACTAA
GCTCTCATGGCTAACGTACTAAGCTCTCATGTTTCACGTACTAAGCTCTCATGT
TTGAACAATAAAATTAATATAAATCAGCAACTTAAATAGCCTCTAAGGTTTTAAG
TTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAAAGCTTTTAAGGTTTAACGG
TTGTGGACAACAAGCCAGGGATGTAACGCACTGAGAAGCCCTTAGAGCCTCT
CAAAGCAATTTTGAGTGACACAGGAACACTTAACGGCTGACATGGGGCGGCC
GCGTAG
[0248] SEQ ID NO: 92 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAATAAAAA
AATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTACGGAA
TTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGACACT
ATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCGCAAG
TTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCTGTTA
ATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATAGTAT
GTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTCAGAC
ATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGTCCGTT
CCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAACCCAAA
AAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCGATGTC
CCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAGAACTG
GTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGACCCCAG
TAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAACATATT
AATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGACGCTTGG
TTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGCATAGTG
CCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTCTTAAGA
TTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTTCACTTC
GGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGACAGTAA
CCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTAAGTATCT
GGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCACGAGACA
GGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGAAAAGATA
CAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAGCTCAGC
TTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGACTATCGCA
CGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAATAAGTTTT
CCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTACAATGG
GTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAGTTAGAC
GTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGAGATCGA
GACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATAACTCTG
GGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGACCGCTTT
GTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTAACGACT
TCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCAGTTCAAT
TGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGAACCGGG
AGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTGTAAGGT
TCCTAACCTGCCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGA
AAAAAAAAAATAATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTT
CACCGGTGTGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGC
GCTGACGTTATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCA
GCTGCGAGATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAA
CAAACGTTCTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGG
AAAAGCTGATCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCC
ATTGATCACATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCT
GATTTTTGGTTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAA
AGCCTATGAAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGG
TTTTTGGGATGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAAC
ACCGGAATGCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAA
AACGGGGCGTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAAC
CTTTGCCGCGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCT
GGAAGAATACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGC
GGTGGTAATGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAG
GCTGGGAAACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACT
GGGAAAACACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGC
ATACAGTACAGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAAT
CGAAAAATACACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTC
AGTTTGATATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATC
CCTCTTTGCGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGG
AAAATATCTGACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATAT
TAAAGCTGCGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTG
GGTTATAGCGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAG
GTTCCTAAACGACCTGGCATCATCTACCTTTATTAATCAACAATCCAAATTATTA
ATAAAAAAAATTTAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGC
TTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTT
CTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTG
ATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGT
TTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGAT
AAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTC
GCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATC
AACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCT
AAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGA
TGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGC
GGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATG
GCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGC
CACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGT
CACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTC
AATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCT
GCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAG
CAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCG
GACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTG
GTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAA
ACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTA
ATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGG
CAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGG
TTCCTAAGGGTCCTGGCATCACCTAAAAATTATAAATAAATTAATAAACCTTTTA
ACATAAAAATTAATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCT
TGGGCAATCGTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCT
CGGGTGTCCAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTT
GGCGTTTCTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCA
AGCTGGTTCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAA
TTCCATTGATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGT
ATGGTTGACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGG
TGTTGGTATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGG
ACAAACGCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGT
TCTGCCGTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCG
CAGCATTCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTT
TCGTTATCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACC
GACAAGGATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCT
GTGGACCGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACA
GCGTCCCTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCG
GTGTTTCGATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTC
GTTTCCGATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAAT
GCTGTTGTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTT
TATCGCCATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGT
TCCCATCGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTAT
GGTTTCTTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGG
GTGCTGCAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCG
ATTACTTCTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGC
CGTCCAGTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTA
AGGTTCCTAATTCCCCTGGCATCCCCAAAAAATTAATTCATTTTCTCTTTTCAAC
AATTTAAAAAAAATTAAAAAATGAGTAACGACGACAATGTAGAGTTGACTGATG
GCTTTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACCATGTATG
GTGTTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGG
TCAGCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTA
TCGCCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCC
TGGCTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTC
CCAATGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACA
GGGCGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAA
GCTTCTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGC
AGTTCGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCA
GCAAAACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTT
CAAACCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTC
GCGCTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAA
AGGCGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAA
ACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACA
ACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGA
CGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAA
GGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGG
CTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATC
AAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTG
ACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAA
ACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCC
AATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCT
GGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGACATGC
TGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGT
ATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTG
TTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGC
CGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAA
GGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCC
GTGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCC
AATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAA
ACCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGC
CGTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTA
AAATGCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATCTATGCGTAAA
AAAAATTATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCC
AAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACT
CACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCG
ACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTC
GAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCC
GTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAG
ATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCA
GCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTC
GGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACG
GAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCAC
TACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCC
GTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATT
GTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTT
GGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAAC
ATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGA
CCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATAT
CCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATG
ACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCAC
ACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAA
TGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGA
GGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAG
GTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGAT
GGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTG
AGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTT
TCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAA
CTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAA
GCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCAT
CACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCG
CACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAAAAACCCTGGCATCTTTTC
CATAACAAAAATTAAACCTCCTCCATATGAAAAATAAAAATTATAAAATGACAAG
TGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGT
CGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCC
ACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTAC
GGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCC
TTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAA
TCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAAT
TCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATG
CGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAA
AGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTT
AAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAG
TGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGA
GAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCT
TATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCC
ACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTA
TTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACA
ATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGA
TTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGA
GAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCA
CATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGT
GGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTC
TTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTT
TGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAG
AACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGT
CCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGATTTCAC
CCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAGCCGTT
GCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCATTGT
TTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAAGA
AGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTAC
CAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCT
AAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAGCTGATTAGAAGGCC
ATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTGGA
ATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGCCA
TCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCCTG
CCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTACT
CCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGTGA
TGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGGAA
TGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATACT
TTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCCCC
ACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGCTG
GTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGGTA
GAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCATCG
GTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAATG
TAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTTTG
GCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTCCC
CGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTACT
TTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAATA
ATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGTG
GTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGGC
GATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAATT
CTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTCTG
TTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCAGCT
CGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATGGG
CATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTCTT
CATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTCAT
GATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACATT
CGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGGTT
CCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAAT
AAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGTA
GTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGCC
TGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTTG
CCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATTC
CCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCCG
CTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATAC
ACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAAA
AAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATGC
AGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTCT
CTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTAT
CGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAGC
ATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTTT
TGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTCC
GACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAAA
GATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATACA
GACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAACA
TAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAGT
AAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAATA
ATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGGG
AAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGATA
GAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCCTA
ACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAATCC
ATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGAAA
AATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTTTT
GCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAGAG
GTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACCTA
AAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATTTA
AAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTACG
AAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAATATA
TGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTATAAA
ATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGCGG
GTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATTCTG
ATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAGGAT
TATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACTCAC
CGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCCGAC
TCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTTATC
AAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAAGC
TTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCATCA
AAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCGAG
GCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATGCA
ACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAGG
ATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGTA
ACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCATA
AATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAAC
GCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACA
ATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATAC
CCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGT
TTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGA
TTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGAT
GGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTT
CAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCG
ATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGAT
TCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGG
TGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCC
ATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCT
TTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAG
TCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAA
CAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAA
GTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTG
CATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGC
CAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAA
GATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTT
CTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGA
CTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTT
CATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAAT
CTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGA
GCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAG
TTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAA
TTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACAT
CCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACA
TTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAA
ACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGA
CTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAA
AAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTT
TTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATAT
TTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATAT
TTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACC
GAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCG
CAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTA
AGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGA
GCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGC
GCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACG
ATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATC
ACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAG
CTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAG
TTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAAT
GCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGA
GCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAG
TCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTT
GTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTG
TTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTT
ACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTA
AGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTT
TTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGA
CTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTT
CGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTT
AACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAA
ACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTG
TACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTC
ACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAA
TAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAA
AGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGA
GAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACG
GCTGACATGGGGCGGCCGCGTAG
[0249] SEQ ID NO: 93 (Plasmídeo que codifica a via de degradação de oxalato para integração genômica no genoma de Bacteroides vulgatus):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAA
ATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTT
CTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTC
CTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTG
CGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCT
GGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGG
TGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTT
CCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTA
CGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTG
GCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGC
CACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTAC
ACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTC
CCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAA
TTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCT
TTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGT
CGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGA
ACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATC
GGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGC
ACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGG
CAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAAC
AGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGC
TGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCA
ACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATC
GCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAA
AATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAACCTG
CCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAAT
AATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAAACG
ACCTGGCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
TAAGGTTCCTAAGGGTCCTGGCATCAACTACCTAAATTACTTATCAAACCACTT
AGTAGTAAAAAAAATATAACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTG
AAGGCTTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTC
AACTTCTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCAT
GGTGATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTA
CAGTTTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCA
CGATAAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAA
TTTTCGCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAG
AAATCAACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGT
CCGCTAAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGAT
AATGATGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTC
TTGCGGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTT
TATGGCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTG
ATGCCACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGG
AAGTCACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGT
TTTCAATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTT
TTCTGCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGAT
TTAGCAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTG
AGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGA
AGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGC
CACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCC
GGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGA
GCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCAT
AAGGTTCCTAATTCCCCTGGCATCTTTTCCATAACAAAAATTAAACCTCCTCCA
TATGAAAAATAAAAATTATAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTT
CAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGG
ACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGGTCACTTCCAGAC
CATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATAC
AGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTG
CTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAG
GAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAG
GGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGG
ATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATG
ATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACA
ACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCC
AGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAAC
GGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACA
CTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCAC
GTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTT
GTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTA
CAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACAT
GCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGC
TTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCT
TGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTG
CCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACC
GTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAA
GCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCA
AGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGC
TTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATG
CTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATAT
GTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGA
CCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTC
CAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATC
CAGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAA
GTTGTAGGGTTCCTAAAATGCCTGGCATCAACTACCTAAATTAATTATCACCCC
AAATTAATAACATAAAAATATAATAAAATGAGTAACGACGACAATGTAGAGTTG
ACTGATGGCTTTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACC
ATGTATGGTGTTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGA
TGACGGTCAGCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAG
CTTCTATCGCCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCC
GCCCCTGGCTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACT
GCTTCCCAATGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTG
CAACAGGGCGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACT
GCAAAGCTTCTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCT
CGTGCAGTTCGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACT
TGCCAGCAAAACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTG
CTCTTCAAACCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTAT
CGCTCGCGCTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTG
GGTAAAGGCGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTG
AAGAAACCGGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCC
TGACAACCATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAG
TGTGACGTTTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACG
GTAAAGGCAAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACAT
CCAGGCTAACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGT
GACATCAAGTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAA
AAGCTGACGCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAA
AGCCAAACTGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAAC
TACTCCAATTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATAT
TTCCCTGGTTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTG
ACATGCTGAAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGG
TATTGGTATGGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTA
TCGCTGTTGAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAAC
CATCTGCCGTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTA
TCTATAAAGGTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGT
CTGACCCGTGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTT
ATGTTGCCAATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCT
TCCGGCAAACCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCG
AATCTGGCCGTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAA
GGTTCCTAAAAACCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATTAC
AAATGAAAAAAAATAATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAA
ACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTC
AATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCT
TGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTA
ACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACG
GCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCT
CCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCT
CAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGA
CGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACT
CAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACAC
TTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTA
GCTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCT
ACGGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTT
AGCTCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTC
AGCAACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTG
CTGTGCCGACCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGA
AACGGAATATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTC
CGGTGATATTGTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGC
CTATGCAATGACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGG
AAGGTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGC
GATCCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTT
GTATAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAAC
AAGGCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGA
TACCGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTG
GAGGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCT
GACGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGA
GATTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGAC
ATTAAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGT
GTTCATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTA
TCGTCGCACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAGCTGATTAGAAGG
CCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGTGTG
GAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTCAGC
CATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGCTCC
TGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAACCCTA
CTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGATAAGT
GATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGAAGGG
AATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCCGGATA
CTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGTAATCC
CCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCATCGGC
TGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTACGGG
TAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATCCCAT
CGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGCTGAA
TGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTTAGTT
TGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACCCTTC
CCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCCTTTA
CTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAATTAAA
TAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGAAAGT
GGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCACATGG
CGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTGTGAA
TTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCTGCTC
TGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGTGCA
GCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGGAATG
GGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTGGCTC
TTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGTGTTC
ATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGAAACA
TTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTTGTGG
TTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGGAGCAA
TAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACTTTGGT
AGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGCGCGC
CTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATCCGCTT
GCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCAGGATT
CCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAACACCC
GCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTGGATA
CACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTGCGAA
AAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGTTATG
CAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTGTTTC
TCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCATTTTA
TCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTTTAG
CATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATATTT
TTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTTTTC
CGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCAGAA
AGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATATAC
AGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAAAAC
ATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACAAAG
TAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAAAAT
AATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGCAGG
GAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGGCGA
TAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATTATCC
TAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCACAAT
CCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATTCGA
AAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATATGGTT
TTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATGGCAG
AGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCAAAACC
TAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATGGCATT
TAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAAGAGTA
CGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCGAGAAT
ATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATAGTTAT
AAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTTTACGC
GGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAACCAATT
CTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCATATCAG
GATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGAAAACT
CACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCGATTCC
GACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATAAGGTT
ATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATGGCAAAA
GCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGCTCGTCAT
CAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCCTGAGCG
AGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAATCGAATG
CAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCTGAATCAG
GATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGTGGTGAGT
AACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAAGAGGCAT
AAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCATTGGCAAC
GCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTCCCATACA
ATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCATTTATAC
CCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCAAGACGT
TTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTAAGCAGA
CAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACATCAGAGA
TTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGAGTTGAAG
GATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGTCAGGAT
GGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTATCGTTTT
CAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATACGCTCG
ATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACCATTTGAT
TCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCCAGCCGG
TGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTGATATCC
ATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGACGGATCT
TTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGCTTCAAG
TCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGGAAGAAA
CAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGGACAGAT
GATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACAGAAGAA
GTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGTGTCCTG
CATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAACACGTGC
CAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACGGGCAAA
GATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTACCGAGTT
CTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTGTCCTGA
CTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTTTTCAGTT
CATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTACGGAAAT
CTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATGCGGAGA
GCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTTTCAGAAG
TTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTAAACAAAA
TTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAAAGCACAT
CCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATATAAGAACA
TTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACCATTGCAA
ACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGTCTTTCGA
CTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTTCGGAAAA
AAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTT
TTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATAT
TTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATAT
TTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACC
GAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCG
CAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTA
AGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGA
GCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGC
GCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACG
ATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATC
ACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAG
CTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAG
TTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAAT
GCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGA
GCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAG
TCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTT
GTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTG
TTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTT
ACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTA
AGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTT
TTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGA
CTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTT
CGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTT
AACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAA
ACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAGGATCAGCTG
TACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCTCATGTTTCAC
GTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAACGAACTAAACC
CTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGCTCTCATGTTTC
ACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATCAGCAACTTAAA
TAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATATAAGGCTTTTAA
AGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATGTAACGCACTGA
GAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGGAACACTTAACG
GCTGACATGGGGCGGCCGCGTAG
[0250] SEQ ID NO: 94 (Sítio de ligação ao ribossomo e quadro de leitura aberto At_AAE3):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAA
ATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTT
CTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTC
CTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTG
CGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCT
GGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGG
TGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTT
CCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTA
CGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTG
GCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGC
CACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTAC
ACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTC
CCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAA
TTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCT
TTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGT
CGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGA
ACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATC
GGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGC
ACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGG
CAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAAC
AGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGC
TGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCA
ACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATC
GCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAA
AATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAACCTG
CCTGGCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAAT
AATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAAACG
ACCTGGCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
TAAGGTTCCTAATTCCCCTGGCATCAACTACCTAAATTACTTATCAAACCACTT
AGTAGTAAAAAAAATATAACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTG
AAGGCTTATTAGTTATCGATATGACACATGTCCTTAATGGACCTTTCGGAACTC
AACTTCTTTGTAATATGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCAT
GGTGATGATACCCGCACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTA
CAGTTTTATTAATCATGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCA
CGATAAAAGTATATTTATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAA
TTTTCGCCCAGGTACAATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAG
AAATCAACCCGCGCCTCATATATGCTTCATCGTCAGGTTTCGGACATACCGGT
CCGCTAAAAGATGCTCCTGCCTACGATACCATCATTCAGGCAATGAGCGGGAT
AATGATGGAAACAGGATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTC
TTGCGGATCTATGCGGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTT
TATGGCCGCGAAAAGAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTG
ATGCCACGCTGAGTTTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGG
AAGTCACCACAACGTCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGT
TTTCAATACTCAGGATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTT
TTCTGCGTTATGCCAGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGAT
TTAGCAGCAATATTTTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTG
AGCGGACGTTAAAAACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGA
AGTTGGTGTACCCGTCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGC
CACAAACTCAGGCGAGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCC
GGGTAATCCGATAAAAATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGA
GCGGCAACGCTCGACCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCAT
AAGGTTCCTAAAATGCCTGGCATCTTTTCCATAACAAAAATTAAACCTCCTCCA
TATGAAAAATAAAAATTATAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTT
CAACGATACTTTTAGCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGG
ACACTCAGGTGACCTACAGGGATCTATCCCACATGGTGGGTCACTTCCAGAC
CATGTTCACAAATCCTAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATAC
AGTGGCGATATCCATGCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTG
CTACTATGGACGCTAAAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAG
GAGTTCAATTTTTATTTGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAG
GGTACCACAAAGTTACAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGG
ATGTTTTATCGTAGAGCTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATG
ATATATACTCTCCAGAGGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACA
ACGCCAAATTTGTCAACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCC
AGTGACGTTGCCCTGATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAAC
GGTGCCTTTGTTACATTTGAACATTGTGAGAAGCACGTTGAACATTGCTAACA
CTTACAAGCTAACGCCCTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCAC
GTCCATGGGTTAATTGGTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTT
GTGGTTCCCGATGGATTCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTA
CAACTGTAATTGGTTCAGTTGCGTTCCCACAATAAGCATGATTATGCTGAACAT
GCCCAAACCAAACCCTTTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGC
TTTGGCTCCAGCAACGTTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCT
TGGAGGCCTATGCGATGACCGAAGCATCACATCAAATGACCTCAAACAATCTG
CCTCCAGGAAAGAGAAAGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACC
GTCGTCATTCTAGATGACAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCG
AAGTTTCCATCAGAGGCGAAAACGTCACTTTGGGGTATGCTAATAATCCAAAA
GCTAACAAGGAGAACTTCACCAAGAGAGAGAACTATTTCAGAACCGGTGACCA
AGGTTATTTCGACCCTGAGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGC
TTATCAACAGGGGTGGTGAAAAGATTTCACCCATTGAGCTCGACGGCATTATG
CTATCGCATCCAAAGATCGATGAAGCCGTTGCATTTGGTGTTCCCGACGATAT
GTACGGCCAAGTAGTTCAAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGA
CCTACGAAGAACTGGTGAACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTC
CAACCAAGGTGTACTTTGTTGATAAGCTACCAAAAACCGCTACAGGTAAAATC
CAGAGAAGAGTTATCGCAGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAA
GTTGTAGGGTTCCTAAAAACCCTGGCATCTAAACTAAAATACAATAACCAAAAA
TCATTACAAATGAAAAAAAATAATAAAATGGATAGCGATACTCTCTCAGGATTA
TTGGAAAACGTCGCCAAAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGG
AAAATTCAATCTCACTCACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTT
CACGCCTTGTCTCCGACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCAC
CTTCCCTAACACCGTCGAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAG
AGCCACGGCGGCGCCGTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTT
TTACCTCTCCGATTCAGATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGC
ACCGGCTCAAGAAGCAGCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACG
CTGCTTGACGCTGGCTCGGACCTTGTACTATCCGTTGCGGATTCAGATTCCGT
CGTTGACTCAGCGACGGAACTCGTTAATCACCCGGACGACGGTGCTCTCTTC
CTCCACACTTCTGGCACTACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGC
TCAATCTAGCTTCATCCGTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGT
CTGATTCTACGGTGATTGTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTG
GGTTGCTTAGCTCGCTTGGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGG
TAGATTCTCAGCAACAACATTTTGGCCAGATATGAAGAAGTATAACGCTACATG
GTATACTGCTGTGCCGACCATTCATCAGATCATATTGGACCGCCACGCGAGC
CACCCTGAAACGGAATATCCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTC
TTTGGCTCCGGTGATATTGTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTG
CTCGAGGCCTATGCAATGACAGAGGCAACACATTTGATGAGCTCAAACCCCTT
ACCAGAGGAAGGTCCACACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAA
GAAATGGCGATCCTTAATGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAG
GAGAGGTTTGTATAAGAGGTCCAAATGTGACCAAGGGTTACAAGAATAACCCA
GAAGCCAACAAGGCAGGTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCG
GTTACTTTGATACCGATGGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTT
ATTAACCGTGGAGGTGAGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTT
AACGCATCCTGACGTTTCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAAT
ATGGGGAAGAGATTAACTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAAC
CGAAGAGGACATTAAAGCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGC
CAAAGAGAGTGTTCATCACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATT
CAGCGCCGTATCGTCGCACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAGCT
GATTAGAAGGCCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCT
TTTAGGTGTGGAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCAC
CTTATTCAGCCATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGA
TAGCGGCTCCTGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCG
GGCAAACCCTACTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCAC
TTAGGATAAGTGATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGT
GTCCTGAAGGGAATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAAT
CTTATCCGGATACTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGG
CGTATGTAATCCCCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTT
TCAGCATCGGCTGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGT
ATTCCTACGGGTAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGT
GTACATCCCATCGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGC
TGAGGCTGAATGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGT
TTCATTTAGTTTGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGC
ATTTACCCTTCCCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTA
GAATTCCTTTACTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTC
TAACAATTAAATAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTG
GAAGGAAAGTGGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGAC
GTTTCACATGGCGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACA
TGATTTGTGAATTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGG
CTGGCTGCTCTGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAG
AACCGTGCAGCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAA
CTGTGGAATGGGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCC
GGATTGGCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATT
ATCGGTGTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACAT
TCGTGAAACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGC
AGCTTTGTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGG
GCTGGAGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTAC
TCTACTTTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATG
ACTGGCGCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCA
GCCATCCGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCA
GAGCAGGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAA
GGAACACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACG
CCGTTGGATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTAT
ATCGTGCGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAG
CAGGGTTATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAA
AAGGTGTTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAG
GTATCATTTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCA
ACAAATTTTAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTA
TTTTCATATTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGC
ATACCTTTTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTG
GACTCAGAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTT
GCTGATATACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTT
CTCAAAAAACATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATA
ATGAACAAAGTAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACA
TAGAAAAAATAATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAAT
AGGTGCAGGGAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTG
TAACGGCGATAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCT
TAAATTATCCTAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCC
TAGCCACAATCCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAA
TATAATTCGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTG
GAATATGGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTG
TTAATGGCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCC
ATCCAAAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAA
AAATGGCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTA
ACAAAGAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACA
TGCGAGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTT
AATAGTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAA
TGTTTACGCGGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAAT
TAACCAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTAT
TCATATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAG
GAGAAAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTC
TGCGATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAA
AATAAGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGA
ATGGCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTAC
GCTCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGC
GCCTGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAG
GAATCGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCA
CCTGAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGC
AGTGGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCG
GAAGAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACA
TCATTGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGG
CTTCCCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAG
CCCATTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGG
AGCAAGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTA
TGTAAGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTA
ACATCAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGC
TGAGTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATC
CGTCAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGT
GTATCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTG
ATACGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATA
CCATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTAC
CCAGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGC
TGATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAG
ACGGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCT
GCTTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGAT
GGAAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCC
GGACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTA
CAGAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAA
GTGTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGA
ACACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGA
CGGGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGT
ACCGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGT
TGTCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTG
TTTTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACAT
TACGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGA
TGCGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTC
TTTCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGT
TAAACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGG
AAAGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAAT
ATAAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAA
CCATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCA
GTCTTTCGACTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGC
TTCGGAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTT
CGAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTC
ACCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACC
GCTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCAT
ACCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTT
TACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAAC
GGGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTT
GGCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTA
CATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCT
TCGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAG
TTTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCC
GGGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTT
CGGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCT
TCGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTAC
AATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTC
AAATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCG
TTGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTT
TTTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTC
CCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAG
GCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCC
TCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTT
GTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACT
TTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCC
AATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAG
GATCAGCTGTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCT
CATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAAC
GAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGC
TCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATC
AGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATAT
AAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATG
TAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGG
AACACTTAACGGCTGACATGGGGCGGCCGCGTAG
[0251] SEQ ID NO: 95 (Sítio de ligação ao ribossomo e quadro de leitura aberto At_AAE3):
GGAGAGCTGTATGTGGGGTGGAAGAAGCTATCGTAAAAATGCTGGAG
CAGCTTGATCCTCATTCTACCTATTCTGATCCGGAGGAAGTGAAGAGAATGAA
CGAGCCGTTGCAGGGAAACTTCGAAGGTATCGGTATACAGTTTAATATGGCG
GAGGACACTTTGCTGGTGATACAGCCTGTATCGGGCGGACCGTCCGAAAAAG
TCGGTATTCTGGCCGGTGATCGTATCGTCATGGTGGAAGATACGCTGATAGC
CGGTGTAAAGATGAGTACCGAGGATATTATGCGTCGCCTCCGTGGTCCTAAA
GATTCAAAAGTGAATCTGAAAATACTTCGCCGAGGGGTGAAGGAACTGCTCCC
CTTTACGGTGAAAAGGGATAAAATACCTGTTTACAGCTTGGATGCTTCCTATAT
GATTAAAGATAAGATCGGTTATATTCGTATCAACCGTTTTGCCGCCACTACCCA
TGAGGAGTTCAAGAAAGCGCTGACCGGGTTGCAGAAGAAAGGAATGAAAGAC
TTGATTCTTGATTTGCAGGGCAATGGCGGGGGGTATTTGAATGCTGCTATCGA
TATTGCCAATGAATTTTTGGGTAAAAAGGAACTGATTGTCTATACGGAGGGCC
GTCGTAATCCTCGTAGCGAGTTTTTTGCCAAAGGTACGGGCGAGTTTCAGAAC
GGTCGTCTGATGGTATTGGTTGATGAATTTTCGGCTTCTGCCAGTGAGATTGT
GACCGGAGCTGTTCAGGATTGGGACAGAGGCGTTGTGGTAGGCCGTCGCAG
TTTTGGTAAAGGCTTGGTGCAGCGTCCCATTGATTTGCCGGACGGTTCGATGA
TCCGTCTGACGGTGGCCCGCTATTATACGCCTGCCGGACGTTGTATCCAGAA
ACCTTACGAGAGCATTGAAAAGTATAATGAAGACCTGATAGACCGTTATAATAA
AGGAGAAATGATGAGTGAAGACAGCATCCACTTTCCGGATTCACTGAAGTTCA
AGACTCATAGGTTGGCCCGTACGGTATATGGTGGCGGAGGGATCATGCCCGA
TTATTTTGTGCCGATTGATACGACTCTCTATACTAAATACCATCGTCAGTTGCG
TGATAAAGGAGCATTGATGAAAGCTCATTTCCATTTTATTGATGCCCATCGTAA
AGAATGGCTGGGCAAATACAAGACTTTCAATGAGTTCTACAAACGTTTTGAAG
TGACTCCGGATATGTTGACACAACTGGTTGCTACCGGCAAGGAGATGGGAGT
GGAATATAATGAAGAAGAGTATCAAAAGGCCCTGCCTCTGCTGAGGTTGCAGA
TGAAAGCATTGATAGCCCGTGATTTATGGGATATGAATGAATATTATCACGTCA
TTAATGACGCGAATGAAAGTATCAGGAAAGCGCTGGAACTGTTGGAGCAACC
GGACTTTGAGGGGCTGCTGTTGAAAAAGCGATAGTCAAGACTTTATATTAACT
GCAGGGGCGCATAGTTGCACTCCTGCAGTTGTCTGAAAAACTTGTAGGATAAA
ACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTACAATTGGGCTACCTT
TTTTTTGTTTTGTTTGCAATGGTTAATCTATTGTTAAAATTTAAAGTTTCACTTGA
ACTTTCAAATAATGTTCTTATATTTGCAGTGTCGAAAGAAACAAAGTAGCCTGG
CATCATCTACCTTCATTATTAATCATTCCAATTGTATCACTTAAAAATATAAAAA
AATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTGCAATC
TGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTATTAAAA
TTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGATATTCC
TGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCTATTGA
GTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGATCCGC
GAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACATGGG
CTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGTTCGAT
CAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGAAAACG
TTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGATGGTCC
GCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATGCATTTG
CTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCGTGGGC
AACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGCGTGAAA
TTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATACCCGCA
GTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAATGCAGGT
GGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAAACCGATC
CTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAACACCTGTA
AAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTACAGCCCA
TGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATACACTGT
CACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATATTCCTTG
TGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCGCCAAAG
TGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGACCGTTG
GTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCGCCGCTA
TTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCGACGATG
AAATTGCTGCAATGAAGCAAAACCACGCCATCTGAGGTTCCTAACCTGCCTGG
CATCAACTACCTAAATTACTTATCAAACCACTTAGTAGTAAAAAAAATATAACAA
AATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTATCGATAT
GACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATATGGGCG
CAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGCACATTT
GGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCATGGCAAA
GAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTTATAAAT
ATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACAATGGA
AAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCTCATAT
ATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTCCTGCC
TACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGGATATCC
TGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCGGCGGT
GTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAGAGCCA
GAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTTTTCTG
GAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGTCTGG
GAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGATAAGC
CGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCAGGCAC
TGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTTTACGC
GTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAACGCA
GGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGTCGCG
CCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCGAGAAA
TATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAAAATCA
GCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGACCAGC
ATGGGGAACAAATTCGCCAGGAGTTCTCATCATAAGGTTCCTAAACGACCTGG
CATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAATAAAAA
AATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTACGGAA
TTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGACACT
ATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCGCAAG
TTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCTGTTA
ATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATAGTAT
GTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTCAGAC
ATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGTCCGTT
CCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAACCCAAA
AAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCGATGTC
CCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAGAACTG
GTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGACCCCAG
TAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAACATATT
AATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGACGCTTGG
TTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGCATAGTG
CCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTCTTAAGA
TTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTTCACTTC
GGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGACAGTAA
CCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTAAGTATCT
GGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCACGAGACA
GGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGAAAAGATA
CAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAGCTCAGC
TTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGACTATCGCA
CGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAATAAGTTTT
CCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTACAATGG
GTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAGTTAGAC
GTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGAGATCGA
GACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATAACTCTG
GGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGACCGCTTT
GTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTAACGACT
TCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCAGTTCAAT
TGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGAACCGGG
AGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTGTAAGGT
TCCTAAGGGTCCTGGCATCCCCAAAAAATTAATTCATTTTCTCTTTTCCCTAAC
CCTTAAAATATAATAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCT
TTCATGTTTTGATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTG
TTGTCGGCATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCA
GCGTTTTTACAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCG
CCGGTTACATCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGG
CTTCCTGAACGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAA
TGATCCTGTTGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGG
CGATTACGAAGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTT
CTTTCCGTATCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTT
CGCACCGCTGTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAA
AACTGTTCGGTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAA
CCAATCGATCCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCG
CTGCTGACCTGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGG
CGCTGCATACGCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACC
GGCATCCCATTCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACC
ATCCACAATCCGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGT
TTGCGTACTGATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGC
AAAACCTGGGGCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTA
ACGAAATGGACAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAA
GTCCGCCGTTTCCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGAC
GCTGAATGGACCGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAAC
TGGCTGGCAAGATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAA
TTCCCTGGGCGTTGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGG
TTAACGAAGGCGCTAATGCACTCGACAACACTCGTATGATTGTTGACATGCTG
AAACCACGCAAACGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTAT
GGGCTACTGCGTTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTT
GAAGGCGATAGCGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCC
GTTACAACCTGCCAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAG
GTAACGAAGCAGATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCG
TGGTCGTTACGACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCA
ATACTCCAGCAGAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAA
CCATGCCTGATCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCC
GTATCAAGAGCCTGAACGTTGTAAGTAAAGTTGGCAAGAAATAAGGTTCCTAA
TTCCCCTGGCATCTAAACTAAAATACAATAACCAAAAATCATACTACATGTATA
AAATTAAAAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCA
AAAAATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACT
CACGCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCG
ACGCTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTC
GAGTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCC
GTTGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAG
ATTCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCA
GCTTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTC
GGACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACG
GAACTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCAC
TACGAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCC
GTCAAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATT
GTTCTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTT
GGAGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAAC
ATTTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGA
CCATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATAT
CCTAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATT
GTCCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATG
ACAGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCAC
ACAAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAA
TGAGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGA
GGTCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAG
GTTTCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGAT
GGGTATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTG
AGAAGATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTT
TCTCAGGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAA
CTGTGCGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAA
GCGTTTTGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCAT
CACTGATAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCG
CACAACATTTCCTTGAGAAGCCCTGAGGTTCCTAAAATGCCTGGCATCAACTA
CCTCAATTAATAATCAAACCATCTGAACAATGAATAAATTTAAAAAAATGACAAG
TGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAGCGTATCCGATAATGT
CGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCTACAGGGATCTATCCC
ACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCTAATTCTCCATTGTAC
GGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCATGCGTAATGGGCTGG
AATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTAAAATTGGCGCGCCC
TTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATTTGAATGACCTGAAA
TCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTACAGAGTTCTGAAAT
TCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAGCTGGCCTTCGATG
CGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGAGGACAACTACAAA
AGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCAACACAAATCCCGTT
AAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTGATTTTGCATACCAG
TGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACATTTGAACATTGTGA
GAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCCCTTGGACAGATCT
TATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTGGTGTTTTACTTTCC
ACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGATTCCATCCAAAGTTA
TTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCAGTTGCGTTCCCACA
ATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCTTTCCCACACATTAGA
TTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACGTTCCATAAGCTGGA
GAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGATGACCGAAGCATCA
CATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAAAGCCTGGTACTGT
GGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGACAATGACAATGTC
TTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGCGAAAACGTCACTT
TGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTTCACCAAGAGAGAG
AACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTGAGGGGTTTTTGGT
CCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGTGAAAAGATTTCAC
CCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGATCGATGAAGCCGTT
GCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTCAAGCCGCCATTGT
TTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTGAACTTCTTAAAGA
AGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTTGTTGATAAGCTAC
CAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGCAGAAACTTTTGCT
AAGAGCAGCAGAAATAAGAGTAAGTTGTAGGGTTCCTAAAAACCCTGGCATCA
CCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAATTACAAAATGAA
TAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATCGTTGGTTCTACT
TGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTCCAATATTCCTGG
ACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTCTTTGGCTGCGGT
TCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTTCTCAGCCTGGTG
GTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTGATGTTCGGTGGT
GCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTGACAGTGTTCCTG
CTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGTATCGTTTACGGT
ATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAACGCGGTCTGGCTT
CCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCCGTTCCTGCCACT
GATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCATTCATGTACACCG
GTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTATCCGTTTCCCTG
GCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAGGATTTCAATTCT
GGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGACCGCATTCTTTTC
CGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCCCTTACGGTCGCA
GCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTCGATCCAGAACCT
GTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCGATAAAATCGGCC
GTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTTGTTCTCGCACTTT
TCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGCCATGTTGGCAATC
GCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCATCGACCAACAGCG
ATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTCTTCTGGGCTGCA
AAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTGCAATTGCAACCA
ACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTTCTTTCATCGCAT
TTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCAGTCAAGAAAATG
GTCAAATTGTCTCCAGAAGAAAAAGCTGTACATTAAGGTTCCTAGCTGATTAGA
AGGCCATCCTGACGGATGGCCTTTTTTTTGACTCTGTTGTGTCTTCTTTTAGGT
GTGGAATAATTTTCCAACCATCACTTTATCTGTCTCCCGAACAGCACCTTATTC
AGCCATCGGTTCACATACACGTTCACGAAAGCACATCCTACTCCGATAGCGGC
TCCTGCCACTACATCACTGGGATAGTGCACCCCTTGGTTCATCCGGGCAAAC
CCTACTCCGCAAGCCCATACGGCTGAAGGGGCGATAACATACCACTTAGGAT
AAGTGATGGAGAGTGAGGTGGCTAAAGAAAAAGCTGCCGCAGTGTGTCCTGA
AGGGAATGACGGACTATCGGCATCCGGTGCTCCGTATGCATGAATCTTATCC
GGATACTTTACAAAAGGCCGGTCACGACCTATTATATGTTTGGCGGCGTATGT
AATCCCCACTGCTTCAATCACACTGGTTCCTATGTAAATGGCATCTTTCAGCAT
CGGCTGGTCTTTCTTTATCAATGCATAGAGTCCCATGGCTGTAGGTATTCCTA
CGGGTAGAATCACTCCGCTAGCGGACAATCCGCGGCTCAGTCCGTGTACATC
CCATCGGTTGATGGTTTTCAACGTGTTGATGTCTATATTCTGTGCGCTGAGGC
TGAATGTAAAACAGGCTGTCAGTATAAGAAAAATAATCCTTTGGCGTTTCATTT
AGTTTGGCATTTGTTCAGTGCAAAGATAGGAAAATAATGTAATTCGCATTTACC
CTTCCCCGAATTAAAGAATAATTTCCATAATTCCTTGTATTATCGCTAGAATTCC
TTTACTTTTGCATCGTGAATACACAGCTTTTAACAGAATTTTTAGTTCTAACAAT
TAAATAATTTAAATTCAATCATTTATGTGGTTAAGTAATTCATCTATTGGAAGGA
AAGTGGTGATGAGTGTCACAGGTATCGCCCTTGTCCTGTTTCTGACGTTTCAC
ATGGCGATGAACCTTGTTGCGCTCTTCTCGGAAGATGCTTACAACATGATTTG
TGAATTCTTGGGAGCTAACTGGTACGCGTTGGTTGCAACTGCCGGGCTGGCT
GCTCTGTTTGTAATTCACATCATCTACGCTTTCTGGTTGACCATGCAGAACCGT
GCAGCTCGCGGTAGCGAACGTTATGCAGTGAACGTTAAACCTAAAACTGTGG
AATGGGCATCTCAGAACATGCTTGTCCTGGGTATTGTCGTTATTGCCGGATTG
GCTCTTCATTTTGCCAATTTCTGGTACAAAATGCAGTTTGCCGAAATTATCGGT
GTTCATGATTTGGGCGCATTCGGTCCTACAGACGGTGCCGCTTACATTCGTGA
AACATTCGGATGCCCTGTATTTACAGTGCTTTACCTCATTTGGTTAGCAGCTTT
GTGGTTCCACCTGACTCACGGATTCTGGAGTGCTTTGCAGACTTTGGGCTGG
AGCAATAAAATCTGGTTCGAGCGTTGGAAGACTATTGGTAACATCTACTCTACT
TTGGTAGTTCTTGGTTTTGCAGCAGTAGTCGTTATCTACTTCGCTATGACTGGC
GCGCCTGATAGGTGGGCTGCCCTTCCTGGTTGGCTTGGTTTCATCAGCCATC
CGCTTGCCCTCATCTGTTACGCCGGCGGTAGCCGGCCAGCCTCGCAGAGCA
GGATTCCCGTTGAGCACCGCCAGGTGCGAATAAGGGACAGTGAAGAAGGAAC
ACCCGCTCGCGGGTGGGCCTACTTCACCTATCCTGCCCGGCTGACGCCGTTG
GATACACCAAGGAAAGTCTACACGAACCCTTTGGCAAAATCCTGTATATCGTG
CGAAAAAGGATGGATATACCGAAAAAATCGCTATAATGACCCCGAAGCAGGGT
TATGCAGCGGAAAAGCGGGATTAAAAGTCGGGGATTGGTGAACAAAAAGGTG
TTTCTCTCTTTAAGAGAAATATCGTTTTGCTAAACAGTTGATATTGAGGTATCAT
TTTATCGTAAAAGACATTTTTGCTCAACAATTGCTTGACGGAAATCAACAAATTT
TAGCATTTTGTAAAAAAGTCGCTATATAATTTGGTGAATTGGAGTTATTTTCATA
TTTTTGCATCCCGAAGAGTTTCTCTTAAAGAGAGAAACATCTTTTGCATACCTT
TTCCGACCGAATTTTTATGTCGTAAAGAGGGGCTTTGCAGGGGGTGGACTCA
GAAAGATGAGAATAGATGACTATTGTAGTTGAAACACATAGAAAGTTGCTGATA
TACAGACCGATACGCATATCGGGATGAACCATGAGTACGTTCTTTTCTCAAAA
AACATAAATATTCGAAAAGAGATGCAATAAATTAAGGAGAGGTTATAATGAACA
AAGTAAATATAAAAGATAGTCAAAATTTTATTACTTCAAAATATCACATAGAAAA
AATAATGAATTGCATAAGTTTAGATGAAAAAGATAACATCTTTGAAATAGGTGC
AGGGAAAGGTCATTTTACTGCTGGATTGGTAAAGAGATGTAATTTTGTAACGG
CGATAGAAATTGATTCTAAATTATGTGAGGTAACTCGTAATAAGCTCTTAAATT
ATCCTAACTATCAAATAGTAAATGATGATATACTGAAATTTACATTTCCTAGCCA
CAATCCATATAAAATATTTGGCAGCATACCTTACAACATAAGCACAAATATAATT
CGAAAAATTGTTTTTGAAAGTTCAGCCACAATAAGTTATTTAATAGTGGAATAT
GGTTTTGCTAAAATGTTATTAGATACAAACAGATCACTAGCATTGCTGTTAATG
GCAGAGGTAGATATTTCTATATTAGCAAAAATTCCTAGGTATTATTTCCATCCA
AAACCTAAAGTGGATAGCACATTAATTGTATTAAAAAGAAAGCCAGCAAAAATG
GCATTTAAAGAGAGAAAAAAATATGAAACTTTTGTAATGAAATGGGTTAACAAA
GAGTACGAAAAACTGTTTACAAAAAATCAATTTAATAAAGCTTTAAAACATGCG
AGAATATATGATATAAACAATATTAGTTTCGAACAATTTGTATCGCTATTTAATA
GTTATAAAATATTTAACGGCTAAAAACAATAGGCCACATGCAACTGTAAATGTT
TACGCGGGTACCGACACCGCGGTGGAGGGGAATTGTGTTACAACCAATTAAC
CAATTCTGATTAGAAAAACTCATCGAGCATCAAATGAAACTGCAATTTATTCAT
ATCAGGATTATCAATACCATATTTTTGAAAAAGCCGTTTCTGTAATGAAGGAGA
AAACTCACCGAGGCAGTTCCATAGGATGGCAAGATCCTGGTATCGGTCTGCG
ATTCCGACTCGTCCAACATCAATACAACCTATTAATTTCCCCTCGTCAAAAATA
AGGTTATCAAGTGAGAAATCACCATGAGTGACGACTGAATCCGGTGAGAATG
GCAAAAGCTTATGCATTTCTTTCCAGACTTGTTCAACAGGCCAGCCATTACGC
TCGTCATCAAAATCACTCGCATCAACCAAACCGTTATTCATTCGTGATTGCGCC
TGAGCGAGGCGAAATACGCGATCGCTGTTAAAAGGACAATTACAAACAGGAAT
CGAATGCAACCGGCGCAGGAACACTGCCAGCGCATCAACAATATTTTCACCT
GAATCAGGATATTCTTCTAATACCTGGAATGCTGTTTTCCCGGGGATCGCAGT
GGTGAGTAACCATGCATCATCAGGAGTACGGATAAAATGCTTGATGGTCGGAA
GAGGCATAAATTCCGTCAGCCAGTTTAGTCTGACCATCTCATCTGTAACATCAT
TGGCAACGCTACCTTTGCCATGTTTCAGAAACAACTCTGGCGCATCGGGCTTC
CCATACAATCGATAGATTGTCGCACCTGATTGCCCGACATTATCGCGAGCCCA
TTTATACCCATATAAATCAGCATCCATGTTGGAATTTAATCGCGGCCTGGAGCA
AGACGTTTCCCGTTGAATATGGCTCATAACACCCCTTGTATTACTGTTTATGTA
AGCAGACAGTTTTATTGTTCATGATGATATATTTTTATCTTGTGCAATGTAACAT
CAGAGATTTTGAGACACAACGTGGCTTTGTTGAATAAATCGAACTTTTGCTGA
GTTGAAGGATCAGAGCCTACGTTCCGAATACGGTCAAAAAAAAGGCCATCCGT
CAGGATGGCCTTCGCATTAATATGCCGCTTCGAATTCTTTTAGGAAGCGTGTA
TCGTTTTCAGAGAACATACGGAGGTCTTTCACCTGATATTTCAGGTTTGTGATA
CGCTCGATACCCATACCGAGTCCATAACCGCTGTATATTTTGCTGTCTATACC
ATTTGATTCAAGTACGTTCGGGTCTACCATACCGCAACCGAGGATTTCTACCC
AGCCGGTGTGTTTACAGAACGGACATCCTTTACCGCCGCAGATATTACAGCTG
ATATCCATTTCCGCACTTGGTTCAGCAAACGGGAAGTAAGACGGACGCAGAC
GGATCTTTGTATCAGCACCGAACATTTCTTTGGCAAAGAGCAGCAATACCTGC
TTCAAGTCGGTGAATGATACGTTTTTATCTACATACAGCGCTTCTACCTGATGG
AAGAAACAGTGTGCGCGATAGCTGATAGCTTCGTTACGATATACACGTCCCGG
ACAGATGATGCGGATAGGAGGCTGTGAAGTTTCCATCACACGAGTCTGTACA
GAAGAAGTATGTGTACGCAATACTACGTCCGGGTGAGCTTCGATAAAGAAAGT
GTCCTGCATATCGCGTGCCGGATGATCTTCGGCAAAGTTCAGTGCCGAGAAC
ACGTGCCAGTCATCTTCAATTTCCGGACCTTCGGCAATGCTGAATCCCAGACG
GGCAAAGATATCAATGATTTCGTTCTTTACAATGGTGAGCGGGTGGCGTGTAC
CGAGTTCTACAGGATAAGCCGAACGCGTCAAATCCAGTCCGTCACAATCGTTG
TCCTGACTTTCAAACATTTCTTTCAGCGCGTTGATTTTGTCCTGCGCTTTTGTT
TTCAGTTCATTCAGTCTCATGCCGACTTCTTTTTTCTGTTCGGCAGCTACATTA
CGGAAATCTGCCATTAAGTCGTTAATGGCTCCCTTCTTACTTAGGTATTTGATG
CGGAGAGCTTCGAGTTCTTCGGCATTGGAGGCGTGTAAGGCTTCCACCTCTT
TCAGAAGTTGTTCAATCTTAGCTATCATTTTTTAATATTTTTAGCGGCCCCGTTA
AACAAAATTATTTGTAGAGGCTGTTTCGTCCTCACGGACTCATCAGACCGGAA
AGCACATCCGGTGACAGCTCAGGCTACTTTGTTTCTTTCGACACTGCAAATAT
AAGAACATTATTTGAAAGTTCAAGTGAAACTTTAAATTTTAACAATAGATTAACC
ATTGCAAACAAAACAAAAAAAAGGTAGCCCAATTGTAAAACGAAAGGCCCAGT
CTTTCGACTGAGCCTTTCGTTTTATCCTACAGTCGCTCGGCGATCGAAGGCTT
CGGAAAAAAAAGGCCATCCGTCAGGATGGCCTTCGCATTAATATGCCGCTTC
GAATTCTTTTAGGAAGCGTGTATCGTTTTCAGAGAACATACGGAGGTCTTTCA
CCTGATATTTCAGGTTTGTGATACGCTCGATACCCATACCGAGTCCATAACCG
CTGTATATTTTGCTGTCTATACCATTTGATTCAAGTACGTTCGGGTCTACCATA
CCGCAACCGAGGATTTCTACCCAGCCGGTGTGTTTACAGAACGGACATCCTTT
ACCGCCGCAGATATTACAGCTGATATCCATTTCCGCACTTGGTTCAGCAAACG
GGAAGTAAGACGGACGCAGACGGATCTTTGTATCAGCACCGAACATTTCTTTG
GCAAAGAGCAGCAATACCTGCTTCAAGTCGGTGAATGATACGTTTTTATCTAC
ATACAGCGCTTCTACCTGATGGAAGAAACAGTGTGCGCGATAGCTGATAGCTT
CGTTACGATATACACGTCCCGGACAGATGATGCGGATAGGAGGCTGTGAAGT
TTCCATCACACGAGTCTGTACAGAAGAAGTATGTGTACGCAATACTACGTCCG
GGTGAGCTTCGATAAAGAAAGTGTCCTGCATATCGCGTGCCGGATGATCTTC
GGCAAAGTTCAGTGCCGAGAACACGTGCCAGTCATCTTCAATTTCCGGACCTT
CGGCAATGCTGAATCCCAGACGGGCAAAGATATCAATGATTTCGTTCTTTACA
ATGGTGAGCGGGTGGCGTGTACCGAGTTCTACAGGATAAGCCGAACGCGTCA
AATCCAGTCCGTCACAATCGTTGTCCTGACTTTCAAACATTTCTTTCAGCGCGT
TGATTTTGTCCTGCGCTTTTGTTTTCAGTTCATTCAGTCTCATGCCGACTTCTTT
TTTCTGTTCGGCAGCTACATTACGGAAATCTGCCATTAAGTCGTTAATGGCTC
CCTTCTTACTTAGGTATTTGATGCGGAGAGCTTCGAGTTCTTCGGCATTGGAG
GCGTGTAAGGCTTCCACCTCTTTCAGAAGTTGTTCAATCTTAGCTATCATTTTT
TAATATTTTTAGCGGCCCCGTTAAACAAAATTATTTGTAGAGGCTGTTTCGTCC
TCACGGACTCATCAGACCGGAAAGCACATCCGGTGACAGCTCAGGCTACTTT
GTTTCTTTCGACACTGCAAATATAAGAACATTATTTGAAAGTTCAAGTGAAACT
TTAAATTTTAACAATAGATTAACCATTGCAAACAAAACAAAAAAAAGGTAGCCC
AATTGTAAAACGAAAGGCCCAGTCTTTCGACTGAGCCTTTCGTTTTATCCTAG
GATCAGCTGTACGTACTCGCAGTTCAACCTGTTGATAGTACGTACTAAGCTCT
CATGTTTCACGTACTAAGCTCTCATGTTTAACGTACTAAGCTCTCATGTTTAAC
GAACTAAACCCTCATGGCTAACGTACTAAGCTCTCATGGCTAACGTACTAAGC
TCTCATGTTTCACGTACTAAGCTCTCATGTTTGAACAATAAAATTAATATAAATC
AGCAACTTAAATAGCCTCTAAGGTTTTAAGTTTTATAAGAAAAAAAAGAATATAT
AAGGCTTTTAAAGCTTTTAAGGTTTAACGGTTGTGGACAACAAGCCAGGGATG
TAACGCACTGAGAAGCCCTTAGAGCCTCTCAAAGCAATTTTGAGTGACACAGG
AACACTTAACGGCTGACATGGGGCGGCCGCGTAG
[0252] SEQ ID NO: 96 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto At_AAE3):
GCATCTAAACTAAAATACAATAACCAAAAATCATTACAAATGAAAAAAA
ATAATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0253] SEQ ID NO: 97 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto At_AAE3):
GCATCTAAACTAAAATACAATAACCAAAAATCATGTTTAACAAATAAAA
ATAATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0254] SEQ ID NO: 98 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto At_AAE3):
GCATCTAAACTAAAATACAATAACCAAAAATCATCTATGCGTAAAAAAA
ATTATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0255] SEQ ID NO: 99 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto At_AAE3):
GCATCTAAACTAAAATACAATAACCAAAAATCATACTACATGTATAAAA
TTAAAAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0256] SEQ ID NO: 100 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto At_AAE3):
GCATCTAAACTAAAATACAATAACCAAAAATCATTTTCACAATATAAAAA
TAACAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0257] SEQ ID NO: 101 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto At_AAE3):
GCATCATCTACCTCAATTATTCACCATTCCATCTGTCTAGCCAAAAAAT
TTAAAAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0258] SEQ ID NO: 102 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto At_AAE3):
GCATCATCTACCTAAATTACTCATCATCCCATTTTAGTCAGCTTAAAAT
ATTATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAA
AATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCAC
GCGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACG
CTGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGA
GTTTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGT
TGAACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGAT
TCAAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGC
TTCAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGG
ACCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAA
CTCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTAC
GAGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTC
AAGAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTT
CTCCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGG
AGCTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACAT
TTTGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACC
ATTCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCC
TAAACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGT
CCAGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGAC
AGAGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACAC
AAGCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATG
AGAAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGG
TCCAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTT
TCGAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGG
TATTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAA
GATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCA
GGGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTG
CGGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTT
TGTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGA
TAACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAAC
ATTTCCTTGAGAAGCCC
[0259] SEQ ID NO: 103 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto At_AAE3):
GCATCATCTACCTATATTATTTATCATTCCATATCATGCGTGAATAAAAA
TAATAAAATGGATAGCGATACTCTCTCAGGATTATTGGAAAACGTCGCCAAAAA
ATTCCCCGATCGCCGAGCTCTCTCCGTTTCTGGAAAATTCAATCTCACTCACG
CGCGTCTTCACGATCTAATCGAACGCGCCGCTTCACGCCTTGTCTCCGACGC
TGGAATCAAACCCGGCGATGTCGTTGCTCTCACCTTCCCTAACACCGTCGAGT
TTGTTATAATGTTTTTAGCGGTGATAAGAGCTAGAGCCACGGCGGCGCCGTTG
AACGCAGCGTACACGGCGGAGGAATTTGAGTTTTACCTCTCCGATTCAGATTC
AAAGCTATTGTTAACCTCTAAAGAAGGAAACGCACCGGCTCAAGAAGCAGCTT
CAAAGCTGAAAATCTCTCACGTCACCGCTACGCTGCTTGACGCTGGCTCGGA
CCTTGTACTATCCGTTGCGGATTCAGATTCCGTCGTTGACTCAGCGACGGAAC
TCGTTAATCACCCGGACGACGGTGCTCTCTTCCTCCACACTTCTGGCACTACG
AGCCGTCCAAAGGGTGTACCGCTTACGCAGCTCAATCTAGCTTCATCCGTCAA
GAACATTAAAGCTGTGTACAAGCTTACTGAGTCTGATTCTACGGTGATTGTTCT
CCCTCTGTTCCATGTTCATGGATTGTTAGCTGGGTTGCTTAGCTCGCTTGGAG
CTGGTGCTGCTGTAACTCTTCCAGCTGCTGGTAGATTCTCAGCAACAACATTT
TGGCCAGATATGAAGAAGTATAACGCTACATGGTATACTGCTGTGCCGACCAT
TCATCAGATCATATTGGACCGCCACGCGAGCCACCCTGAAACGGAATATCCTA
AACTCCGGTTCATCAGGAGTTGCAGTGCTTCTTTGGCTCCGGTGATATTGTCC
AGGCTTGAGGAAGCGTTTGGAGCACCGGTGCTCGAGGCCTATGCAATGACAG
AGGCAACACATTTGATGAGCTCAAACCCCTTACCAGAGGAAGGTCCACACAA
GCCTGGGTCTGTTGGGAAACCGGTAGGTCAAGAAATGGCGATCCTTAATGAG
AAAGGCGAGATCCAAGAGCCAAATAACAAAGGAGAGGTTTGTATAAGAGGTC
CAAATGTGACCAAGGGTTACAAGAATAACCCAGAAGCCAACAAGGCAGGTTTC
GAGTTTGGGTGGTTCCACACTGGTGATATCGGTTACTTTGATACCGATGGGTA
TTTGCATCTGGTGGGTCGGATCAAAGAGCTTATTAACCGTGGAGGTGAGAAG
ATATCTCCAATTGAAGTGGATGCAGTACTCTTAACGCATCCTGACGTTTCTCAG
GGTGTTGCATTCGGTGTTCCTGATGAGAAATATGGGGAAGAGATTAACTGTGC
GGTGATTCCAAGAGAAGGAACTACTGTAACCGAAGAGGACATTAAAGCGTTTT
GTAAGAAGAATTTGGCAGCTTTCAAGGTGCCAAAGAGAGTGTTCATCACTGAT
AACCTCCCCAAAACTGCCTCTGGTAAGATTCAGCGCCGTATCGTCGCACAACA
TTTCCTTGAGAAGCCC
[0260] SEQ ID NO: 104 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto Sc_YBR222C):
GCATCATCTACCTATATTAATCATCAACCCAATTTTCATATGTATAAAAT
TAACAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAG
CGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCT
ACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCT
AATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0261] SEQ ID NO: 105 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Sc_YBR222C):
GCATCTTTTCCATAACAAAAATTAAACCTCCTCCATATGAAAAATAAAA
ATTATAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTA
GCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACC
TACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCC
TAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0262] SEQ ID NO: 106 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Sc_YBR222C):
GCATCAACTACCTCAATTAATAATCAAACCATCTGAACAATGAATAAAT
TTAAAAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTA
GCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACC
TACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCC
TAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0263] SEQ ID NO: 107 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Sc_YBR222C):
GCATCTTTTCCATAACAAAAATTAAACCTCCTCCATATGAGATATAAAA
TTAACAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTA
GCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACC
TACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCC
TAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0264] SEQ ID NO: 108 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Sc_YBR222C):
GCATCAACTACCTTAATTATTCATCAAACCATATAACATACTAAAAAAAA
TAACAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAG
CGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCT
ACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCT
AATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0265] SEQ ID NO: 109 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Sc_YBR222C):
GCATCATCTACCTATATTACTAATCATTCCAATTAATTACCTTATAAAAT
TAAGAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTAG
CGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACCT
ACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCCT
AATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0266] SEQ ID NO: 110 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Sc_YBR222C):
GCATCTTTTCCATAACAAAAATTAAACCTCCTCCCCCCCACGTTTAAAA
TTAAAAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTA
GCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACC
TACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCC
TAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0267] SEQ ID NO: 111 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Sc_YBR222C):
GCATCAACTACCTTCATTACTTAACAATCCACCTGTTGTGAGTAAAAAT
ATAAGAAAATGACAAGTGCCGCTACTGTTACTGCTTCGTTCAACGATACTTTTA
GCGTATCCGATAATGTCGCCGTTATTGTTCCTGAAACGGACACTCAGGTGACC
TACAGGGATCTATCCCACATGGTGGGTCACTTCCAGACCATGTTCACAAATCC
TAATTCTCCATTGTACGGAGCTGTTTTCAGACAAGATACAGTGGCGATATCCAT
GCGTAATGGGCTGGAATTTATCGTCGCTTTCCTCGGTGCTACTATGGACGCTA
AAATTGGCGCGCCCTTGAATCCCAATTATAAGGAAAAGGAGTTCAATTTTTATT
TGAATGACCTGAAATCTAAGGCGATTTGCGTCCCAAAGGGTACCACAAAGTTA
CAGAGTTCTGAAATTCTAAAATCTGCCTCCACGTTTGGATGTTTTATCGTAGAG
CTGGCCTTCGATGCGACCAGGTTTAGGGTAGAGTATGATATATACTCTCCAGA
GGACAACTACAAAAGGGTTATTTACCGGTCTTTGAACAACGCCAAATTTGTCA
ACACAAATCCCGTTAAATTCCCTGGGTTTGCCCGTTCCAGTGACGTTGCCCTG
ATTTTGCATACCAGTGGTACCACCTCCACTCCAAAAACGGTGCCTTTGTTACAT
TTGAACATTGTGAGAAGCACGTTGAACATTGCTAACACTTACAAGCTAACGCC
CTTGGACAGATCTTATGTCGTGATGCCTCTTTTCCACGTCCATGGGTTAATTG
GTGTTTTACTTTCCACTTTTAGAACTCAGGGTTCTGTTGTGGTTCCCGATGGAT
TCCATCCAAAGTTATTCTGGGACCAATTTGTTAAGTACAACTGTAATTGGTTCA
GTTGCGTTCCCACAATAAGCATGATTATGCTGAACATGCCCAAACCAAACCCT
TTCCCACACATTAGATTCATCAGATCGTGTTCTTCTGCTTTGGCTCCAGCAACG
TTCCATAAGCTGGAGAAGGAATTCAATGCACCTGTCTTGGAGGCCTATGCGAT
GACCGAAGCATCACATCAAATGACCTCAAACAATCTGCCTCCAGGAAAGAGAA
AGCCTGGTACTGTGGGCCAGCCACAAGGAGTCACCGTCGTCATTCTAGATGA
CAATGACAATGTCTTGCCCCCGGGCAAAGTCGGCGAAGTTTCCATCAGAGGC
GAAAACGTCACTTTGGGGTATGCTAATAATCCAAAAGCTAACAAGGAGAACTT
CACCAAGAGAGAGAACTATTTCAGAACCGGTGACCAAGGTTATTTCGACCCTG
AGGGGTTTTTGGTCCTTACAGGCAGAATCAAAGAGCTTATCAACAGGGGTGGT
GAAAAGATTTCACCCATTGAGCTCGACGGCATTATGCTATCGCATCCAAAGAT
CGATGAAGCCGTTGCATTTGGTGTTCCCGACGATATGTACGGCCAAGTAGTTC
AAGCCGCCATTGTTTTGAAGAAGGGAGAAAAAATGACCTACGAAGAACTGGTG
AACTTCTTAAAGAAGCACCTAGCCTCTTTCAAAATTCCAACCAAGGTGTACTTT
GTTGATAAGCTACCAAAAACCGCTACAGGTAAAATCCAGAGAAGAGTTATCGC
AGAAACTTTTGCTAAGAGCAGCAGAAATAAGAGTAAGTTG
[0268] SEQ ID NO: 112 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto Of_oxc):
GCATCCCCAAAAAATTAATTCATTTTCTCTTTTCCCTAACCCTTAAAATA
TAATAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAA
[0269] SEQ ID NO: 113 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Of_oxc):
GCATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATA
TAATAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAA
[0270] SEQ ID NO: 114 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Of_oxc):
GCATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATA
TAATAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAA
[0271] SEQ ID NO: 115 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Of_oxc):
GCATCCCCAAAAAATTAATTCATTTTCTCTTTTCAACAATTTAAAAAAAA
TTAAAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAA
[0272] SEQ ID NO: 116 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Of_oxc):
GCATCCCCAAAAAATTAATTCATTTTCTCTTTTCGATCCTATAAAAAATA
TAACAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAA
[0273] SEQ ID NO: 117 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Of_oxc):
GCATCATCTACCTTTATTATTAATCAATCCATCTCAGTAAGTTTAAAATA
TAACAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTTT
GATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGCA
TTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTAC
AGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACAT
CGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAAC
GGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGTT
GAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGAA
GAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTAT
CAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCTG
TATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCGGT
CAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGATCC
AGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACCTG
ATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATACG
CACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCATT
CCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATCC
GCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTGA
TCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGGG
CGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGACA
GCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTTC
CCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGACC
GGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAGA
TGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGTT
GTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCGC
TAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAAC
GTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCGTT
GCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAGCG
CATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGCCA
GTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCAGA
TCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACGACA
TGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCAGAA
CTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGATCAA
CGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAGCCTG
AACGTTGTAAGTAAAGTTGGCAAGAAA
[0274] SEQ ID NO: 118 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Of_oxc):
GCATCAACTACCTCTATTAATAATCAATCCACATCTTGATCGTAAAAAA
TTTAAAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTT
TGATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGC
ATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTA
CAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACA
TCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAA
CGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGT
TGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGA
AGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTA
TCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCT
GTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCG
GTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGAT
CCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACC
TGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATAC
GCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCAT
TCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATC
CGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTG
ATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGG
GCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGA
CAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTT
CCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGAC
CGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAG
ATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGT
TGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCG
CTAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAA
CGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCG
TTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAG
CGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGC
CAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCA
GATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACG
ACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCA
GAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGA
TCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAG
CCTGAACGTTGTAAGTAAAGTTGGCAAGAAA
[0275] SEQ ID NO: 119 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Of_oxc):
GCATCACCTACCTAAATTACTAAACAAACCACCTGCATTTGTTTTAAAA
ATTACAAAATGAGTAACGACGACAATGTAGAGTTGACTGATGGCTTTCATGTTT
TGATCGATGCCCTGAAAATGAATGACATCGATACCATGTATGGTGTTGTCGGC
ATTCCTATCACGAACCTGGCTCGTATGTGGCAAGATGACGGTCAGCGTTTTTA
CAGCTTCCGTCACGAACAACACGCAGGTTATGCAGCTTCTATCGCCGGTTACA
TCGAAGGAAAACCTGGCGTTTGCTTGACCGTTTCCGCCCCTGGCTTCCTGAA
CGGCGTGACTTCCCTGGCTCATGCAACCACCAACTGCTTCCCAATGATCCTGT
TGAGCGGTTCCAGTGAACGTGAAATCGTCGATTTGCAACAGGGCGATTACGA
AGAAATGGATCAGATGAATGTTGCACGTCCACACTGCAAAGCTTCTTTCCGTA
TCAACAGCATCAAAGACATTCCAATCGGTATCGCTCGTGCAGTTCGCACCGCT
GTATCCGGACGTCCAGGTGGTGTTTACGTTGACTTGCCAGCAAAACTGTTCG
GTCAGACCATTTCTGTAGAAGAAGCTAACAAACTGCTCTTCAAACCAATCGAT
CCAGCTCCGGCACAGATTCCTGCTGAAGATGCTATCGCTCGCGCTGCTGACC
TGATCAAGAACGCCAAACGTCCAGTTATCATGCTGGGTAAAGGCGCTGCATAC
GCACAATGCGACGACGAAATCCGCGCACTGGTTGAAGAAACCGGCATCCCAT
TCCTGCCAATGGGTATGGCTAAAGGCCTGCTGCCTGACAACCATCCACAATC
CGCTGCTGCAACCCGTGCTTTCGCACTGGCACAGTGTGACGTTTGCGTACTG
ATCGGCGCTCGTCTGAACTGGCTGATGCAGCACGGTAAAGGCAAAACCTGGG
GCGACGAACTGAAGAAATACGTTCAGATCGACATCCAGGCTAACGAAATGGA
CAGCAACCAGCCTATCGCTGCACCAGTTGTTGGTGACATCAAGTCCGCCGTTT
CCCTGCTCCGCAAAGCACTGAAAGGCGCTCCAAAAGCTGACGCTGAATGGAC
CGGCGCTCTGAAAGCCAAAGTTGACGGCAACAAAGCCAAACTGGCTGGCAAG
ATGACTGCCGAAACCCCATCCGGAATGATGAACTACTCCAATTCCCTGGGCGT
TGTTCGTGACTTCATGCTGGCAAATCCGGATATTTCCCTGGTTAACGAAGGCG
CTAATGCACTCGACAACACTCGTATGATTGTTGACATGCTGAAACCACGCAAA
CGTCTTGACTCCGGTACCTGGGGTGTTATGGGTATTGGTATGGGCTACTGCG
TTGCTGCAGCTGCTGTTACCGGCAAACCGGTTATCGCTGTTGAAGGCGATAG
CGCATTCGGTTTCTCCGGTATGGAACTGGAAACCATCTGCCGTTACAACCTGC
CAGTTACCGTTATCATCATGAACAATGGTGGTATCTATAAAGGTAACGAAGCA
GATCCACAACCAGGCGTTATCTCCTGTACCCGTCTGACCCGTGGTCGTTACG
ACATGATGATGGAAGCATTTGGCGGTAAAGGTTATGTTGCCAATACTCCAGCA
GAACTGAAAGCTGCTCTGGAAGAAGCTGTTGCTTCCGGCAAACCATGCCTGA
TCAACGCGATGATCGATCCAGACGCTGGTGTCGAATCTGGCCGTATCAAGAG
CCTGAACGTTGTAAGTAAAGTTGGCAAGAAA
[0276] SEQ ID NO: 120 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto Sc_YEL020C):
GCATCAACTACCTAAATTAATCATCAAACCAACTAGAATATGAAAAAAA
ATAAAAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAAT
ATGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCG
GATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGC
TGCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGT
TACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAAC
TCAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAG
TGATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCC
CATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTC
AGAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGAC
GTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTAC
AGGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGT
CGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTC
TGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTA
GTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTC
CCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATA
GCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGT
ACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCC
GAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGG
AGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATT
CCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTG
AATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTA
CAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATAC
TTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACA
GACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATT
GGGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGG
TGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACG
GCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTAT
TTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCA
AGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTT
GTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTC
TCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAAC
AAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0277] SEQ ID NO: 121 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Sc_YEL020C):
GCATCAACTACCTCAATTAATAAACAAACCAACTGTCCAATGTATAAAA
TTAAAAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAAT
ATGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCG
GATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGC
TGCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGT
TACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAAC
TCAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAG
TGATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCC
CATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTC
AGAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGAC
GTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTAC
AGGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGT
CGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTC
TGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTA
GTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTC
CCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATA
GCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGT
ACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCC
GAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGG
AGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATT
CCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTG
AATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTA
CAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATAC
TTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACA
GACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATT
GGGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGG
TGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACG
GCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTAT
TTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCA
AGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTT
GTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTC
TCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAAC
AAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0278] SEQ ID NO: 122 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Sc_YEL020C):
GCATCAACTACCTCAATTACTAAACAATCCACATTATTAATATAAAAATA
TAAAAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATA
TGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGG
ATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCT
GCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTT
ACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAACT
CAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGT
GATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCC
ATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTCA
GAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGACG
TCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTACA
GGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGTC
GAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTCT
GATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTAG
TAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTCC
CAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATAG
CGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGTA
CTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCCG
AAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGGA
GATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATTC
CTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTGA
ATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTAC
AACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATACTT
GTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACAGA
CGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTGG
GCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTG
CTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGC
AGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTT
ACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAA
GAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTG
TCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCT
CGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACA
AAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0279] SEQ ID NO: 123 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Sc_YEL020C):
GCATCAACACCTAAATTAATTAACACACCATATATTAAACCATAAAAAA
TAAGAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATA
TGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGG
ATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCT
GCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTT
ACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAACT
CAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGT
GATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCC
ATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTCA
GAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGACG
TCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTACA
GGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGTC
GAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTCT
GATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTAG
TAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTCC
CAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATAG
CGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGTA
CTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCCG
AAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGGA
GATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATTC
CTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTGA
ATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTAC
AACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATACTT
GTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACAGA
CGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTGG
GCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTG
CTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGC
AGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTT
ACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAA
GAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTG
TCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCT
CGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACA
AAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0280] SEQ ID NO: 124 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Sc_YEL020C):
GCATCTTCTACCCATATTCCCCCTAATCCCATCTGTTATATTATTAAATT
TAATAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATA
TGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGG
ATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCT
GCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTT
ACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAACT
CAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGT
GATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCC
ATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTCA
GAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGACG
TCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTACA
GGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGTC
GAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTCT
GATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTAG
TAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTCC
CAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATAG
CGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGTA
CTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCCG
AAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGGA
GATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATTC
CTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTGA
ATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTAC
AACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATACTT
GTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACAGA
CGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTGG
GCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTG
CTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGC
AGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTT
ACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAA
GAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTG
TCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCT
CGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACA
AAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0281] SEQ ID NO: 125 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Sc_YEL020C):
GCATCATCTACCTACATTATTTAACAAACCACATTTAAAAGGAAAAAAT
ATTAAAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAAT
ATGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCG
GATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGC
TGCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGT
TACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAAC
TCAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAG
TGATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCC
CATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTC
AGAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGAC
GTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTAC
AGGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGT
CGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTC
TGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTA
GTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTC
CCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATA
GCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGT
ACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCC
GAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGG
AGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATT
CCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTG
AATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTA
CAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATAC
TTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACA
GACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATT
GGGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGG
TGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACG
GCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTAT
TTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCA
AGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTT
GTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTC
TCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAAC
AAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0282] SEQ ID NO: 126 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Sc_YEL020C):
GCATCACCTACCTATATTATTTATCATTCCACATGCGTTATTATTAAATT
TTAAAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAATA
TGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCGG
ATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGCT
GCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGTT
ACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAACT
CAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAGT
GATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCCC
ATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTCA
GAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGACG
TCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTACA
GGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGTC
GAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTCT
GATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTAG
TAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTCC
CAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATAG
CGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGTA
CTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCCG
AAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGGA
GATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATTC
CTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTGA
ATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTAC
AACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATACTT
GTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACAGA
CGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATTGG
GCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGGTG
CTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACGGC
AGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTATTT
ACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCAA
GAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTTG
TCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTCT
CGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAACA
AAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0283] SEQ ID NO: 127 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Sc_YEL020C):
GCATCTAAACAACATATTCCCCCTAAACCAAAATATTTAGGGTATAAAA
ATTAAAAAATGACCACGACCGCTACCCAACACTTCGCTCAACTTTTACAAAAAT
ATGGCATCGACACAGTCTTTGGAATTGTGGGCATCCCTATTGTCCAACTAGCG
GATACGATGGTTGCCAACGGTATCAAATTCATTCCATGCAGGAACGAACAGGC
TGCCTCATATGCAGCCTCTGCTTATGGTTATATTAGTGATAAGCCCGGCGTGT
TACTTATTGTCGGGGGCCCCGGTTTAATCCACGCACTGGCTGGTATATACAAC
TCAATGAGTAATAGGTGGCCTCTTCTAGTAATTGCAGGGAGTTCTTCTCAAAG
TGATATACATAAAGGCGGGTTTCAAGAGTTGGATCAAGTTAGTCTTTTGTCCC
CATTTTTGAAGTTTACCGGAAAGTTAACCCCTGACAATATTGACATGATTACTC
AGAAGGCTTTGAATTACTGTATACAAGGCACTGCAGGGGTTTCTTACATAGAC
GTCCCTGCAGATTTTATTGAGTATGAAAAACCCTTAGAAGGAAACGACCGTAC
AGGAAATGAATTACCGATGATATTAACTCCAAACATATGTGGCCCTGATCCGT
CGAAGATCAAAAAAGTCGTACAGCTTATTTTGCAACATAAAAATAAAAATATTC
TGATTGTTATTGGAAAGGGTGCGGTAAAAAACTCACACGAAATCCGCAGACTA
GTAAATACGTTCAATCTACCATTTTTACCCACCCCAATGGCTAAGGGAATTGTC
CCAGACTCTTCTCCACTGAACGTTTCATCTGCAAGATCTCAAGCATTGAAAATA
GCGGATATTGTTCTTGTTCTCGGGGCAAGATTAAACTGGATATTGCATTTTGGT
ACTTCACCCAAATGGAACTCAGAATCCATATTCATCCAGTTCGATTCCAATCCC
GAAACCTTGGGGGATAACAATGTCTCACCTGGTGCTGACCTTTCCATATGGGG
AGATATAGGCTTGAGCGTAACCGCTTTAGTTGAGGAATTGACTCGCCAAGATT
CCTGCTGGAAGTATAGTGGTGTTAAGCAAGAAATACGAGAGAAAATTCAACTG
AATCAAACTCGTCTATTGAGGAAAGAGAAGACTAGAGGGGCACAATTGAATTA
CAACCAGGTTTATGGAACATTGAGGCCTCTTATCGATGATTACAGGACAATAC
TTGTGACGGAGGGAGCAAATACTATGGATATTGCGCGTATTTCATTCCCTACA
GACGCTCCAAGGCGCCGTTTAGACGCAGGGACCAACGCGACTATGGGGATT
GGGCTCGGATATGCTCTTGCATGCAAGGCATCTCATCCGGAACTCGATGTGG
TGCTGATTCAGGGTGATTCCGCATTTGGATTCTCTGCCATGGAAATTGAAACG
GCAGTAAGGTGTCAGCTGGCATTGGTCATCGTTGTGATGAACAATAGCGGTAT
TTACCATGGAGAAAAGGATATAGAGGGTGATTTACCTCCAACGGCACTAAGCA
AGAACTGCCGTTACGATCTCGTAGGCAAAGGACTGGGTGCCAATGATTTTTTT
GTCAACACAATAAGCGAACTGAGCAGATGCTTCCAACAAGCCGTGCAGCTTTC
TCGGACTAAAAGAGAAACAAGTGTCATCAACGTTATCATTGAGCCTGGCGAAC
AAAAGCAAATTGCCTTTGCCTGGCAGAATAAACCGCGTTTA
[0284] SEQ ID NO: 128 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto Ec_yfdE):
GCATCATCTACCTTTATTAATCAACAATCCAAATTATTAATAAAAAAAAT
TTAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTAT
CGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATAT
GGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGC
ACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCAT
GGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTT
ATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACA
ATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCT
CATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTC
CTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGG
ATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCG
GCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAG
AGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTT
TTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGT
CTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGA
TAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCA
GGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTT
TACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAA
CGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGT
CGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0285] SEQ ID NO: 129 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Ec_yfdE):
GCATCAACTACCTAAATTACTTATCAAACCACTTAGTAGTAAAAAAAAT
ATAACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTA
TCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATA
TGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCG
CACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCA
TGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATT
TATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTAC
AATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCC
TCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCT
CCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAG
GATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGC
GGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAA
GAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGT
TTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACG
TCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGG
ATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCC
AGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATT
TTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAA
ACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCG
TCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0286] SEQ ID NO: 130 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Ec_yfdE):
GCATCACTATTACAAAAAAAACACCAATATTACATGGTCTCTTTTAAAT
ATTATAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTA
TCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATA
TGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCG
CACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCA
TGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATT
TATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTAC
AATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCC
TCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCT
CCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAG
GATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGC
GGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAA
GAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGT
TTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACG
TCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGG
ATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCC
AGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATT
TTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAA
ACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCG
TCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0287] SEQ ID NO: 131 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Ec_yfdE):
GCATCATCTACCTATATTACTAAACAAACCAATTATAATAATTTTAAAAA
TAAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTAT
CGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATAT
GGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCGC
ACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCAT
GGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATTT
ATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTACA
ATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCCT
CATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCTC
CTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAGG
ATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGCG
GCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAAG
AGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGTT
TTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACGT
CTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGGA
TAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCCA
GGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATTT
TACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAAA
CGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCGT
CGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0288] SEQ ID NO: 132 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Ec_yfdE):
GCATCACCTACCTCTATTACTAATCAAACCATTTAAATGTAGTAAAAAT
ATAATAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTA
TCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATA
TGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCG
CACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCA
TGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATT
TATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTAC
AATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCC
TCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCT
CCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAG
GATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGC
GGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAA
GAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGT
TTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACG
TCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGG
ATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCC
AGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATT
TTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAA
ACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCG
TCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0289] SEQ ID NO: 133 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Ec_yfdE):
GCATCAACTACCTAAATTAATAAACACACCAACTTCCATGAATAAAAAT
ATAAAAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTA
TCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATA
TGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCG
CACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCA
TGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATT
TATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTAC
AATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCC
TCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCT
CCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAG
GATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGC
GGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAA
GAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGT
TTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACG
TCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGG
ATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCC
AGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATT
TTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAA
ACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCG
TCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0290] SEQ ID NO: 134 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Ec_yfdE):
GCATCATCTACCTATATTATTTACCACCCCACCTAACTTTAGATTAAAA
TTTACAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTA
TCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATA
TGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCG
CACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCA
TGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATT
TATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTAC
AATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCC
TCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCT
CCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAG
GATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGC
GGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAA
GAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGT
TTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACG
TCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGG
ATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCC
AGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATT
TTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAA
ACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCG
TCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0291] SEQ ID NO: 135 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Ec_yfdE):
GCATCACCTACCTTCATTACTCACCATACCAACTAGCACAGTTATAAAA
ATAAGAAAATGACAAATAATGAAAGCAAAGGGCCGTTTGAAGGCTTATTAGTTA
TCGATATGACACATGTCCTTAATGGACCTTTCGGAACTCAACTTCTTTGTAATA
TGGGCGCAAGGGTAATTAAAGTTGAGCCGCCGGGTCATGGTGATGATACCCG
CACATTTGGTCCCTATGTGGATGGACAGTCACTCTATTACAGTTTTATTAATCA
TGGCAAAGAGAGTGTGGTTCTTGATTTAAAGAATGATCACGATAAAAGTATATT
TATAAATATGCTCAAACAAGCTGATGTATTAGCTGAGAATTTTCGCCCAGGTAC
AATGGAAAAACTGGGGTTTTCATGGGAAACGCTTCAAGAAATCAACCCGCGCC
TCATATATGCTTCATCGTCAGGTTTCGGACATACCGGTCCGCTAAAAGATGCT
CCTGCCTACGATACCATCATTCAGGCAATGAGCGGGATAATGATGGAAACAG
GATATCCTGATGCTCCGCCAGTGCGCGTTGGTACATCTCTTGCGGATCTATGC
GGCGGTGTCTATTTATTCAGCGGAATAGTGAGTGCACTTTATGGCCGCGAAAA
GAGCCAGAGAGGGGCGCATGTCGATATAGCGATGTTTGATGCCACGCTGAGT
TTTCTGGAGCATGGTCTGATGGCATATATCGCAACTGGGAAGTCACCACAACG
TCTGGGAAATCGCCATCCCTACATGGCACCTTTTGATGTTTTCAATACTCAGG
ATAAGCCGATTACGATTTGTTGTGGTAATGACAAGCTTTTTTCTGCGTTATGCC
AGGCACTGGAGCTTACGGAACTGGTTAATGATCCCCGATTTAGCAGCAATATT
TTACGCGTACAAAACCAGGCTATTCTTAAACAATATATTGAGCGGACGTTAAAA
ACGCAGGCAGCTGAAGTTTGGTTAGCCAGAATACATGAAGTTGGTGTACCCG
TCGCGCCGTTATTAAGTGTGGCTGAGGCCATTAAATTGCCACAAACTCAGGCG
AGAAATATGTTGATTGAAGCCGGGGGAATAATGATGCCGGGTAATCCGATAAA
AATCAGCGGCTGCGCGGACCCGCATGTTATGCCGGGAGCGGCAACGCTCGA
CCAGCATGGGGAACAAATTCGCCAGGAGTTCTCATCA
[0292] SEQ ID NO: 136 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto Ec_frc):
GCATCATCTACCTAAATTAATAAACAACCCATTTATAAACCCTTTAAAAT
TAACAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGT
GCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTA
TTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGA
TATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTC
TATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGA
TCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCAC
ATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGG
TTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATG
AAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGA
TGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAAT
GCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGC
GTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCG
CGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAAT
ACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAA
TGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0293] SEQ ID NO: 137 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Ec_frc):
GCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAA
TAATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGT
GCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTA
TTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGA
TATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTC
TATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGA
TCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCAC
ATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGG
TTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATG
AAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGA
TGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAAT
GCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGC
GTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCG
CGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAAT
ACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAA
TGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0294] SEQ ID NO: 138 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Ec_frc):
GCATCATCTACCTTAATTAATAAACAAACCAATTTAACTAATTTAAAAAA
TATAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGTG
CAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTAT
TAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGAT
ATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTCT
ATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGAT
CCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCACA
TGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGGT
TCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATGA
AAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGAT
GGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAATG
CATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGCG
TGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCGC
GTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAATA
CCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAAT
GCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0295] SEQ ID NO: 139 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Ec_frc):
GCATCATCTACCTTCATTATTAATCATTCCAATTGTATCACTTAAAAATA
TAAAAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGT
GCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTA
TTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGA
TATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTC
TATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGA
TCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCAC
ATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGG
TTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATG
AAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGA
TGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAAT
GCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGC
GTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCG
CGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAAT
ACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAA
TGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0296] SEQ ID NO: 140 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Ec_frc):
GCATCTTAATCAATTTTAAACTCACCAAATCAAATATCACGTAAAAAATA
TAAGAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTGT
GCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTTA
TTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAGA
TATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTTC
TATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTGA
TCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCAC
ATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTGG
TTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTATG
AAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGGGA
TGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGAAT
GCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGGGC
GTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGCCG
CGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGAAT
ACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGTAA
TGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGGAA
ACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAAAC
ACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGTAC
AGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAATA
CACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGATAT
TCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTGCG
CCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCTGA
CCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTGCG
CCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAGCG
ACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0297] SEQ ID NO: 141 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Ec_frc):
GCATCAACTACCTCAATTATTTAACACACCAATTACTATACGTAAAAAT
ATAAAAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTG
TGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTT
ATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAG
ATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTT
CTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTG
ATCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCA
CATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTG
GTTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTAT
GAAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGG
GATGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGA
ATGCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGG
GCGTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGC
CGCGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGA
ATACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGT
AATGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGG
AAACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAA
ACACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGT
ACAGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAA
TACACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGAT
ATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTG
CGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCT
GACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTG
CGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAG
CGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0298] SEQ ID NO: 142 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Ec_frc):
GCATCTTAATCAATTTTAAACTCACCAAATCAAAAAAATGCGTATAAAA
ATTAAAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTG
TGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTT
ATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAG
ATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTT
CTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTG
ATCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCA
CATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTG
GTTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTAT
GAAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGG
GATGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGA
ATGCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGG
GCGTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGC
CGCGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGA
ATACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGT
AATGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGG
AAACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAA
ACACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGT
ACAGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAA
TACACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGAT
ATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTG
CGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCT
GACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTG
CGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAG
CGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0299] SEQ ID NO: 143 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Ec_frc):
GCATCTTAATCAATTTTAAACTCACCAAATCAAAGGCCGACTTAAAAAT
ATTAGAAAATGTCAACTCCACTTCAAGGAATTAAAGTTCTCGATTTCACCGGTG
TGCAATCTGGCCCATCTTGTACTCAAATGCTGGCCTGGTTTGGCGCTGACGTT
ATTAAAATTGAACGTCCCGGCGTTGGTGACGTAACGCGTCACCAGCTGCGAG
ATATTCCTGATATCGATGCGCTTTACTTCACCATGCTTAACAGTAACAAACGTT
CTATTGAGTTAAATACCAAAACAGCGGAAGGCAAAGAGGTAATGGAAAAGCTG
ATCCGCGAAGCTGATATCTTAGTCGAGAACTTTCATCCAGGGGCCATTGATCA
CATGGGCTTCACCTGGGAGCATATTCAAGAAATCAATCCACGTCTGATTTTTG
GTTCGATCAAAGGGTTTGATGAGTGTTCGCCTTATGTGAATGTAAAAGCCTAT
GAAAACGTTGCTCAGGCAGCGGGTGGCGCGGCATCCACTACGGGTTTTTGG
GATGGTCCGCCGCTGGTAAGCGCTGCAGCGTTGGGTGACAGCAACACCGGA
ATGCATTTGCTGATCGGTTTACTTGCTGCTTTGCTGCATCGCGAAAAAACGGG
GCGTGGGCAACGAGTCACCATGTCAATGCAGGATGCCGTATTGAACCTTTGC
CGCGTGAAATTACGTGACCAGCAGCGTCTAGATAAATTGGGTTATCTGGAAGA
ATACCCGCAGTATCCGAATGGTACATTTGGTGATGCAGTTCCCCGCGGTGGT
AATGCAGGTGGTGGCGGTCAGCCTGGCTGGATCCTGAAATGTAAAGGCTGGG
AAACCGATCCTAACGCCTATATTTATTTCACTATTCAGGAGCAAAACTGGGAAA
ACACCTGTAAAGCCATCGGCAAACCAGAATGGATTACCGATCCGGCATACAGT
ACAGCCCATGCACGACAGCCACATATTTTCGATATTTTTGCTGAAATCGAAAAA
TACACTGTCACTATTGATAAACATGAAGCGGTGGCCTATTTGACTCAGTTTGAT
ATTCCTTGTGCACCGGTTTTAAGTATGAAAGAAATTTCACTTGATCCCTCTTTG
CGCCAAAGTGGCAGTGTTGTTGAAGTGGAACAACCGTTGCGTGGAAAATATCT
GACCGTTGGTTGTCCAATGAAATTCTCTGCCTTTACGCCGGATATTAAAGCTG
CGCCGCTATTAGGTGAACATACCGCTGCTGTATTGCAGGAGCTGGGTTATAG
CGACGATGAAATTGCTGCAATGAAGCAAAACCACGCCATC
[0300] SEQ ID NO: 144 (Sítio de ligação ao ribossomo RBS1 e quadro de leitura aberto Of_oxlT):
GCATCACCTAAAAATTATAAATAAATTAATAAACCTTTTAACATAAAAAT
TAATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATC
GTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTC
CAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTC
TTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTT
CTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTG
ATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTG
ACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGT
ATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0301] SEQ ID NO: 145 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Of_oxlT):
GCATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAA
TTACAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATC
GTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTC
CAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTC
TTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTT
CTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTG
ATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTG
ACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGT
ATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0302] SEQ ID NO: 146 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Of_oxlT):
GCATCACCTAAAAATTATAAATAAATTAATAAACATAACATAAATAAAAT
TAATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATC
GTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTC
CAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTC
TTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTT
CTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTG
ATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTG
ACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGT
ATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0303] SEQ ID NO: 147 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Of_oxlT):
GCATCACCTAAAAATTATAAATAAATTAATAAACCACAATACTAAAAATT
TAATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATC
GTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTC
CAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTC
TTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTT
CTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTG
ATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTG
ACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGT
ATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0304] SEQ ID NO: 148 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Of_oxlT):
GCATCAACTACCTACATTAATAACCAACCCAAATGCCTAATCAATAAAT
ATTATAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAAT
CGTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGT
CCAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTT
CTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGT
TCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATT
GATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTT
GACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGG
TATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0305] SEQ ID NO: 149 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Of_oxlT):
GCATCATCTACCTATATTATTCATCAAACCATTTGATCCAACATTAAATA
TTAAAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAATC
GTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGTC
CAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTTC
TTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGTT
CTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATTG
ATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTTG
ACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGGT
ATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0306] SEQ ID NO: 150 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Of_oxlT):
GCATCACCTACCTCAATTATTAATCATACCAACTGGATTTGATTTAAAA
ATAAGAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAAT
CGTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGT
CCAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTT
CTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGT
TCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATT
GATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTT
GACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGG
TATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0307] SEQ ID NO: 151 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Of_oxlT):
GCATCACCTACCTTTATTACTCATCATACCAAATGGTAGCGGATTAAAT
ATTAGAAAATGAATAATCCACAAACAGGACAATCAACAGGCCTCTTGGGCAAT
CGTTGGTTCTACTTGGTATTAGCAGTTTTGCTGATGTGTATGATCTCGGGTGT
CCAATATTCCTGGACACTGTACGCTAACCCGGTTAAAGACAACCTTGGCGTTT
CTTTGGCTGCGGTTCAGACGGCTTTCACACTCTCTCAGGTCATTCAAGCTGGT
TCTCAGCCTGGTGGTGGTTACTTCGTTGATAAATTCGGTCCAAGAATTCCATT
GATGTTCGGTGGTGCGATGGTTCTCGCTGGCTGGACCTTCATGGGTATGGTT
GACAGTGTTCCTGCTCTGTATGCTCTTTATACTCTGGCCGGTGCAGGTGTTGG
TATCGTTTACGGTATCGCGATGAACACGGCTAACAGATGGTTCCCGGACAAAC
GCGGTCTGGCTTCCGGTTTCACCGCTGCCGGTTACGGTCTGGGTGTTCTGCC
GTTCCTGCCACTGATCAGCTCCGTTCTGAAAGTTGAAGGTGTTGGCGCAGCAT
TCATGTACACCGGTTTGATCATGGGTATCCTGATTATCCTGATCGCTTTCGTTA
TCCGTTTCCCTGGCCAGCAAGGCGCCAAAAAACAAATCGTTGTTACCGACAAG
GATTTCAATTCTGGCGAAATGCTGAGAACACCACAATTCTGGGTTCTGTGGAC
CGCATTCTTTTCCGTTAACTTTGGTGGTTTGCTGCTGGTTGCCAACAGCGTCC
CTTACGGTCGCAGCCTCGGTCTTGCCGCAGGTGTGCTGACGATCGGTGTTTC
GATCCAGAACCTGTTCAATGGTGGTTGCCGTCCTTTCTGGGGTTTCGTTTCCG
ATAAAATCGGCCGTTACAAAACCATGTCCGTCGTTTTCGGTATCAATGCTGTT
GTTCTCGCACTTTTCCCGACGATTGCTGCCTTGGGCGATGTAGCCTTTATCGC
CATGTTGGCAATCGCATTCTTCACATGGGGTGGTAGCTACGCTCTGTTCCCAT
CGACCAACAGCGATATTTTCGGTACGGCATACTCTGCCAGAAACTATGGTTTC
TTCTGGGCTGCAAAAGCAACTGCCTCGATCTTCGGTGGTGGTCTGGGTGCTG
CAATTGCAACCAACTTCGGATGGAATACCGCTTTCCTGATTACTGCGATTACTT
CTTTCATCGCATTTGCTCTGGCTACCTTCGTTATTCCAAGAATGGGCCGTCCA
GTCAAGAAAATGGTCAAATTGTCTCCAGAAGAAAAAGCTGTACAT
[0308] SEQ ID NO: 152 (Sítio de ligação ao ribossomo 'RBS1 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCATCTACCTTAATTAATCAACAAACCAATTACCAACCTAAAAAAT
ATAAGAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAG
TACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGC
CGACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAG
CCGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGT
CCTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATA
ATAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCA
GTCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTA
AGTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGAT
AACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATA
TCGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGA
TAGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCA
GACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAA
GAACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTA
GACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAA
GGCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAG
GCTCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGAT
CCTTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATT
TGACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGAT
TTAAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGC
TCACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAG
GGAAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTG
GAGCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGAC
GACTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTA
GAATAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAAT
GCTACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCC
TGAGTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTA
TGGAGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATG
AATAACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCC
GACCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAG
CTAACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGG
CAGTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATC
GAACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGAC
TG
[0309] SEQ ID NO: 153 (Sítio de ligação ao ribossomo RBS2 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0310] SEQ ID NO: 154 (Sítio de ligação ao ribossomo RBS3 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCTACCCCTAACAACCCATAAATTTAACTTTAAAAAATTTTTAAATA
TAATAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0311] SEQ ID NO: 155 (Sítio de ligação ao ribossomo RBS4 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0312] SEQ ID NO: 156 (Sítio de ligação ao ribossomo RBS5 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCTACCCCTAACAACCCATAAATTTAACTTTTCTACAAAAAAAAAT
ATAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAG
TACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGC
CGACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAG
CCGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGT
CCTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATA
ATAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCA
GTCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTA
AGTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGAT
AACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATA
TCGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGA
TAGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCA
GACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAA
GAACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTA
GACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAA
GGCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAG
GCTCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGAT
CCTTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATT
TGACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGAT
TTAAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGC
TCACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAG
GGAAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTG
GAGCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGAC
GACTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTA
GAATAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAAT
GCTACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCC
TGAGTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTA
TGGAGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATG
AATAACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCC
GACCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAG
CTAACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGG
CAGTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATC
GAACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGAC
TG
[0313] SEQ ID NO: 157 (Sítio de ligação ao ribossomo RBS6 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCACCTACCTACATTAATAACCATACCATCTCAGTTTTAAATAAAT
TTTAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAG
TACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGC
CGACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAG
CCGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGT
CCTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATA
ATAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCA
GTCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTA
AGTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGAT
AACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATA
TCGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGA
TAGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCA
GACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAA
GAACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTA
GACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAA
GGCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAG
GCTCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGAT
CCTTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATT
TGACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGAT
TTAAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGC
TCACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAG
GGAAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTG
GAGCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGAC
GACTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTA
GAATAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAAT
GCTACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCC
TGAGTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTA
TGGAGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATG
AATAACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCC
GACCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAG
CTAACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGG
CAGTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATC
GAACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGAC
TG
[0314] SEQ ID NO: 158 (Sítio de ligação ao ribossomo RBS7 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCACCTACCTTAATTAATCACCATTCCATATCCTTTCAAAAAAAAT
ATAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAG
TACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGC
CGACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAG
CCGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGT
CCTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATA
ATAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCA
GTCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTA
AGTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGAT
AACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATA
TCGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGA
TAGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCA
GACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAA
GAACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTA
GACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAA
GGCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAG
GCTCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGAT
CCTTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATT
TGACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGAT
TTAAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGC
TCACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAG
GGAAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTG
GAGCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGAC
GACTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTA
GAATAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAAT
GCTACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCC
TGAGTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTA
TGGAGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATG
AATAACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCC
GACCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAG
CTAACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGG
CAGTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATC
GAACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGAC
TG
[0315] SEQ ID NO: 159 (Sítio de ligação ao ribossomo RBS8 e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCACCTACCTCTATTAATCATCATTCCAATTTAGGCTCATTAAATA
TTAGAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0316] SEQ ID NO: 160 (Sítio de ligação ao ribossomo RBS1b e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCATCTACCTTAATTAATCAACAAACCAATTACCAACCTAAAAAAT
ATAAGAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAG
TACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGC
CGACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAG
CCGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGT
CCTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATA
ATAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCA
GTCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTA
AGTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGAT
AACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATA
TCGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGA
TAGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCA
GACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAA
GAACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTA
GACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAA
GGCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAG
GCTCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGAT
CCTTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATT
TGACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGAT
TTAAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGC
TCACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAG
GGAAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTG
GAGCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGAC
GACTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTA
GAATAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAAT
GCTACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCC
TGAGTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTA
TGGAGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATG
AATAACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCC
GACCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAG
CTAACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGG
CAGTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATC
GAACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGAC
TG
[0317] SEQ ID NO: 161 (Sítio de ligação ao ribossomo RBS2b e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCAACTACCTTTATTATTCAACAAACCAATTTAACATAGTAAAAAAA
TAAAAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0318] SEQ ID NO: 162 (Sítio de ligação ao ribossomo RBS3b e quadro de leitura aberto Sc_YEL020C (códon otimizado)):
GCATCTACCCCTAACAACCCATAAATTTAACTTTAAAAAATTTTTAAATA
TAAGAAAATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGT
ACGGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCC
GACACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGC
CGCAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTC
CTGTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAA
TAGTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAG
TCAGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAA
GTCCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATA
ACCCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATAT
CGATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGAT
AGAACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAG
ACCCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAG
AACATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAG
ACGCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAG
GCATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGC
TCTTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCC
TTCACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTG
ACAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTT
AAGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTC
ACGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGG
AAAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGA
GCTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGA
CTATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAA
TAAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCT
ACAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGA
GTTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGG
AGATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAAT
AACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGA
CCGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCT
AACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0319] SEQ ID NO: 163 (Oxalil-CoA decarboxilase (OXC) de Saccharomyces cerevisiae S288C; EC 4.1.1.8; Acesso UniProt P39994; Sc_YEL020C; Códon otimizado):
ATGACTACCACAGCAACGCAGCATTTTGCCCAGTTACTCCAGAAGTAC
GGAATTGATACTGTCTTCGGCATAGTAGGTATTCCGATCGTGCAGTTGGCCGA
CACTATGGTCGCGAATGGAATTAAGTTTATACCGTGTCGCAATGAGCAAGCCG
CAAGTTACGCGGCAAGCGCCTACGGCTACATCTCGGACAAACCTGGTGTCCT
GTTAATCGTGGGAGGGCCTGGCCTTATTCATGCCTTAGCGGGGATCTATAATA
GTATGTCGAACCGCTGGCCCTTGTTGGTCATCGCCGGATCCAGCAGCCAGTC
AGACATCCACAAGGGAGGTTTCCAGGAACTTGACCAGGTGTCCTTGCTAAGT
CCGTTCCTAAAATTCACTGGTAAACTGACGCCGGATAACATCGATATGATAAC
CCAAAAAGCACTCAACTATTGCATTCAGGGAACCGCCGGAGTGAGCTATATCG
ATGTCCCCGCTGACTTCATCGAATACGAGAAGCCGCTTGAGGGCAATGATAG
AACTGGTAACGAGCTGCCAATGATCCTGACGCCCAATATCTGCGGTCCAGAC
CCCAGTAAAATTAAGAAGGTGGTGCAATTGATACTCCAGCACAAGAACAAGAA
CATATTAATAGTGATAGGTAAAGGAGCAGTGAAGAATAGCCATGAGATTAGAC
GCTTGGTTAACACCTTTAACTTGCCGTTCCTTCCGACTCCCATGGCGAAAGGC
ATAGTGCCCGATAGCAGCCCTTTAAATGTGAGCAGCGCCCGGAGCCAGGCTC
TTAAGATTGCTGACATCGTGTTAGTATTGGGAGCTCGCCTGAATTGGATCCTT
CACTTCGGAACGAGTCCAAAGTGGAATAGCGAGAGTATTTTTATACAATTTGA
CAGTAACCCGGAAACGCTCGGAGACAATAACGTTAGTCCCGGAGCAGATTTA
AGTATCTGGGGGGACATCGGACTATCGGTTACTGCACTGGTAGAAGAGCTCA
CGAGACAGGACAGTTGTTGGAAATACTCGGGAGTCAAACAGGAGATCAGGGA
AAAGATACAGTTAAACCAGACCAGATTGCTCCGTAAGGAAAAAACGCGTGGAG
CTCAGCTTAACTATAATCAAGTGTACGGCACCCTTCGTCCGTTAATTGACGAC
TATCGCACGATCTTGGTCACAGAAGGTGCCAACACAATGGACATCGCTAGAAT
AAGTTTTCCGACTGATGCACCTCGCAGAAGACTTGATGCTGGTACAAATGCTA
CAATGGGTATAGGTTTAGGTTACGCATTAGCGTGTAAAGCCAGCCACCCTGAG
TTAGACGTTGTTTTAATCCAAGGCGACAGTGCCTTCGGTTTTAGCGCTATGGA
GATCGAGACTGCCGTCCGTTGCCAATTAGCCCTTGTGATTGTCGTAATGAATA
ACTCTGGGATATATCACGGTGAGAAAGACATCGAAGGAGATCTGCCCCCGAC
CGCTTTGTCAAAAAATTGTAGATATGACTTGGTCGGTAAGGGTTTAGGAGCTA
ACGACTTCTTCGTCAATACCATCTCAGAGTTATCTCGCTGTTTTCAGCAGGCA
GTTCAATTGAGCAGAACCAAGCGCGAAACCTCCGTCATTAATGTCATAATCGA
ACCGGGAGAGCAGAAACAGATCGCGTTCGCATGGCAAAACAAGCCTAGACTG
[0320] SEQ ID NO: 164 (Sítio de ligação ao ribossomo):
GCATCTAAACTAAAATACAATAACCAAAAATCATTACAAATGAAAAAAA
ATAATAAA
[0321] SEQ ID NO: 165 (Sítio de ligação ao ribossomo):
GCATCTAAACTAAAATACAATAACCAAAAATCATGTTTAACAAATAAAA
ATAATAAA
[0322] SEQ ID NO: 166 (Sítio de ligação ao ribossomo):
GCATCTAAACTAAAATACAATAACCAAAAATCATCTATGCGTAAAAAAA
ATTATAAA
[0323] SEQ ID NO: 167 (Sítio de ligação ao ribossomo):
GCATCTAAACTAAAATACAATAACCAAAAATCATACTACATGTATAAAA
TTAAAAAA
[0324] SEQ ID NO: 168 (Sítio de ligação ao ribossomo):
GCATCTAAACTAAAATACAATAACCAAAAATCATTTTCACAATATAAAAA
TAACAAA
[0325] SEQ ID NO: 169 (Sítio de ligação ao ribossomo):
GCATCATCTACCTCAATTATTCACCATTCCATCTGTCTAGCCAAAAAAT
TTAAAAAA
[0326] SEQ ID NO: 170 (Sítio de ligação ao ribossomo):
GCATCATCTACCTAAATTACTCATCATCCCATTTTAGTCAGCTTAAAAT
ATTATAAA
[0327] SEQ ID NO: 171 (Sítio de ligação ao ribossomo):
GCATCATCTACCTATATTATTTATCATTCCATATCATGCGTGAATAAAAA
TAATAAA
[0328] SEQ ID NO: 172 (Sítio de ligação ao ribossomo):
GCATCATCTACCTATATTAATCATCAACCCAATTTTCATATGTATAAAAT
TAACAAA
[0329] SEQ ID NO: 173 (Sítio de ligação ao ribossomo):
GCATCTTTTCCATAACAAAAATTAAACCTCCTCCATATGAAAAATAAAA
ATTATAAA
[0330] SEQ ID NO: 174 (Sítio de ligação ao ribossomo):
GCATCAACTACCTCAATTAATAATCAAACCATCTGAACAATGAATAAAT
TTAAAAAA
[0331] SEQ ID NO: 175 (Sítio de ligação ao ribossomo):
GCATCTTTTCCATAACAAAAATTAAACCTCCTCCATATGAGATATAAAA
TTAACAAA
[0332] SEQ ID NO: 176 (Sítio de ligação ao ribossomo):
GCATCAACTACCTTAATTATTCATCAAACCATATAACATACTAAAAAAAA
TAACAAA
[0333] SEQ ID NO: 177 (Sítio de ligação ao ribossomo):
GCATCATCTACCTATATTACTAATCATTCCAATTAATTACCTTATAAAAT
TAAGAAA
[0334] SEQ ID NO: 178 (Sítio de ligação ao ribossomo):
GCATCTTTTCCATAACAAAAATTAAACCTCCTCCCCCCCACGTTTAAAA
TTAAAAAA
[0335] SEQ ID NO: 179 (Sítio de ligação ao ribossomo):
GCATCAACTACCTTCATTACTTAACAATCCACCTGTTGTGAGTAAAAAT
ATAAGAAA
[0336] SEQ ID NO: 180 (Sítio de ligação ao ribossomo):
GCATCCCCAAAAAATTAATTCATTTTCTCTTTTCCCTAACCCTTAAAATA
TAATAAA
[0337] SEQ ID NO: 181 (Sítio de ligação ao ribossomo):
GCATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATA
TAATAAA
[0338] SEQ ID NO: 182 (Sítio de ligação ao ribossomo):
GCATCAACTACCTAAATTAATTATCACCCCAAATTAATAACATAAAAATA
TAATAAA
[0339] SEQ ID NO: 183 (Sítio de ligação ao ribossomo):
GCATCCCCAAAAAATTAATTCATTTTCTCTTTTCAACAATTTAAAAAAAA
TTAAAAA
[0340] SEQ ID NO: 184 (Sítio de ligação ao ribossomo):
GCATCCCCAAAAAATTAATTCATTTTCTCTTTTCGATCCTATAAAAAATA
TAACAAA
[0341] SEQ ID NO: 185 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTTATTATTAATCAATCCATCTCAGTAAGTTTAAAATA
TAACAAA
[0342] SEQ ID NO: 186 (Sítio de ligação ao ribossomo):
GCATCAACTACCTCTATTAATAATCAATCCACATCTTGATCGTAAAAAA
TTTAAAAA
[0343] SEQ ID NO: 187 (Sítio de ligação ao ribossomo):
GCATCACCTACCTAAATTACTAAACAAACCACCTGCATTTGTTTTAAAA
ATTACAAA
[0344] SEQ ID NO: 188 (Sítio de ligação ao ribossomo):
GCATCAACTACCTAAATTAATCATCAAACCAACTAGAATATGAAAAAAA
ATAAAAAA
[0345] SEQ ID NO: 189 (Sítio de ligação ao ribossomo):
GCATCAACTACCTCAATTAATAAACAAACCAACTGTCCAATGTATAAAA
TTAAAAAA
[0346] SEQ ID NO: 190 (Sítio de ligação ao ribossomo):
GCATCAACTACCTCAATTACTAAACAATCCACATTATTAATATAAAAATA
TAAAAAA
[0347] SEQ ID NO: 191 (Sítio de ligação ao ribossomo):
GCATCAACACCTAAATTAATTAACACACCATATATTAAACCATAAAAAA
TAAGAAA
[0348] SEQ ID NO: 192 (Sítio de ligação ao ribossomo):
GCATCTTCTACCCATATTCCCCCTAATCCCATCTGTTATATTATTAAATT
TAATAAA
[0349] SEQ ID NO: 193 (Sítio de ligação ao ribossomo):
GCATCATCTACCTACATTATTTAACAAACCACATTTAAAAGGAAAAAAT
ATTAAAAA
[0350] SEQ ID NO: 194 (Sítio de ligação ao ribossomo):
GCATCACCTACCTATATTATTTATCATTCCACATGCGTTATTATTAAATT
TTAAAAA
[0351] SEQ ID NO: 195 (Sítio de ligação ao ribossomo):
GCATCTAAACAACATATTCCCCCTAAACCAAAATATTTAGGGTATAAAA
ATTAAAAA
[0352] SEQ ID NO: 196 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTTATTAATCAACAATCCAAATTATTAATAAAAAAAAT
TTAAAAA
[0353] SEQ ID NO: 197 (Sítio de ligação ao ribossomo):
GCATCAACTACCTAAATTACTTATCAAACCACTTAGTAGTAAAAAAAAT
ATAACAAA
[0354] SEQ ID NO: 198 (Sítio de ligação ao ribossomo):
GCATCACTATTACAAAAAAAACACCAATATTACATGGTCTCTTTTAAAT
ATTATAAA
[0355] SEQ ID NO: 199 (Sítio de ligação ao ribossomo):
GCATCATCTACCTATATTACTAAACAAACCAATTATAATAATTTTAAAAA
TAAAAAA
[0356] SEQ ID NO: 200 (Sítio de ligação ao ribossomo):
GCATCACCTACCTCTATTACTAATCAAACCATTTAAATGTAGTAAAAAT
ATAATAAA
[0357] SEQ ID NO: 201 (Sítio de ligação ao ribossomo):
GCATCAACTACCTAAATTAATAAACACACCAACTTCCATGAATAAAAAT
ATAAAAAA
[0358] SEQ ID NO: 202 (Sítio de ligação ao ribossomo):
GCATCATCTACCTATATTATTTACCACCCCACCTAACTTTAGATTAAAA
TTTACAAA
[0359] SEQ ID NO: 203 (Sítio de ligação ao ribossomo):
GCATCACCTACCTTCATTACTCACCATACCAACTAGCACAGTTATAAAA
ATAAGAAA
[0360] SEQ ID NO: 204 (Sítio de ligação ao ribossomo):
GCATCATCTACCTAAATTAATAAACAACCCATTTATAAACCCTTTAAAAT
TAACAAA
[0361] SEQ ID NO: 205 (Sítio de ligação ao ribossomo):
GCATCTTAATCAATTTTAAACTCACCAAATCAAAATATGAAAAAAAAAAA
TAATAAA
[0362] SEQ ID NO: 206 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTAATTAATAAACAAACCAATTTAACTAATTTAAAAAA
TATAAA
[0363] SEQ ID NO: 207 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTCATTATTAATCATTCCAATTGTATCACTTAAAAATA
TAAAAAA
[0364] SEQ ID NO: 208 (Sítio de ligação ao ribossomo):
GCATCTTAATCAATTTTAAACTCACCAAATCAAATATCACGTAAAAAATA
TAAGAAA
[0365] SEQ ID NO: 209 (Sítio de ligação ao ribossomo):
GCATCAACTACCTCAATTATTTAACACACCAATTACTATACGTAAAAAT
ATAAAAAA
[0366] SEQ ID NO: 210 (Sítio de ligação ao ribossomo):
GCATCTTAATCAATTTTAAACTCACCAAATCAAAAAAATGCGTATAAAA
ATTAAAAA
[0367] SEQ ID NO: 211 (Sítio de ligação ao ribossomo):
GCATCTTAATCAATTTTAAACTCACCAAATCAAAGGCCGACTTAAAAAT
ATTAGAAA
[0368] SEQ ID NO: 212 (Sítio de ligação ao ribossomo):
GCATCACCTAAAAATTATAAATAAATTAATAAACCTTTTAACATAAAAAT
TAATAAA
[0369] SEQ ID NO: 213 (Sítio de ligação ao ribossomo):
GCATCACCTAAAAATTATAAATAAATTAATAAACTTTTATTAAAAAAAAA
TTACAAA
[0370] SEQ ID NO: 214 (Sítio de ligação ao ribossomo):
GCATCACCTAAAAATTATAAATAAATTAATAAACATAACATAAATAAAAT
TAATAAA
[0371] SEQ ID NO: 215 (Sítio de ligação ao ribossomo):
GCATCACCTAAAAATTATAAATAAATTAATAAACCACAATACTAAAAATT
TAATAAA
[0372] SEQ ID NO: 216 (Sítio de ligação ao ribossomo):
GCATCAACTACCTACATTAATAACCAACCCAAATGCCTAATCAATAAAT
ATTATAAA
[0373] SEQ ID NO: 217 (Sítio de ligação ao ribossomo):
GCATCATCTACCTATATTATTCATCAAACCATTTGATCCAACATTAAATA
TTAAAAA
[0374] SEQ ID NO: 218 (Sítio de ligação ao ribossomo):
GCATCACCTACCTCAATTATTAATCATACCAACTGGATTTGATTTAAAA
ATAAGAAA
[0375] SEQ ID NO: 219 (Sítio de ligação ao ribossomo):
GCATCACCTACCTTTATTACTCATCATACCAAATGGTAGCGGATTAAAT
ATTAGAAA
[0376] SEQ ID NO: 220 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTAATTAATCAACAAACCAATTACCAACCTAAAAAAT
ATAAGAAA
[0377] SEQ ID NO: 221 (Sítio de ligação ao ribossomo):
GCATCAACTACCTTTATTATTCAACAAACCAATTTAACATATTAAAAAAA
TAAAAAA
[0378] SEQ ID NO: 222 (Sítio de ligação ao ribossomo):
GCATCTACCCCTAACAACCCATAAATTTAACTTTAAAAAATTTTTAAATA
TAATAAA
[0379] SEQ ID NO: 223 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTCATTATTAAACAAACCAAATTAATATCATAAAAAAA
TAAAAAA
[0380] SEQ ID NO: 224 (Sítio de ligação ao ribossomo):
GCATCTACCCCTAACAACCCATAAATTTAACTTTTCTACAAAAAAAAAT
ATAAAAAA
[0381] SEQ ID NO: 225 (Sítio de ligação ao ribossomo):
GCATCACCTACCTACATTAATAACCATACCATCTCAGTTTTAAATAAAT
TTTAAAAA
[0382] SEQ ID NO: 226 (Sítio de ligação ao ribossomo):
GCATCACCTACCTTAATTAATCACCATTCCATATCCTTTCAAAAAAAAT
ATAAAAAA
[0383] SEQ ID NO: 227 (Sítio de ligação ao ribossomo):
GCATCACCTACCTCTATTAATCATCATTCCAATTTAGGCTCATTAAATA
TTAGAAA
[0384] SEQ ID NO: 228 (Sítio de ligação ao ribossomo):
GCATCATCTACCTTAATTAATCAACAAACCAATTACCAACCTAAAAAAT
ATAAGAAA
[0385] SEQ ID NO: 229 (Sítio de ligação ao ribossomo):
GCATCAACTACCTTTATTATTCAACAAACCAATTTAACATAGTAAAAAAA
TAAAAAA
[0386] SEQ ID NO: 230 (Sítio de ligação ao ribossomo):
GCATCTACCCCTAACAACCCATAAATTTAACTTTAAAAAATTTTTAAATA
TAAGAAA