CN111455041A - Probe combination for gene screening and application thereof - Google Patents

Probe combination for gene screening and application thereof Download PDF

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Publication number
CN111455041A
CN111455041A CN202010378678.9A CN202010378678A CN111455041A CN 111455041 A CN111455041 A CN 111455041A CN 202010378678 A CN202010378678 A CN 202010378678A CN 111455041 A CN111455041 A CN 111455041A
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China
Prior art keywords
artificial sequence
dna
gene
disease
probe
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Chinese (zh)
Inventor
吴涵
陈伟坚
陈究成
刘虎
张红莉
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Hezhuo Biotechnology Shanghai Co ltd
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Hezhuo Biotechnology Shanghai Co ltd
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    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12QMEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
    • C12Q1/00Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
    • C12Q1/68Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving nucleic acids
    • C12Q1/6876Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes
    • C12Q1/6883Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes for diseases caused by alterations of genetic material
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12QMEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
    • C12Q2600/00Oligonucleotides characterized by their use
    • C12Q2600/156Polymorphic or mutational markers

Abstract

A probe combination for gene screening and application thereof. The invention belongs to the field of biomedicine, and provides a probe combination and application thereof. The probe combination can specifically recognize the pathogenic genes of thalassemia, phenylketonuria, hepatolenticular degeneration, tuberous sclerosis, tetrahydrobiopterin deficiency, hereditary deafness, gaucher disease, amyotrophic lateral sclerosis, methyl malonic acidemia, Usher syndrome, albinism, pulmonary cystic fibrosis, citrullinemia type I, X-linked congenital adrenal insufficiency, Fabry disease, ichthyosis, familial hypercholesterolemia, hemophilia, osteogenesis imperfecta (brittle bone disease) and familial hemophilus lymphohistiocytosis. The invention also provides a corresponding detection kit which is used for quickly and simply screening the population and diagnosing the prenatal period.

Description

Probe combination for gene screening and application thereof
Technical Field
The invention belongs to the field of biomedicine, and relates to a probe combination for screening multiple monogenic diseases and application thereof.
Background
China is one of the countries with high birth defects. According to statistics, the total incidence rate of birth defects in China is about 5%, including chromosome abnormality (0.5%), monogenic disease (1.8%) and polygenic disease (2.6%). Birth defects can be prevented by "three lines of defense" at present: first-degree prevention-pre-pregnancy consultation and examination; secondary prevention-prenatal examination; third-level prevention-neonatal disease screening.
Monogenic disease refers to a disease controlled by a pair of alleles, i.e., a disease transmitted in mendelian fashion. According to the World Health Organization (WHO) statistics, the incidence of all monogenic diseases in the world's birth population is about 10/1000. Except for a few diseases, the monogenic diseases mostly have no cure method, the treatment and nursing cost is high, and the heavy economic burden is brought to the society and the family. Screening of high-risk population before pregnancy, before birth and after birth is a main method for preventing monogenic diseases, planning reproduction and carrying out clinical intervention in advance. And (3) carrying out common genetic disease related gene mutation detection on the couple of childbearing age before pregnancy, and deciding the optimal birth plan according to the detection result and the information provided by genetic consultation. Detecting and diagnosing whether the embryo or the fetus has diseases before delivery, mastering the opportunity, and selecting proper time for intrauterine treatment of the curable diseases; for non-treatable diseases, informed selection can be made. The disease screening of the newborn enables the infant to be diagnosed and treated early, and growth, intellectual development disorder and even death caused by brain, liver, kidney and other damages are avoided.
At present, clinically, for the detection of the single-gene diseases, the traditional detection methods such as low-density chip, Realtime PCR, M L PA and Sanger sequencing are mostly adopted, the products generally mainly adopt hot spot mutation detection, the detected diseases are limited, the detection methods have the defects of low flux, limited detection range and the like, products capable of simultaneously detecting various genetic diseases are also available on the market, and for example, the products adopt full exome sequencing or large Panel (hundreds of thousands of genetic diseases) combined with a second-generation sequencing method, the products are relatively wide in disease coverage, but have the defects of overlarge sequencing data, high cost, insufficient sequencing gene coverage depth, detection omission and the like.
Disclosure of Invention
The invention aims to provide a novel probe combination for detecting multiple common genetic diseases and application thereof, overcomes the defects and shortcomings of the prior art, and provides a novel solution for noninvasive prenatal monogenic diseases detection and monogenic diseases screening of people.
The invention provides a probe combination, wherein the probe is used for identifying the following pathogenic genes: thalassemia, phenylketonuria, hepatolenticular degeneration, tuberous sclerosis, tetrahydrobiopterin deficiency, hereditary deafness, gaucher's disease, amyotrophic lateral sclerosis, methylmalonic acidemia, Usher syndrome, citrullinemia type I, X-linked congenital adrenal insufficiency, Fabry's disease, bullous ichthyosis, familial hypercholesterolemia, hemophilia, and familial hemophilus lymphohistiocytosis.
The pathogenic gene is one or more of ASS1, ATP7B, GBA, GCH1, G L A, HBB, KRT1, KRT10, F L G, STS, MUT, MMAA, MMAB, MMACHC, NR0B L, PAH, PCBD L, PRF L, PTS, QDPR, SOD L, STX L, UNC 13L, TSC L, TSC L, USH 1L, F L, F L, TYR, S L C45A L, OCA L, CFTR, USH 2L, CDH L, PCDH L, USH 1L, USH 1L, MYO 7L, CO L A L or VAPB.
The probe recognizes a protein coding region (CDS) and a splice site region of the above pathogenic gene.
As shown in a preferred embodiment of the present invention, the probe combination comprises a mixture of probes having sequences shown in SEQ ID NO1-SEQ ID NO 378.
The probe can be artificially synthesized based on the nucleotide sequence or obtained by a conventional method in the art.
Correspondingly, the invention provides a gene detection kit, which contains the probe combination.
Preferably, the gene detection kit further comprises negative and positive controls for detecting the gene. The kit can also comprise common reagents, basic consumables, tools, instructions and the like for gene detection.
In another aspect, the invention provides the use of the probe combination for preparing a detection reagent for the following diseases: thalassemia, phenylketonuria, hepatolenticular degeneration, tuberous sclerosis, tetrahydrobiopterin deficiency, hereditary deafness, gaucher's disease, amyotrophic lateral sclerosis, methylmalonic acidemia, Usher syndrome, albinism, pulmonary cystic fibrosis, citrullinemia type I, X-linked congenital adrenal insufficiency, Fabry's disease, ichthyosis, familial hypercholesterolemia, hemophilia, osteogenesis imperfecta (fragility) and familial hemophilus lymphohistiocytosis.
The probe combination of the present invention can be used for recognizing or binding to the causative gene of the above-mentioned diseases.
Preferably, the probe combination of the invention can be used for screening or detecting the related monogenic diseases of the population.
The probe combination of the invention can be used for detecting the variation of the related gene of the monogenic disease, and the detection comprises the following steps:
(1) obtaining separated and purified genome DNA;
(2) adding the probe combination of the invention;
(3) analyzing and detecting the variation of the target gene in the sample.
The genomic DNA is typically taken from a sample ex vivo, such as blood, saliva, hair, etc.
Genomic DNA of a sample is typically subjected to DNA fragmentation library construction and target gene capture prior to detection.
The gene variation detection of the present invention requires a bioinformatic analysis. For example, in a preferred embodiment of the present invention, a blood sample from a breeding couple is used to detect a pathogenic mutation in the ichthyosis KRT10 gene.
The invention discloses a probe combination for detecting common monogenic diseases based on a high-throughput sequencing technology and application thereof. The combination of probes was based on common monogenic disorders including: thalassemia, phenylketonuria, hepatolenticular degeneration, tuberous sclerosis, tetrahydrobiopterin deficiency, hereditary deafness, gaucher disease, amyotrophic lateral sclerosis, methylmalonic acidemia, Usher syndrome, citrullinemia type I, X-linked congenital adrenal insufficiency, Fabry disease, bullous fish scale disease, familial hypercholesterolemia, hemophilia and familial hemophilus lymphohistiocytosis, for a total of 20 disease-associated 39 pathogenic gene-designed capture probes. The probe combination used in the application comprises all core coding sequences and splice junction regions of genes in design, can be used for detecting 20 genetic diseases, and is suitable for population screening and detection.
The invention has the advantages that:
(1) the invention can detect a plurality of common monogenic genetic diseases, while the traditional product mainly detects or screens single disease species, and the detected diseases are limited;
(2) the invention can realize the detection of the whole exon coding sequence and the splicing region of the pathogenic gene, the coverage area is more comprehensive, and the traditional product is mainly used for detecting partial hot spot mutation sites on the gene, the coverage area is narrower, and the omission detection is easy;
(3) the probe designed by the invention has a certain base matching fault tolerance rate, can realize higher capture efficiency and coverage degree, and can detect single-point mutation, insertion deletion, small fragment repetition, deletion and the like.
Detailed Description
The technical solutions in the embodiments of the present application will be described clearly and completely below, and it should be understood that the described embodiments are only a part of the embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
Example 1 detection of target Gene Using Probe combination
A. Library construction and on-machine sequencing
1. Sample DNA preparation
The sample can be blood, saliva or oral cavity cast-off cells for extracting genome DNA;
2. sample DNA fragmentation
Approximately 50ng of genomic DNA and/or fetal cell WGA product was sonicated (covaris) to generate DNA fragments predominantly at 200 and 250bp in length.
3. Genomic library construction using KAPA reagents
The library can be constructed by using a commercialized reagent KAPA Hyper Prep Kit (KAPA, KK8504), and the main steps comprise: and (3) carrying out end repair and tail A addition on the fragmented DNA fragments, connecting and purifying adapters (the adapters contain Index sequences, the adapters contain adapters with different Index sequences for connection, and the adapter sequences are T protruding ends), and finally carrying out PCR amplification and purification to obtain a genome DNA library.
4. Capture hybridization Using IDT reagent
After mixing a plurality of (generally 8-12) genomic DNA libraries, 1.5. mu.g of the mixed genomic DNA libraries are captured by hybridization by using the capture probe set of the invention, and the main steps comprise: blocking a genomic DNA library before hybridization by using Hyb Block (IDT), then carrying out hybridization capture on the genomic library by using a capture probe set, enriching a captured target sequence by using streptavidin-labeled magnetic beads, carrying out PCR amplification on the enriched target sequence, and purifying to obtain a target gene library.
The genes capturable by the capture probe set (liquid phase capture probe) include: the synthesis of 41 disease-causing gene probes for 20 monogenic genetic diseases was synthesized by IDT corporation and labeled with biotin.
5. Sequencing on machine
The libraries were mixed at equimolar concentrations and double-ended sequencing was performed using the Illumina sequencing platform, while tag sequences on the samples were also sequenced, NextSeq500 sequencing was performed using the 1.8pM library, the sequencing data preferably being >200 × average depth.
B. Data analysis
1. Sequencing data quality control and filtering: and performing quality control and filtration on each sample original data obtained by sequencing by adopting fastp software, wherein the filtration conditions comprise: removing reads shorter than 75bp, removing reads with N more than 6, and removing reads with low-quality base ratio more than 40%;
2. sequence alignment, mutation site analysis and SNP reading: alignment of filtered double-ended sequencing reads to the human genome (hg19, GRCh37) using BWA software (0.7.15), removal of PCR repeats (duplicates) and non-uniquely positioned reads using Picard software, while filtering out low quality reads (alignment quality <10, base quality <15), and mutation site analysis of gene coding regions using GATK software.
Example 2 detection of ichthyosis Gene
1. Collecting samples: a small blood sample of a couple of child-bearing age (male with suspected bullous ichthyosiform erythroderma and family history, female with normal skin) was collected 1 and subjected to extraction of genomic DNA.
2. Library construction and on-machine sequencing was performed using the probe combinations of the invention and data analysis was performed as in example 1.
3. The data analysis results were as follows:
(1) and (3) data quality control:
Figure BDA0002481210620000041
the coverage rate of the coding regions of 41 gene regions detected by the probe combination is 100%, wherein the genes comprise ichthyosis related genes F L G, KRT1, KRT10 and the like.
(2) Detection of pathogenic gene loci:
Figure BDA0002481210620000051
the male detects 1 site pathogenic or possibly pathogenic heterozygous mutation of KRT10 and F L G, wherein KRT10p, L161S missense mutation is pathogenic mutation of bullous ichthyosis (autosomal dominant inheritance), F L G p.K4022X nonsense mutation, and ichthyosis vulgaris (autosomal incomplete exon) is possibly pathogenic mutation, while the female detects 1F L Gp. L ys4022Ter possibly pathogenic heterozygous mutation and does not detect KRT10 pathogenic mutation.
Example 3 Gene testing for familial hypercholesterolemia
Peripheral blood of a plurality of individuals is collected, extracted with genomic DNA, and subjected to library construction and on-board sequencing by using the probe combination of the present invention according to the method of example 1, and subjected to data analysis, gene mutation detection and screening of pathogenic genes related to thalassemia, phenylketonuria, hepatolenticular degeneration, tuberous sclerosis, tetrahydrobiopterin deletion, hereditary deafness, gaucher disease, amyotrophic lateral sclerosis, methyl malonic acid syndrome, Usher syndrome, citrullinemia type I, X-linked congenital adrenal insufficiency, Fabry disease, bullous ichthyosis, familial hypercholesterolemia, hemophilia and familial hemophagocytosis lymphocytosis, wherein 1 of the neonatal familial hypercholesterolemia-related genes L D L R is found to have pathogenic mutation, wherein the pathogenic mutation is L D L R NM-000527.4 C.9G > A (p.AaO7T) missense mutation, the result is verified by Sanger sequencing, the result is verified to be consistent with the parental DNA 6229, and the like, thus the clinical diagnosis of hypercholesterolemia, early-stage diagnosis, early stage diagnosis, and so on the like by the probe combination of the probe combination.
Figure BDA0002481210620000052
The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present disclosure should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.
The probe combination related by the invention comprises one or a plurality of probes with the following sequences:
Figure BDA0002481210620000061
Figure BDA0002481210620000071
Figure BDA0002481210620000081
Figure BDA0002481210620000091
Figure BDA0002481210620000101
Figure BDA0002481210620000111
Figure BDA0002481210620000121
SEQUENCE LISTING
<110> and Zodiac Biotech (Shanghai) Co., Ltd
<120> probe combination for gene screening and application thereof
<130>
<160>378
<170>PatentIn version 3.5
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ggcagaatcc agatgctcaa ggcccttcat aatatccccc agtttagtag ttggacttag 60
ggaacaaagg aacctttaat agaaattgga cagcaagaaa gcgagcttag tgatacttgt 120
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gcattagcca caccagccac cactttctga taggcagcct gcactggtgg ggtgaattct 60
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tcaaagaacc tctgggtcca agggtagacc accagcagcc taagggtggg aaaatagacc 60
aataggcaga gagagtcagt gcctatcaga aacccaagag tcttctctgt ctccacatgc 120
c 121
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ctatcagaaa cccaagagtc ttctctgtct ccacatgccc agtttctatt ggtctcctta 60
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cacgttcacc ttgccccaca gggcagtaac ggcagacttc tcctcaggag tcagatgcac 60
catggtgtct gtttgaggtt gctagtgaac acagttgtgt cagaagcaaa tgtaagcaat 120
a 121
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taagctgaga tcgtgagctg aagattgaaa agtcccggga aaaaaaaaag tgagtgactg 60
cccttccaag agaaagcaac tgccctccac ctcatgtttt aacagtaatg tagatctgag 120
c 121
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cccaggacag gggccttggc tcagcacaga gcatgtgggc tcagtggttt ctgttttccc 60
atcttgacaa atctgggcag cctgcctcct ggttcttacc tgacaaagat ctcagagcat 120
c 121
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aaaacgagga aactctgaaa aggataagat gactcagtct ctctccctct tcccgtagga 60
gggtacctcc gtctctatgt caaacagatg tggggctaat tcttaacgag ctccagggaa 120
g 121
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<213>Artificial Sequence
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agtggtttct ttcaccatcc accatcttct gccggtgagc aggctgaggc cagtgtgtga 60
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t 121
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<212>DNA
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tgaccttgtt tccagtcaca tatttggggc attcagccag gaggtcctgc tgggtatccc 120
a 121
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<223> Artificial sequence
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gccttatctt tcctgagatg acatagtttc agtctgtggt cactaggcag ggagctcact 60
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c 121
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<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
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tgaggacctc gagaccccac cataggttgt ggcaacttgc aattcatttt ggtctgggga 60
gaggagcccc cggttatctg tggaggaaga gacagaaaga aacagatctc acatgaggcc 120
c 121
<210>17
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
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cccccccgcc aggctggaca ctcacagctc tgtgtcctcc agggccggcg ggcgctccat 60
cgcctgccgc cgcctcctca cggcccccaa gatcttcttt cggggcccca gtgggacgct 120
g 121
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<211>121
<212>DNA
<213>Artificial Sequence
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<223> Artificial sequence
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gacgctgatg ctgcggaggt cgaggtcaga gcacagcatc aaagcctcga ggtcgatctt 60
ctcctgccgc aggagggcgg caaagtcctc catgtgcaga gaggccagga aggtctccag 120
c 121
<210>19
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>19
ggccaggaag gtctccagcg ggctagtctc gggctccagg tcctcgtcca agcctaaatc 60
gagctcatcc cagggcagct cctccccaca gctgcggtcc tgcaggctgt tggcactgcc 120
c 121
<210>20
<211>121
<212>DNA
<213>Artificial Sequence
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<223> Artificial sequence
<400>20
aggctgtcat cgtccaggct gggggagctc tgcagccgac cccgcggcgc tcccacccca 60
tccagacccc catcctcgcg gcccagtccg tgcagcccac tgctcaagta atttctgcgg 120
a 121
<210>21
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>21
aagtaatttc tgcggaacac catggtgccc aggccggggc gggtaaacag ggagtcgtgg 60
cctgagtcgg tgctgacctc cgagtgggca ggctcggccg ccagcgtggc acgggagacg 120
c 121
<210>22
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>22
cgggagacgc tgtcctcgtc cgagaggaac atgtcccgga gcggggctcg gccccactcc 60
ttgggattgg cgtaggtgcc ctggcgcacg aacatcacgt cgctgcccag ctgcaggccc 120
g 121
<210>23
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>23
tgcaggcccg agagcgagcg ggcgctcttg cgcccatcct cggagacctt gaaggtgcct 60
tcgccgccct gcttgcgccg ctccagcttc ttctgcatct tggtcttgcc cctggccgtg 120
c 121
<210>24
<211>121
<212>DNA
<213>Artificial Sequence
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<223> Artificial sequence
<400>24
ccgtgcagcg tggcctgaga gtacggcagg tggctgccca gcgccagatg ctgcagccgg 60
cggctcaggg tgctggacgt gaggctggag aagctgaggg tgtcggaacg ctcggccagc 120
t 121
<210>25
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>25
acgctcggcc agctcgcgcc ggtatcgccg ctccatgcgt tcgtggtgcc tccgctgcag 60
cttggcgcac tcgcggatgc gccgctccgc ctcgcggaag gccttgtcct tcagcttacc 120
c 121
<210>26
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>26
gcttacccac cagcttgggg ttgaggctgc tctgcttggc cgcgatggag tccaggtagc 60
gcacgcattc catgtggccc ttcatggcag ccatgtccag cggcgtgtgg tagtcgttgt 120
c 121
<210>27
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>27
cgttgtctag gcaccagatg ttggctccga aggacaccag gaaggacagg cagtgcaagt 60
ggccattgga agctgccaga tgcaggggtg tgttgcccca gatgtcacac ttgtccgggt 120
c 121
<210>28
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>28
cctcaagggc actgggtggg gcgtactcac ccgcggctca caatgagacg cagcgactcg 60
aggttgccat ggtaggcagc ccagagagtg ggggtcatgc catcctcgtc gggggcattc 120
a 121
<210>29
<211>121
<212>DNA
<213>Artificial Sequence
<220>
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<400>29
ccatggtagg cagcccagag agtgggggtc atgccatcct cgtcgggggc attcagctcc 60
tttcgggtgg cctccttgag gagctccagg tagccatccc gggctgcccg gtggtactgg 120
t 121
<210>30
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>30
agaaagttta ttttaaaata ttttacactc ttttgcccac agctctttat tcttccctca 60
tggtgaactg cactactgca cttgtgtggc ccacatgact ttatatcttt gtacagagca 120
t 121
<210>31
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>31
atttccagca tcatatcatc catgctgact gtgccgatga tgggcctgaa gaacagttca 60
gcaatgacat tggcattgat gaatctcagc aggaaaaggg tactattaag ttcgatgaat 120
c 121
<210>32
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>32
tctgtcatgg ggcccttggt gcgtcatcct ggtgtgttca ctgagtattt gctgagttcc 60
ccactggagt ccctgaatgt acttcacgca ctgcaggccc ggcacgtctg gagggagaaa 120
a 121
<210>33
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>33
actggagtcc ctgaatgtac ttcacgcact gcaggcccgg cacgtctgga gggagaaaaa 60
tctctttgtt ataaaacagc tcaccacaga gtcctttgct agctttttaa aaatagccat 120
t 121
<210>34
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>34
aaaactcgtt actgcccgcg cccctagata ggcactgccc gatgcttttg tgagctggga 60
aaagccggcg cctaaggcca gtacccttac ccgggttaaa gagcacggtc cccttgaggt 120
a 121
<210>35
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>35
tgaggtaggc gtactccttg gtactgatgt tcagactcca gcatttggaa agaaagcact 60
tgatggcttg gacctgggag gcggagggca ccttcctggc ctccgccggc ggtgccaaat 120
g 121
<210>36
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>36
agcgtgggca cgggcagtgg ctcgttgccc ccggtctccc gccgcctggt ggtgaggatc 60
ttctgcagca tgctgggctc cgagacttcc acagtctcga actgcaagcg gtcctgggcc 120
a 121
<210>37
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>37
gccagctcaa gcatgagcag ggacgcccag cagttgcgca ccagcaccag ctgctggtcc 60
aggggcagca cctggaagca gggcaagtac ttgacgaagc gcagcgtctt caacaggccc 120
g 121
<210>38
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>38
gaggctgcct cgcagaccac ctgtggactc ttgagcgcca ccggccgcag cgcaccagag 60
gaggtgtccc accagggggc cctcggccgc tcctccggag ccgcctgcgc ttgatttgtg 120
c 121
<210>39
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>39
ctcgtgggca cgcagtagag ggtgctgccc tgctgcgggt ggtcttcacc gcaaaagcag 60
cagcggtaca gaagcgccgt ggcccgcccg cctggtagcg cctctttacc ccctggcctc 120
t 121
<210>40
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>40
gcctctgcgc gaagtaggag cggtcccacc acgcgccccc tggccgtgcc tcgggcgctg 60
ccggagccac gtgcgtttgc tttgagctag tgagcaagct gtagaggatg ctgccctgcc 120
g 121
<210>41
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>41
ccgcgggtgg tcttcaccac aaaagcagca gcggtacagg agtgccacgg gccgcccacc 60
cggaagcccc gctctgccca ccccgggatc agagccgcac gaacagcccc agcacggacc 120
c 121
<210>42
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>42
cagcgtcgcc tcgggcgcct tcggtgccgc gtacgtttgc tttgcgctcg tcagcatgct 60
gtagaggatg ctgccctgcc gtgggtggtc tttaccgcaa aagcagcagc ggtacaggag 120
c 121
<210>43
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>43
ttccgcccgc ccagcagccc ctctctgccc accccgggct catcgccgca cgaacagccc 60
cagcactgat ccaccagccg cgtctctgga gcctcaggag ccgcgcgcgt ttgcttcgcg 120
c 121
<210>44
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>44
gcgctcataa gcatgttgta gaggatgctg ccctgccact ggtggttctc gcccgccatg 60
gcccgcggcg cccgtagccc agttctgccc agtggctgcc tcctgggacc tatttatacc 120
t 121
<210>45
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>45
caattcctac ttcatggatg tgaaataccc aggatgctat aaaatcacca tggtctttag 60
catgcacaaa cagtagtttt gtgttttggc tgctctactg tccactgcta gcccacaaga 120
g 121
<210>46
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>46
aggaaaagca aggcttacag aaggatgttc ctttaggaga aagcagcact aaaagcactc 60
tgaatcaaga tgagtgggaa accatctcaa taagcacatt ttggattaaa aaaaaaatta 120
g 121
<210>47
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>47
aaggctgtta tttcaaatta aggtttgctt ttcggacttt ttctgatgaa agaaatagtt 60
ggatctccat caacagattc acagctgaca gaccacattc tgtccatggc tttactttat 120
t 121
<210>48
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>48
actttatttt ctggagggca ctgcaaagga ttccaatttc acctacaaag aaaaacacca 60
tcaaaatggg ccacttgtat aataagcaaa aactcttcaa gtgtcctcag tgcaaagcac 120
t 121
<210>49
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>49
attaaatatt tcaataaatt tattattttt cctatggcga tggtagggaa agacagtctt 60
cgattactga gaaaccgagt ggcctcgtaa ggtgtaaatt acttactgtt aatggaatca 120
g 121
<210>50
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>50
atcagccaaa atcttaagct gctgggtatt gtccaagacc tcaatccttt gggtgtatgg 60
gtcgtagcga actgagaagg gccgaggtat tgtggcagca aagttcctaa gaccaaaacc 120
a 121
<210>51
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>51
agcgaactga gaagggccga ggtattgtgg cagcaaagtt cctaagacca aaaccacagg 60
cttgagtgaa gggcaccatt tggagaaagg tagtcttaag agagttctca gtggcatttt 120
a 121
<210>52
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>52
gctgtagaca ttggagtcca ctctcctggc caaccaccca cagatgagtg gcaccagtca 60
ggaggccccc agagctagtg gctcaccttt gtcaccacct caccttactt tctccttggc 120
a 121
<210>53
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>53
aaactctctg ccacgtaata gaggggctgg aactccgtga cagtgtaatt ttggatggct 60
gtcttctcca gctccagggg gagaagcttt ggcttctctg ataagcagta ctgtaggccc 120
c 121
<210>54
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>54
gctgtcttct ccagctccag ggggagaagc tttggcttct ctgataagca gtactgtagg 60
ccccaagtga aaagttatta tcactgttaa atcaggatca gtattccctg ctgcatccca 120
t 121
<210>55
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>55
agggtttcaa caatattgaa agcacaataa tggttttctg tacccaccac ttttaaatct 60
atccttggtt cctgtgaagg tcatacctgt aattcaccaa aggatgacag gagcccagca 120
c 121
<210>56
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>56
accatatgcc tttatggagt ctccttgttt gcagagccca aactccacag taaaccagta 60
aatctggaat ggaaagtcaa tctgagagca cactctatga tggttaattt tatgtgtcac 120
c 121
<210>57
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>57
ttttttcccc agataacctg gcttccaggg gagtaggaaa gtttcaaaga cctgagggcc 60
atagcctata gcactccacc atccacccag ggagagaagg gacttactgt ggcgagcttt 120
t 121
<210>58
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>58
aatgtattca tcaggtgcac ccagagaggc aaggccaatt tcctgtaatt gggggaaaat 60
agaacctgtt ctgttcctgt aattggaacc acagaaccaa cctagtactt ggccataaaa 120
a 121
<210>59
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>59
tccgctcttg cagagggcat gaggacccct ccctgggctc aactcatttg agaaattcag 60
gtcacagacc tataactaga aggctaaaaa atccattcct tacctgggaa aactgggcaa 120
a 121
<210>60
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>60
agctgcgatc tgaaaacaag ggcacatgtc ccaacagctc atggcagatg tcactgaaag 60
acagaaagca cagagagctc ggaggggagg aggtttaagc caagccagac tcagtctttc 120
t 121
<210>61
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>61
ctgtggacca gccagcaatg aacccaaacc tcattcttgc agcaggaaaa gatggcgctc 60
attgtgcctg gcaactggta gctggaggac agtactcacg gttcgggggt atacatgggc 120
t 121
<210>62
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>62
ggcttggatc catgtctgat gtactgtgtg cagtggaaga ctcggaaggc caggccaccc 60
aagaaatccc gagaggaaag caggccagcc acaggtcgga ggcggaaacc agtgcaagct 120
g 121
<210>63
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>63
aagaaatccc gagaggaaag caggccagcc acaggtcgga ggcggaaacc agtgcaagct 60
gggatgaaaa gaagaaagaa aactcaaagc tcatcaccac tgagtcagag gcactaggag 120
a 121
<210>64
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>64
tcatacttgc ctccacatac ttgtcttccc cttccctctc ctctgcctca atcctccccc 60
aactttctgc agggccattg accctgatgt ggacttactc tgcaggaact gagaaacgtc 120
t 121
<210>65
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>65
gctggggaat gttatcttca tggaagccac agtacttttc aagaagtgga aaaatgtgat 60
tgtactcata gcaagcatgg gttttataca aggacttcag agtcttgaac actgtgcccc 120
a 121
<210>66
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>66
catgttttct tttcttcctc catgtattcc actcgaggga tgggctgccc actagaatac 60
aggcacaaaa taggtgtctc aagcagggca ggggcacagc agaacgcagg ttaggttagc 120
a 121
<210>67
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>67
ttcatgctgg tattttccat cctcaactgg atgagggcaa gggagaagca ggctaggggt 60
gtgtttttct ctcttcccct caacaagcaa ggcagactta ctggcggtag ttgtaggcaa 120
t 121
<210>68
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>68
gtcagcaaac tgcttccgtc ttgcacggta cacaggatct ttaaaaccct aggagaaaag 60
agacacctga tttttcaagg cttcatagga agaggtctgg tacctttatg aatgctttga 120
a 121
<210>69
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>69
gtacattgct ccaagtagag aaggtaagag gaagggaggg gagtggagga gaggcactga 60
aaaaatctca tcctacgggc catggactca cagggtggtc agcatccagt tccgctccat 120
a 121
<210>70
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>70
gaaaaaatct catcctacgg gccatggact cacagggtgg tcagcatcca gttccgctcc 60
atagctgaga atctgattgg caaatctgtc cagctcttga atggttcttg ggaaccaggg 120
c 121
<210>71
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>71
taaatataca tatatttaaa tatgctgtta aatatgtata ttgctgttat tttatgaaga 60
cagtgtggag ttacttatgt tgcaaaattc ctctaattct tacctgtgtc tttcttctta 120
t 121
<210>72
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>72
tatctcgtga aagctcatgg acagtggcac caatgtcatg cctcaagatc ttgatgatgt 60
ttgtcagagc aggcaggcta cgtttatcca aatgggtgaa aaattcatac tcatctttct 120
t 121
<210>73
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>73
ctttaaacga gaaggtctag attcaatgtg ggtcaggttt acatcattct cctagaagag 60
agaatgggga gggtgaggag acagtcactg gaactaacgc aggccaaaga tgcagaacca 120
g 121
<210>74
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>74
ttcaaatctg cctgttccag atcctgtgtt cttttcattg catctaacta gaaaagaaca 60
tggaagtttg ctacgacatt atccaagaca aacatgattg tagcactgac ctcaaataag 120
c 121
<210>75
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>75
ataagcgcaa tactttggcc aatgcaccaa cttcttcttt gagtgagaag atcagtgata 60
tggcaccatt ttgattgcag ttgtcttcaa tatagcttgt ttcctacagg ataagatgca 120
t 121
<210>76
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>76
ttttgattgc agttgtcttc aatatagctt gtttcctaca ggataagatg catttgttta 60
aaacattttc cacagtttag caattcattc ctgttaaacc tccatggaca aagcaagcat 120
g 121
<210>77
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>77
ttcttactga gcttatgaaa ccaggaagca ccagcagtct tcggatctct ttctctggag 60
gcccaaattc ccctaactga gcagctcagg ctgccgtggc tcacctgtcc aaagtcagag 120
a 121
<210>78
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>78
gagtttcctg cccaagcctg ggttttccag gaccgcagtg gacatgctgg ctccccggga 60
gtgaggtctc tggcttttta gggcctcagg tacaggcagg tttgcaaaca gcacgtgggg 120
c 121
<210>79
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>79
caaccataga tgaaagaact ctaccgtcgg gcgccacctc ttcaataatt gtcttgatta 60
ctctggtttt gttagtatct gtgtgaatga tggaaaaaaa attttaaaca gtctgtaggg 120
a 121
<210>80
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>80
ctgattaccc cagctagttt ctgctgacct tggtccctta gatgaagact cgcccacgga 60
cccggaagag gaggacttgt ggcctccgct ggagctgccg ccgccgtatc cgccgccgga 120
g 121
<210>81
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>81
taacttttca ttttaaaatt taccttccct ctccttctag caggctgcgg taggtttgaa 60
tttcattctc cagtcggatc ttaatatcca ggagttgttg gtattcagta ttctggcact 120
c 121
<210>82
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>82
ctggcactcg gtttcagctc gaatctgttg caactgttct tccagagcgg atatctgggc 60
ctgaatctgt gagagctgca cacagtagcg accttctgtt tctgccaagg aggcttccag 120
g 121
<210>83
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>83
atttcatgag agttaacata ccaaggccag ttgggactgt agttctatct ccagagcttg 60
tacattacgt ctcaattcag taatctcaga tttatagctg gatatctgtt caatgttatt 120
a 121
<210>84
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>84
ataccaaggc cagttgggac tgtagttcta tctccagagc ttgtacatta cgtctcaatt 60
cagtaatctc agatttatag ctggatatct gttcaatgtt attatcaatt tctgtagtca 120
g 121
<210>85
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>85
tcactataag gaagattact ttaccttttc attgaaccag gcttcagcat ctttgcggtt 60
ttgttcagca agttgttcat attggcttct catgttattc agaagttgag tcagatcaac 120
a 121
<210>86
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>86
gttttgttca gcaagttgtt catattggct tctcatgtta ttcagaagtt gagtcagatc 60
aacacccggg gcagcattca tttccacatt cacatcacca gtggacacat ttcgaaggtc 120
t 121
<210>87
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>87
ggaaaagtat aacttttgtg tcacctcctc gtggttcttc ttcagatagg ccagctcttc 60
agtcaggctc tcaatttgca tctccaggtc agccttggtc agggtcagct catccagcac 120
c 121
<210>88
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>88
ctcttcagtc aggctctcaa tttgcatctc caggtcagcc ttggtcaggg tcagctcatc 60
cagcacccta cgcaggccgt tgatgtcagc ctccacgctc tggcgcagag ctacctcatt 120
c 121
<210>89
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>89
tgatagtatt atacaacgat cacttaactt acttcagcct gaagtcatca gctgccagcc 60
tggcattgtc gatctgaagc aggatgttgg cattatcagt tgttaggttg agaatctgga 120
g 121
<210>90
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>90
ctggatttaa aaatacctct tacctgattt ttaaggtcat cgatggtttt gtagtatttg 60
ctgtagtcac gaggctcccc ctgatgtgag ttgccatgct tttcatacca ctccttgatt 120
t 121
<210>91
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>91
ccactccttg attttgcctt ccagctcata gtttgattct tccagagccc gaactttgtc 60
caagtaggaa gccaggcggt cattcagatt ctgcatggtt actttttcat ttccagagag 120
a 121
<210>92
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>92
ctgcatggtt actttttcat ttccagagag aaggccacca tctcctccaa atccaccacc 60
aaagcctcct ccaaagccgc ctccaccaaa gccgcctcca ccaaagctgc ccccaccaaa 120
g 121
<210>93
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>93
ccaaagctgc cacctccgaa actgccccct ccaaagatgc ctccataact cccaccaaag 60
ctgctacttc catagcttcc acgaaagcta cctccaccaa aacctcctaa tcctccatag 120
c 121
<210>94
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>94
ctcctaatcc tccatagcca cctgatgagc ccccaaagca gcccccacca gagctcccac 60
ggctaaaaga gccaccactg aacccccctg agctaaatcc tccaccaagg gagcctttgc 120
t 121
<210>95
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>95
ctttgctgct agaaattctt agggatgaca ctcctcctcc tcctccacat cctcctcctc 60
ctcctcctcc tccactgcgg gaggaagagt agtgcttgct tgagctgtat cgaacagaca 120
t 121
<210>96
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>96
tcagcccatc ctgctgctgg ctgtcctgct cagcttgtgg tgagtggagg caagtccctg 60
ccccggcccg cctgcctgaa gtcatcagat gtactgctcc tcatccctgc cattcaggag 120
c 121
<210>97
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>97
ttcaggagca gagaccactt gtccccatca tcgtctgctg cagcgctgtg ccgagatggc 60
ttgtcggacg tcagggagga cagcgacacc tggctgacat agctgacctg gtcccatggt 120
g 121
<210>98
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>98
tgtggccctg ggggagtccc gccacctgtc atccatgcct atgtgcacac tgacctggga 60
tgccgtcagg ggcttcatgt ggccatgcgc ctgtgcctca tacctctcca ggtcaggctt 120
c 121
<210>99
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>99
tgccgtcagg ggcttcatgt ggccatgcgc ctgtgcctca tacctctcca ggtcaggctt 60
cttatagctg gaaagcagga acgcaacagc atctgagcca ttctagaaac aaggcttttt 120
t 121
<210>100
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>100
gtcccaggtg aatgaatggg aaatgagagg caagttccac tgtgctaagc atgcagaatg 60
acaaggcctc ctgggagcct cccacagatg ctccacctga ggggactcac cacttgagct 120
g 121
<210>101
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>101
gctgcaggga tgagagcacc acagacacag aggaggctgc catggccgct gagcccatcc 60
agggctgcag cacaatgccg atgggcatga agacacctgg ggaagaaaga actcgcactc 120
a 121
<210>102
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>102
ccatccaggg ctgcagcaca atgccgatgg gcatgaagac acctggggaa gaaagaactc 60
gcactcacac ctaggtctgg ggagaggagc caggagaggg cttcaggcac cgggctgccc 120
c 121
<210>103
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>103
ctctagccag ccagtgagtg agccactcac taaccccagc aggaacctgg gagacagaag 60
cctttctggg cgcagctgga gcacagtggg taagagctgc ctacctgctg caatgggtat 120
c 121
<210>104
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>104
atcccaacca ggttataaat cagtgccagg accaggttga tgcgtatcct tcggacagtc 60
ctcttggaaa ggtgaatgct agccaccaca tccagcaaat cattctgatg gagaggagca 120
c 121
<210>105
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>105
cttggaaagg tgaatgctag ccaccacatc cagcaaatca ttctgatgga gaggagcaca 60
cagtgaggaa ggggtctgcc cattgccctc ccagcaccca cagcctggct gcagccacgc 120
t 121
<210>106
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>106
catccagcaa atcattctga tggagaggag cacacagtga ggaaggggtc tgcccattgc 60
cctcccagca cccacagcct ggctgcagcc acgctcactc tgataaggac gacgtcggct 120
g 121
<210>107
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>107
gccacatccg tgccggtgcc aatggccaca cccatgtctg cctgggccaa ggccggggag 60
tcattgaccc catcccccac catggcgact ttcttccctt tattctggag ctcctggacc 120
t 121
<210>108
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>108
tggaccttgg ccaccttgtg cgaaggcagc acctctgcaa agactttgtt gatgccaacc 60
taagacaaaa ggaaggcaat gcctagtgtt ggcaaaaggt atcagatagc agcagaaacc 120
t 121
<210>109
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>109
caggagtaca gctcagtgct gggccaactg gtgcttactt ttgtctctaa ctgcttttat 60
gagctttaca cagtttgcaa cattaaaggg ctgtacctgg gtggcaatag ctctggctgt 120
c 121
<210>110
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>110
cttccggttg tcccccgtga tcagaaccac gtccacaccc atgctctgca gcgtgtgcac 60
agccagggca gcctcctgct tgacagcgtc tgcgattgcg atcatcccac agagcacacc 120
t 121
<210>111
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>111
cagggcagcc tcctgcttga cagcgtctgc gattgcgatc atcccacaga gcacacctgg 60
agcgaaccag ccagcatcag cagctacaca agttggggca ccccgcacca agataccaca 120
c 121
<210>112
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>112
cttttctttt ataaaggagg actcttttgc ctgatatctg cagaaaactg tatttctgag 60
agagcggaag gaaggcagaa gcagaagata ccgtcaatag ccaccaggat ggctgtctgt 120
c 121
<210>113
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>113
gtctgtcctt tcatctcgtg gtctgtcata gcgtcactga catcgctaga aatggttaaa 60
ccgttgcgcc tcagccactc acggtttcca atcagcacag agaaggtctg ggggactgca120
t 121
<210>114
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>114
cgcctcagcc actcacggtt tccaatcagc acagagaagg tctgggggac tgcatctatt 60
caaaagaggc tgtggttatt tctaaatggt ccaatttcac tgtgaactaa aaaccatgca 120
a 121
<210>115
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>115
cttagccatg aaccgtctgc cgcacagcag aggcaatcac tgctgggcgt ggtgctctct 60
gtggtttgac ccacctctac ttttaaccag ctgcagagac aaaagccagc aatacctttt 120
t 121
<210>116
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>116
gggaaggctg ccagcctcat tcaggtgact ggccggtgca ctcaaagggc gctcactgtg 60
ggccaggatg ccttccacgt tgctgacttt gcacccaatt ccacagcctg gcactgcctg 120
g 121
<210>117
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>117
ctggaagtcc gtgcagtatc ccaaggtctc tgttccaagt tcctgggaag gtggaaagag 60
aggaagagga aactgtaagc caagaggggt gaagtgaaag ggaggggcag gcaggacagg 120
g 121
<210>118
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>118
acacagagaa ggctcctcga gggcagctag gagagaagga catggtgagg aataaaagag 60
cattggcggg gagggcaggg ccacgcccaa gtccacgtac ctctttacag tatttggtga 120
c 121
<210>119
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>119
actgccacgc ccaaggggtg ttcactgctg gcctccgcag tccccaccac agccagaacc 60
ttcctgaggg gcagtgtggc cacatccccc agcaggagca cccgcatgac cctggggacg 120
c 121
<210>120
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>120
ccatgggtaa tggtgccagt cttgtcaaac atcacagtct ttatctgcca aaaacaacca 60
caactcactg accacaatac agatggaggg gcttccatag tcacactcct gaggcagaac 120
t 121
<210>121
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>121
gtcttgagtg gctctcaggc ttttctctca atgtgaaata gtaaacagat actactttca 60
tctctcagga tggggaaagc cgtgctacag gctgaccttg tgcgccatct ccaggggctt 120
g 121
<210>122
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>122
cctcccttga tgaggatgcc gttctgcgcg gccaccccgg tgcccaccat gacagccgtg 60
ggcgtggcca gccccaggga gcaggggcag gcaatgcaca gcaccgtgat ggacgtctgg 120
a 121
<210>123
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>123
aagcaaaccg gatgatcacc tctgtctggg agatgtgctt gttggggttc tgaaaacagg 60
acagagtcag aggcaggttg agagttcaat aaggaagctc ccagaactct aatcacataa 120
g 121
<210>124
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>124
tgaataatta aagcccagtg aatctaagat atgaaagaac aggatcaatg tcagtagatt 60
atttaaaaca caaccaccat atagcccaag gcattcaact tacaggaaag tatctctgaa 120
c 121
<210>125
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>125
acacaaccac catatagccc aaggcattca acttacagga aagtatctct gaacaacacc 60
aaaatcgata aaaccgatta caatccatac caccaacgtc aaagttgaca tgatgatgat 120
a 121
<210>126
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>126
taaatgggac aaaatatcca ctaaaccggt cagccagctg ctgaatgggt gcctatgaaa 60
ataaaacacc aagaccatgg gaaattacaa cctatgaaga aataaaacac cacaagcatg 120
g 121
<210>127
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>127
tcaataaaac tgtctgattt cccagaactc ttcacataat ttctaaaacg agaaagatga 60
agttagtttt aaaaatttct tcattacctt tgacatctga gcctcttcca ccagtttcac 120
a 121
<210>128
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>128
atctgagcca aagtggtgtc attgcccacg tgggtagctt taatgagcac agagccatgt 60
gcatttatag accccgcaat tacagtgctt ccgggtttct tagtgactgg catggcttct 120
c 121
<210>129
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>129
atttatagac cccgcaatta cagtgcttcc gggtttctta gtgactggca tggcttctcc 60
tagacgtagg aaagagacaa ctgtcacttg ctcagcccca tccagcactc atgtgacctg 120
a 121
<210>130
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>130
gtaggaaaga gacaactgtc acttgctcag ccccatccag cactcatgtg acctgacagc 60
tgctatgata tcctcctgag ggaacatgaa acaagccatc tcacctgtga tgagggactc 120
a 121
<210>131
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>131
tcatcagcca tggtattgcc ttccaggact ttcccatcca ctggaaactt tcccccaggg 60
accaccttga cgatatcgcc ccgctgcacc agctccatgg ggacttgctc ctccctgcaa 120
c 121
<210>132
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>132
gacgatatcg ccccgctgca ccagctccat ggggacttgc tcctccctgc aacaaacgcc 60
acttatcact cacatggcca ctcattcggt caccgggtca ggttctaggc cagctgttac 120
a 121
<210>133
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>133
caatgtcaat acaacatggg catctgatgc agctcacaca gattgataga taccaaccac 60
aaagacattt gataaccata actcacctga tgattaaatt gtcctcacca agggtcacaa 120
c 121
<210>134
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>134
cggtggcttc tgtggcttgg agagacatga gtttagccag ggcttctgag gttttgctct 60
aggaaataac cagaatgtga aatgagagct atcgaaagca gacctgtcca aacccagcct 120
g 121
<210>135
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>135
ctgtctctat gctgtgtata attagtaatt ctaaacatgg tgttcagagg aagtgagatt 60
tgtttactga aggagcagct cttttctgaa cctgaagctg ctgttacctt tgccaagtgt 120
t 121
<210>136
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>136
agtgttccag ccaccggccc agggcaatga acacaaagag catggggggc gtgtcgaaga 60
atgtcacagg gctcctctcc gccttctcag ccacagcaac caccaggatg accagagaat 120
a 121
<210>137
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>137
aacataagca atgcttgtgg ccaggacgat gagcacgtcc atgttggctg acctgtgtct 60
cagagatttg taggcctgaa cgtagaagta ccacccaccg aggagctgaa agacaaggac 120
a 121
<210>138
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>138
gagatttgta ggcctgaacg tagaagtacc acccaccgag gagctgaaag acaaggacag 60
tgaaggctgc cagcaagtag ggaggagagt tcaatgagcg acacagggcc aagggccctg 120
g 121
<210>139
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>139
aagtgccatt taaaccaagc taaagcacta tgtttgcgct tagcgggcag aatatctgag 60
ggccacacac agcatggaag ggagaggtct gcccactttc tcatatatac ctggacaaag 120
g 121
<210>140
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>140
acaagataaa gaagatgaga tttagaatgg acagtcctgg aatgatgttg tggtccagga 60
ccatggactg gtggggctcg ttgctgggta tcagcatata gatcattaag gccatgacag 120
g 121
<210>141
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>141
acagggatgc caaacaccag gctgcacagg aaagacttct tccacctgga aagcaaatgc 60
agcaacacag atatatcaga tgctgcttgt cacctggatt acaagccact ccccttctga 120
g 121
<210>142
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>142
aggcaccatg ggaagacaag accagctggc agagttgggc ccaggtagag gaagggactt 60
agatgagagc tggagtttat cttttgtgtt ctacctactg ctttatttcc atcttgtggt 120
c 121
<210>143
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>143
agtgatgagc gttggggttt ctctgggcca gggaagcatg aaagccaatt tccttgtcat 60
taaaaagaga ggggtgggga aaaaggagga aggtacttgg ttaaaatatg cattggcaga 120
a 121
<210>144
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>144
gaagaatttt ggttattttc attttttctt agctatattt tctcattttt cttcactgat 60
tatatattac tgtttttaaa aaggtgacta caatttttta atgaattact tacctcaata 120
a 121
<210>145
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>145
tttgataata tcccgtggac cgataatttc cgggtcaaac ttaacaaggg ctttgctggt 60
ggcaagggca acggaggcat aagtgatgcc atttgtcctc gtgagtttgg actctatgtt 120
g 121
<210>146
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>146
ctatgttgtg gacacaggac gcgcaggtca tccctgtgat ctgcaacaca ggatggcaag 60
aatcccacag acccaggatc aaggaaagcc tgtgaaagcc agtccaggga gtctaggtaa 120
c 121
<210>147
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>147
aacaacaaca aaccagacac gtccaagatg gggaaattta ctaatcacaa agatggatgt 60
gtccaaaatg caaactgtca gaagcctgta accccgtaac gcacccacag tacttactgt 120
c 121
<210>148
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>148
atgttgccat cggagcctgc gtagtcctcc atgactgctg cctcaaaacc caggtcctgg 60
atgaactgag ctatctcgag gggctggatg acctctgggt catacttgat ctctgccttt 120
c 121
<210>149
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>149
ctttcctgcc atcaaggcaa ccaacacgga gagaacacct ggaaccatca ggtcatggct 60
gtaacactct gggtgggcag ggcctctagg ttgacacagt caatataacc gaacaaagaa 120
a 121
<210>150
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>150
gggctactga taaacacagt tgctgggtat tctgaaggga gaatacgagg tctatacgca 60
gcattcctaa gttcaacatg ggcgttcatc tcttaccagc ttctttctgc agattccttt 120
c 121
<210>151
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>151
tctatgttag acacacagga tgcacaggtc atgcctttga tctgtaagaa gcacttctgc 60
ggtgccactg ctctggttga ttgtggggac tttgccaaga tgtccggggc atggtttgca 120
g 121
<210>152
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>152
gggagcctcc cagtgtgggg agccacttcc tgcacagatg taggtgtacc atctgtagtt 60
tgcaccatgg aattcccagc actgtggttt ccaagagggt tagtagaaca gctttctagg 120
a 121
<210>153
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>153
gcaccatgga attcccagca ctgtggtttc caagagggtt agtagaacag ctttctagga 60
taaaatgtca gaaaatattc aaattagaag agcaaataat atgtttttca gaacaagagg 120
t 121
<210>154
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>154
ctcacctata ccaccatcca ggagctataa gacacaaaga gaaaaggaga caagctcagg 60
acatgcctca aacacactac gtaccagaaa cgactgaagc ctcaaatccc atgtcttcta 120
t 121
<210>155
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>155
tctatagcag ctctgagttc ttctgggcta attacagagg gattataaag aactgttgca 60
gtcccttcgg ccaaagacac cgatatttgc tgcacccctt ccagttggga gatcatgcct 120
t 121
<210>156
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>156
ttcaatggaa tggacacagg atgcacaggt catgccggca atggcaatca gagtggtact 60
gcatgtgccc tggacctggt ttctcggtgg ggagccaggg gaatgagaac tggaagacct 120
g 121
<210>157
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>157
atctgtccca ctcccttcgg ctccatcagg aagagaaact ttaaaattcc caggtggaag 60
tgcctcgata gccctctgca gagccactgg gctggtacaa gaagggtcat actttacttg 120
g 121
<210>158
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>158
cttgggcagt tttgttctcc aaggacactt gaatactttg aacccctagg agctggccaa 60
tattttcttc aatattcaag acgcaagact tacaatgcat tccatctatt ctcagttgga 120
g 121
<210>159
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>159
gagggtgacc acatggcttc cttggtgccc caaggtctca gaattattaa aattctggtt 60
agcagaagat aaaggtctct ttgggttagt gctttgtaac cgctcaatat caattggtcc 120
c 121
<210>160
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>160
cttaagggag ccactttgct cttgatggca gcttcaaatc ccatgtcatt tacatggtcc 60
ctgaggtctt cgggctgaat gagataaggc tgataagtga tgacggcctc ttggttgctg 120
a 121
<210>161
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>161
agactttgac tctcactact ccttgcagtt tccggacctt gccttcaatg gagctgacac 60
aggactggca ggtcatgccc tccacccgga gcttgaccac agcctcctgg gcaggcaagg 120
a 121
<210>162
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>162
aaggaccttg agggccagga ggctgccttt ccttctgcaa tgctggcctc gaagcccatg 60
tccccaattt gatggcaaac ctgttgcagg cacacaaccg atggcacata tttcacagtg 120
g 121
<210>163
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>163
actgccttgt tccagggaaa ccttcatgct gatgatgcct ttcaaattgg aaatcctgtc 60
ctcaatggac ttcacacatg actggcaagt catgcccaag atcctgactg tgctggtggc 120
c 121
<210>164
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>164
ccacctgaga agaagggccc aggccatcca gaccaccttc atagccaaca ttgtcaaaag 60
caaaactctt cttcattgct ggttcccagg cacgggtagg caaagaaagc ttagataaga 120
t 121
<210>165
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>165
aaagcaaaac tcttcttcat tgctggttcc caggcacggg taggcaaaga aagcttagat 60
aagatctaaa aagaaaagaa ataacatttt ttaaccttga aaccaaatat tttctacaac 120
a 121
<210>166
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>166
gctcggcctt ccctgcgcac cccctggggg cgagtaagcg ccgaacgcgg ggaggaaaat 60
cctcctggtg ggagtgagca cgctgcgcgg acgcggggga acaaaactca ctttccgact 120
g 121
<210>167
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>167
ggccccttct ctggctgtga tctgtctctc ctgctcaggc atcgtcccgc acggacaccg 60
aattcttctc tgatctggct cagagcaaaa ggtcacctgg tcggtggagg agagcggggt 120
g 121
<210>168
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>168
ctgtaagctc acactggccc tgctgtgccc tctttagtca cagacagcgt gtgagctgac 60
tctgtccctt taatgcccag gctgagccca gtgcctcctt gagtatctgc tccatcactg 120
g 121
<210>169
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>169
gccacaggta ggtgtgaatg gagtagccag gtgagattgt ctccaggaag cccacagcag 60
gatccttgat ggtaagaggc acatccttag aggagctagg gagcagggag gagaagctga 120
g 121
<210>170
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>170
cacatcctta gaggagctag ggagcaggga ggagaagctg agagtgtgat cctgccaagg 60
cccccaacgc tgtcttcagc ccacttccca gacctcacca ttgccctcac cggtttagca 120
c 121
<210>171
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>171
cacaacagca gagccatcgg gatgcatcag tgccactgcg tccaggtcgt tcttctgact 60
ggcaaccagc cccactctct gggagccctc aggaatgaac ttgctgaatg tgggaacaga 120
t 121
<210>172
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>172
tggcaaccag ccccactctc tgggagccct caggaatgaa cttgctgaat gtgggaacag 60
atggtcagag tccctcgggg tacctcccat gaaaccctca tctaagaagt cacccaccca 120
c 121
<210>173
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>173
cgaggttcca ccctgaacac cttcctgctc cctcgtggtg tagagtgatg taagccatcc 60
gatgtaggag atgataggcc tggtatggaa tgggggtgcc cgccctccac tcacctgaag 120
t 121
<210>174
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>174
tccgatgtag gagatgatag gcctggtatg gaatgggggt gcccgccctc cactcacctg 60
aagtggccaa ggtggtagaa catgggctgt ttgtaaaacg tgtccttggt gatgtctaca 120
a 121
<210>175
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>175
aatgatggga ctgtcgacaa agttacgcac ccaattgggt cctccttcgg ggttcagggc 60
aaggttccag tcggtccagc cgaccacatg gtacaggagg ttctagggta aggacaaagg 120
c 121
<210>176
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>176
aggttccagt cggtccagcc gaccacatgg tacaggaggt tctagggtaa ggacaaaggc 60
aaagagacaa aggcgcaaca ctgggggtcc ccagagagtg taggtaaggg tcacatgtgg 120
g 121
<210>177
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>177
ctcaaaaggg caggctagct ggggaaagct ggacaggaag ggcttctgtc agtctttggt 60
gaaactagta agaggtctga ggtctgcttt gcaggaaggg agactggggt ggcttaccgt 120
g 121
<210>178
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>178
gtaagaggtc tgaggtctgc tttgcaggaa gggagactgg ggtggcttac cgtgatgatg 60
ctgtggctgt actgcatccc tcgatcccag gagcctagcc gcacactctg ctcccagaac 120
t 121
<210>179
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>179
cttggagccc acacaggcct ctgaggcaaa gagcatggtg ttggggaaca ggcggtgtgt 60
ctcccctagg gtggctttgg ctggagccag aaagtccagg taccaatgta cagcaatgcc 120
a 121
<210>180
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>180
catgaacata tttagctgct tctgggtctg tcagtacctg caaaggaaga gcaactgatc 60
ctggaccttg cacacaggct tctggaactt ctagttcctg ttgtaggaat cctggagttg 120
g 121
<210>181
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>181
ggaatccata gttgggtaga gaaatcgctc taagtttggg agccagtcat ttggatgctg 60
gatttgaagg tcactggagc accatggagg tccaggcctt accacctttg cccagtgggg 120
c 121
<210>182
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>182
tggcgagggt aggacctagg tcacgggcaa tgaagtctcg ctgatgttca ggggtgaagc 60
ccaggcactg gaaggggtat ccactcaaca gcccagcaga aggctcattt tcagctgtca 120
c 121
<210>183
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>183
gcccagaact gtaacttgtg ctcagcatag gcatccagga acctggcaag agaaaggtca 60
tgaatgatcc ggccaagaaa gtggaccaga ccagctgggt gtggtggctc acacctgtaa 120
t 121
<210>184
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>184
ctgaggacag gcagatctgg aagtggaact aggttgaggg ttgggacaca gatcagcatg 60
gctaaatggg aggccagtcc tgatcccaca tccttgctga tcccttactt cacaaagtat 120
c 121
<210>185
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>185
gcccaggtct ggtggtagat gtctccgggc tgtcccttga gtgacccctt cccattcacc 60
gctccattgg tcttgagcca agtgggtgat gtccaggggc tggcaaggag tgaaacggga 120
c 121
<210>186
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>186
gaaacgggac gctgggccaa ctgcagggct cggtgaatca ggggtatcta gagacaaagg 60
tagtgaagag agaagcaccc agagttggaa cacatactag cccaaccagt gcatccggtt 120
c 121
<210>187
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>187
cagcagggga caaaatgtct gtacaagcag acctacccta cagtttctca acccccagac 60
atcagggccc tcagggcctg aaaaagctag aatgcctacc ttgagcttgg tatcttcctc 120
t 121
<210>188
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>188
ctgggaggct gaagttgtgc aactggaaat catcaggggt gtctgcatag gtgtaggtgc 60
ggatggagaa gtcacagctg gccatgggta cccggatgat gttatatccg attcctacag 120
a 121
<210>189
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>189
ggagaagtca cagctggcca tgggtacccg gatgatgtta tatccgattc ctacagaaaa 60
ggatgatcaa gatatggtag tccgagtcaa taggagagta tgggactctg cttatcactt 120
g 121
<210>190
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>190
tgagattctg cctcaaaaaa attttaaaaa aagaaaagaa aaacgaaaag tttcaatggc 60
tctatgtcat cttgtcccct tcctcctcac cttcttcaga gaagtacgat ttaagtagca 120
a 121
<210>191
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>191
aaattttggg cagggggtga cagggcaagg atgttgagag cagcagcatc tgtcatggcc 60
cctccaaatc ccttcacttt ctggaacttc tgttctggct gcagggtcag tagcaggcct 120
g 121
<210>192
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>192
gcccctccaa atcccttcac tttctggaac ttctgttctg gctgcagggt cagtagcagg 60
cctgaggaca tccacaggga ataagggtat cagtacccag cgggaaactc catggtgatc 120
a 121
<210>193
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>193
aagggtatca gtacccagcg ggaaactcca tggtgatcac tgacaccatt tacctctagg 60
aggacccagc ctggcccagg gggtgagggg tgtaatggtt acctgtgccc gtgtgattag 120
c 121
<210>194
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>194
agcctggatg ggccccatac tcagctccat ccgtcgccca ctgcgtgtac tctcatagcg 60
gctgaaggta ccaagggcag gaaaggtcgg ggggtcaaag gagtcacagt atgtggcatt 120
g 121
<210>195
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>195
agacacacac caccgagctg tagccgaagc ttttagggat gcaggggcgg gcacctggga 60
gggagggagt acaagcagag tgaggtctga tgaagacatg gagaatggac acatctgcta 120
g 121
<210>196
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>196
aagtctacca ccagcttact ggaaggctac caaaggacta tgaggcagaa gggaggctct 60
gtgctacctc cccactgcct tgactcactc acctgatgcc cacgacactg cctgaagtag 120
a 121
<210>197
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>197
aatcctgtga ggctgccagc catgatgctt accctactca aaggcttggg acattcctga 60
ggacagaatg aggaatgact gaaaagcaag cccctctcca cccctcaact actctcctgg 120
g 121
<210>198
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>198
ggccctggat tcaaagagag tctgtcattc attaaattcc agtgccagga ttccagaagc 60
actgtgacaa tgctgattgg gagctctctc tcttacctct ctggaaggac ttgaaaactc 120
c 121
<210>199
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>199
gcagggagtt tgtggaggag ttcatctggc cggccatcca gtccagcgca ctgtatgagg 60
accgctacct cctgggcacc tctcttgcca ggccctgcat cgcccgcaaa caagtggaaa 120
t 121
<210>200
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>200
cgcccagcgg gagggggcca agtatgtgtc ccacggcgcc acaggaaagg tgaggcacct 60
gggaagggcc gggcagaggg agatggaggc ggaggggtgt gggaaggaga tgagcacccc 120
t 121
<210>201
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>201
tctgcccagc tctgtctccg ccacgggctg tccttgtcct cacgtcctcc cccagactcc 60
agaaccccca tcctgtggct cctgacagcc ctctgttctg cattgcaggg gaacgatcag 120
g 121
<210>202
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>202
cggtttgagc tcagctgcta ctcactggcc ccccagataa aggtaggatg tggctcctcc 60
ccttagcagg gagcactagc atctgcagca cctgatgggg aggagggcac agggttctgg 120
g 121
<210>203
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>203
cccccatggg cccctcccag gagaggccag ctctgcagct tacaggccag gggaagccca 60
cagctcggcc ctcccggctc tgaccccttg tcctatgtcc aggtcattgc tccctggagg 120
a 121
<210>204
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>204
gaattctaca accggttcaa gggccgcaat gacctgatgg agtacgcaaa ggtatggccg 60
agtctcccca ccacccccaa cctttcccta tagccccctt cccgggcacg tccctgctgg 120
g 121
<210>205
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>205
gggggccaga gtttggggct ctctgaaaaa gcagggcccc tgggacggac ctcacgcgtc 60
cttccagccg ccttacctcc acctgtgctg tctctttcct gcagcaacac gggattccca 120
t 121
<210>206
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>206
tcactcccaa gaacccgtgg agcatggatg agaacctcat gcacatcagg taaatcccac 60
cctccaccca tccttggtcc tcccgggctc attccaaagg acggccacgc gctgccccag 120
g 121
<210>207
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>207
atgggcacaa tggggtgtgt gtgttggggg atggggacat gccatgtccc tccccagctg 60
accctgtctt tcctttcccc tccgcagcta cgaggctgga atcctggaga accccaaggt 120
a 121
<210>208
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>208
cccagctgac cctgtctttc ctttcccctc cgcagctacg aggctggaat cctggagaac 60
cccaaggtaa tcccccaaac cccatctcct cccagctggc cacctttggt ggtagcagct 120
c 121
<210>209
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>209
ggagaggggt gcagatcccc gcgggaggtg ggctgtaggg tgtccaggga ctggtatgtc 60
atctgcccac cactttctgt cttttttcag aaccaagcgc ctccaggtct ctacacgaag 120
a 121
<210>210
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>210
gaagacccag gacccagcca aagcccccaa cacccctgac attctcgaga tcgagttcaa 60
aaaaggtatg tgcccacctg ttgggactcg aagggggttg acttttgggg ccctggctcc 120
t 121
<210>211
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>211
cgtttcggga ggagggagag ggtggggtgg cgggtgcaga ctcctccgct gagccgggcc 60
cagaggccca ctgccctctc ttcccaccct aggggtccct gtgaaggtga ccaacgtcaa 120
g 121
<210>212
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>212
ggatggcacc acccaccaga cctccttgga gctcttcatg tacctgaacg aagtcgcgtg 60
agtgtctgca gccctgtccg gcctcttggg aaccgccgtc tcgggcgagc acgagcctgg 120
a 121
<210>213
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>213
atgtgtggcc taagctgtgc ccaccctggg acagcccagc tgggtgggtg actctgagcc 60
ttgcggtagc gcccgaacct aatggaccag ttcttcccac aggggcaagc atggcgtggg 120
c 121
<210>214
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>214
gggccgtatt gacatcgtgg agaaccgctt cattggaatg aagtcccgag gtgagtctgc 60
tcagcctccc tcagggcctg cctcgggacc cagcaaaccc agagatccct gagaccctgt 120
c 121
<210>215
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>215
tattattatt attttttttt ttgtcatttg ctgacagttt gggtttcatg cgtttctctc 60
ttttttctcc ttttccccct gcctggaaaa atggctaggt atctacgaga ccccagcagg 120
c 121
<210>216
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>216
gcaggcacca tcctttacca tgctcattta gacatcgagg ccttcaccat ggaccgggaa 60
gtgcgcaaaa tcaaacaagg cctgggcttg aaatttgctg agctggtgta taccggtgcg 120
t 121
<210>217
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>217
aaatcaaaca aggcctgggc ttgaaatttg ctgagctggt gtataccggt gcgtaagact 60
ctatggctgc cccctctaac cgcctcacaa gggatcccaa agtactatca ggctctcggg 120
c 121
<210>218
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>218
aaccatgggg cacccttcct gtgccccagg tctccctgtg tcctcgcggt gcaggaggcc 60
tccctagtgg tatcctgttt tcctccctgt aggtttctgg cacagccctg agtgtgaatt 120
t 121
<210>219
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>219
gtccgccact gcatcgccaa gtcccaggag cgagtggaag ggaaagtgca ggtgtccgtc 60
ctcaagggcc aggtgtacat cctcggccgg gagtccccac tgtctctcta caatgaggag 120
c 121
<210>220
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>220
gggccaggtg tacatcctcg gccgggagtc cccactgtct ctctacaatg aggagctggt 60
gaggtaggtg ccccacacct cattctgacc cccacttggg cacagagcct atcttttgac 120
t 121
<210>221
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>221
aaatgccctg gcatctggga ggtggggctg cttctggccc cagcagtcct cccttcaagc 60
agaggccagg gccaggctga gctgacaagc ttctactctc cttgcagcat gaacgtgcag 120
g 121
<210>222
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>222
ttatgagcca actgatgcca ccgggttcat caacatcaat tccctcaggt gagaagctca 60
gggccctgac gggccttcag agcctccagg tgtaaagggt aggctttgag agcccccagg 120
t 121
<210>223
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>223
cttaacaaac agctgcccca gccaccccag ctctgcctga attaattgaa cccagtgtgt 60
gttgttattg ttaatttaca tttttctttg ttttgaatct ggtttacagg ctgaaggaat 120
a 121
<210>224
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>224
aatatcatcg tctccagagc aaggtcactg ccaaatagac ccgtgtacaa tgaggagctg 60
gggcctcctc aatttgcaga tcccccaagt acaggcgcta attgttgtga taatttgtaa 120
t 121
<210>225
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>225
acctctcagg ggtctccccg ccaaaggtgc tccgccgcta aggaacatgg cgaaggtgga 60
gcaggtcctg agcctcgagc cgcagcacga gctcaaattc cgaggtaagc cccagaggcc 120
g 121
<210>226
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>226
agtctctgtc tcattctaca ggtcccttca ccgatgttgt caccaccaac ctaaagcttg 60
gcaacccgac agaccgaaat gtgtgtttta aggtgaagac tacagcacca cgtaggtact 120
g 121
<210>227
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>227
ccaacctaaa gcttggcaac ccgacagacc gaaatgtgtg ttttaaggtg aagactacag 60
caccacgtag gtactgtgtg aggcccaaca gcggaatcat cgatgcaggg gcctcaatta 120
a 121
<210>228
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>228
ctcctaatga aatattttct ttctcagtga tgttacagcc tttcgattat gatcccaatg 60
agaaaagtaa acacaagttt atggttcagt ctatgtttgc tccaactgac acttcagata 120
t 121
<210>229
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>229
ttataatatc ttgattatta aatttaaatt gttttagtgg aaggaggcaa aaccggaaga 60
ccttatggat tcaaaactta gatgtgtgtt tgaattgcca gcagagaatg ataaaccagt 120
a 121
<210>230
<211>150
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>230
cttaggcttt catttgtttt tgaacagcat gatgtagaaa taaataaaat tatatccaca 60
actgcatcaa agacagaaac accaatagtg tctaagtctc tgagttcttc tttggatgac 120
aagaaacacc aatagtgtct aagtctctga 150
<210>231
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>231
agaaacacca atagtgtcta agtctctgag ttcttctttg gatgacaccg aagttaagaa 60
ggttatggaa gaatgtaaga ggctgcaagg tgaagttcag aggctacggg aggagaacaa 120
g 121
<210>232
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>232
gaaatgtgcg tttgctcccg taggaagaag atggactgcg gatgaggaag acagtgcaga 60
gcaacagccc catttcagca ttagccccaa ctgggaagga agaaggcctt agcacccggc 120
t 121
<210>233
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>233
tgcagagcaa cagccccatt tcagcattag ccccaactgg gaaggaagaa ggccttagca 60
cccggctctt ggctctggtg gttttgttct ttatcgttgg tgtaattatt gggaagattg 120
c 121
<210>234
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>234
gtcctcggaa ccaggacctc ggcgtggcct agcgagttat ggcgacgaag gccgtgtgcg 60
tgctgaaggg cgacggccca gtgcagggca tcatcaattt cgagcagaag gcaagggctg 120
g 121
<210>235
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>235
ccaactttgc acttttctta aaggaaagta atggaccagt gaaggtgtgg ggaagcatta 60
aaggactgac tgaaggcctg catggattcc atgttcatga gtttggagat aatacagcag 120
g 121
<210>236
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>236
taattcataa tttagctttt ttttcttctt cttataaata ggctgtacca gtgcaggtcc 60
tcactttaat cctctatcca gaaaacacgg tgggccaaag gatgaagaga ggtaacaaga 120
t 121
<210>237
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>237
atccatctga tgctttttca ttattaggca tgttggagac ttgggcaatg tgactgctga 60
caaagatggt gtggccgatg tgtctattga agattctgtg atctcactct caggagacca 120
t 121
<210>238
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>238
ttcattatta ggcatgttgg agacttgggc aatgtgactg ctgacaaaga tggtgtggcc 60
gatgtgtcta ttgaagattc tgtgatctca ctctcaggag accattgcat cattggccgc 120
a 121
<210>239
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>239
tcttcttaaa attttttaca ggtccatgaa aaagcagatg acttgggcaa aggtggaaat 60
gaagaaagta caaagacagg aaacgctgga agtcgtttgg cttgtggtgt aattgggatc 120
g 121
<210>240
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>240
tggtcctttc caagctcact gttctcacca cacggcccca ctccggtttc ctggaggctc 60
ccccagaagc atttggggga catagtccag gcaggtgcct cctcccaggt ggggcaagca 120
c 121
<210>241
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>241
gtggggcaag cacctggcat gatagcggaa ttttaggtgg ccatgattca ggttgcatct 60
cacctcatgg gaaccagact tgggagcctg atcacaggtg ccaaggaggt catcgtccct 120
g 121
<210>242
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>242
tcatcgtccc tgccagagtc ctgatcccag acctgcaacc tcaggggccc ccctgtggcc 60
aggagcacat ccccaaaatc cagccgcact gaccagatgg ggttgttatt gtcccacacg 120
g 121
<210>243
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>243
tcctcagctc ctggccacca aagaagagct tcacataggc atccgtggca gtgaaccagt 60
ccccccacag gccccatgct tggatgaagg tcacctccag ctgggccagg cccctctgcc 120
g 121
<210>244
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>244
gcccctctgc cgagggcagc agtcctgggt ggtgaccgct gagccatggc acacacactg 60
gcatgggtct cgggggctct tctgccgccc tggtgggcac ggccggctgc agtccctcca 120
g 121
<210>245
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>245
cgagccctgt ccgtcaggta ctgactcagg gccctcctca gtgcctcccg ccgcgggtcc 60
tggctgtcca gcagcacgtg caggggttcc agggtgtagt ccaccaggcc agggctgccg 120
g 121
<210>246
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>246
gccagggctg ccgggcagcg agtttaccca ggctgagtac tgctcgggcc cggcctggat 60
cccgaacagc aggtcgttaa tggaggtgtg atggccgcca accacttccg agtggcgctc 120
c 121
<210>247
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>247
ctcccggtag gtttggtgga aggaggccgt catcttgtgc ttcttcttct tctcctcaca 60
ggccttggct tcggcagaga tgctgccgtg gatgcctatg ttgacctggg cctcgacagt 120
c 121
<210>248
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>248
tcgacagtca ggcagtcctc cacctcgttg tccgtgagcc cttccagggc cagctcgcag 60
gtgcgcaggg cagtgagggc cgatatgcgg ccacccagct ccacagcccg gatgaagtgg 120
g 121
<210>249
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>249
gccgtagttg gagataagcc tgaggtaggc gggctgggtg gaggcgttga agtggtgggg 60
caggtccccg agggccctct tgaagtcagg gtgcagcggg ggagtgtgta ccacatggaa 120
a 121
<210>250
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>250
agccccccac ccctagcccc agctctcacc tgtagaagcg gcactccacc gtgtcagtgc 60
tgaagctgta ctggtcctgg tgggtcttct gggctgcaaa gttggctgcc tgtgagtgtg 120
a 121
<210>251
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>251
gctgcctgtg agtgtgagcc ggccacagac acatgcacat tgctggtgggcttaggagtc 60
acgtccagcc cgaccttcca gtcgttgcgg atgctacgag ccgcatcccg ggccacagct 120
t 121
<210>252
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>252
agcttcagtg gagctgactt tggccctggt tacatggcgc tggcagccag agccctgggc 60
ccgccagttg gtgagcgcca gaggcaggcg ctggagggtg ccctcctgta gggcattttc 120
a 121
<210>253
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>253
agggcatttt cacagagggt gcaggtgccg tcgggccgca ggaacctttg tgtgtccact 60
gggaaggagc ccgagcggcg gaggctggtc acgtccacac cctccccggc cagccatgca 120
c 121
<210>254
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>254
ccatgcacca ggcacgaact tgtggctgcg cttgcactct gagcgtgcgg ctgtgtggca 60
cggggcaggg acgggcaggg gcagcagcag gagaaggatg cccaggagga gcagacgggc 120
t 121
<210>255
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>255
cattatctct acttgcaggc aaaatgaaag accggctagc agaacttctg gacttgtcca 60
agcaatatga ccagcagttc ccagacgggg acgatgagtt tgactcgccc cacgaggaca 120
t 121
<210>256
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>256
actcgcccca cgaggacatc gtgttcgaga cggaccacat cctggagtcc ctgtaccgag 60
acatccggga cattcaggat gaaaaccagc tgctggtggc cgacgtgaag cggctgggaa 120
a 121
<210>257
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>257
ggaaagcaga acgcccgctt cctcacgtcc atgcggcgcc tcagcagcat caagcgcgac 60
accaactcca tcgccaaggc catcaaggcc cggggcgagg tcatccactg caagctgcgc 120
g 121
<210>258
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>258
gggcgaggtc atccactgca agctgcgcgc catgaaggag ctgagcgagg cggctgaggc 60
ccagcacggc ccgcactcgg cagtggcgcg catttcgcgg gcgcagtaca acgcgctcac 120
c 121
<210>259
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>259
cctcaccttc cagcgcgcca tgcacgacta caaccaggcc gagatgaagc agcgcgacaa 60
ctgcaagatc cgcatccagc gccagctgga gatcatgggc aaggaagtct cgggcgacca 120
g 121
<210>260
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>260
cgggcgacca gatcgaggac atgttcgagc agggtaagtg ggacgtgttt tccgagaact 60
tgctggccga cgtgaagggc gcgcgggccg ccctcaacga gatcgagagc cgccaccgcg 120
a 121
<210>261
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>261
caccgcgaac tgctgcgcct ggagagccgc atccgcgacg tacacgagct cttcttgcag 60
atggcggtgc tggtggagaa gcaggccgac accctgaacg tcatcgagct caacgtacaa 120
a 121
<210>262
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>262
aacgtacaaa agacggtcga ctacaccggc caggccaagg cgcaggtgcg gaaggccgtg 60
cagtacgagg agaagaaccc ctgccggacc ctctgctgct tctgctgtcc ctgcctcaag 120
t 121
<210>263
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>263
aaatcaggta ttgaaattaa attgaagaca tagctttact ctcttctttg atcataacta 60
aaataatatt ttagacaaaa gctaaaacaa aaagaggata ttatacagat tgctgcttct 120
t 121
<210>264
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>264
cttttccaaa cacttctcaa tatcatcaag cacctgaacg gcagcctttg gaattcgagt 60
cccaggacca aatacattgg aaacaccaac ttcaaacaga aattcataat cctgttgaaa 120
g 121
<210>265
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>265
gaccaaatac attggaaaca ccaacttcaa acagaaattc ataatcctgt tgaaagaatg 60
tgtttaatta ataagagcca ctatttccat tttcacggaa ataaaaccct atcctttctt 120
c 121
<210>266
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>266
atcaccagga aataatatgt tcctaaatct acaagtttat ctttagaacc acaaataagc 60
tatcattact caagattccc atcacagtac tagaaaaata gagataaaaa atacctgagg 120
t 121
<210>267
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>267
tggtatcacc cctccacaca tgacaagaat atctggccgt ccaagggagt taagttcttt 60
gatgagttca ggaactaggg ttttatgacc agcagcgagg gtgcttatgc ccacagcatg 120
c 121
<210>268
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>268
tccgcatcca cagcctgctg ggccacttca cgaggagtct aaacagtcag aaagtaaaga 60
taaatcattg tttattacta gataatgact ataaaaaccc tggaagacaa tctaggcaat 120
a 121
<210>269
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>269
gctcaatgtc tgtcatcatt ttactacatt ttctaaatgt aagtgactag taaatacttt 60
tgaaattccc cccaacagtt tttagtacct ggaaaagagg gcctatgtcc acatcaaaac 120
c 121
<210>270
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>270
accaagatca gcaaatcctg tagcaataac ttttgctcct ctgtcatggc catcttgtcc 60
catttttgct acaagaagac gaggtctgcg accttcacgt tccatgaatt tatgaaccct 120
g 121
<210>271
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>271
ccatttttgc tacaagaaga cgaggtctgc gaccttcacg ttccatgaat ttatgaaccc 60
tgaaaaacat ttaaaaatat atcagtagtt agatactaat tttccaaagg gaagatataa 120
a 121
<210>272
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>272
aaattttctc agttgtatgt aaggaaatta agctcccagt agattcaagg ggattgtgct 60
aacagaaaag atgaaattct ggcctaagaa accttacata ttacctcttg atagcagatg 120
t 121
<210>273
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>273
atctctttac tttctccaaa ttcctggcga tatgctccac tcaccattcg atcattcgct 60
ttatgttcac caaatacctt tttcagggca tctgtgattt ctcccactgt acatctgaaa 120
c 121
<210>274
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>274
ttcaccaaat acctttttca gggcatctgt gatttctccc actgtacatc tgaaacatga 60
aatggtggtt ccattaactt cattattttg tgataaagat atctgtttac cataatattc 120
a 121
<210>275
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>275
tcttttgggc tcacatggtt tacaggatca accttttatt taagtatact ctgaaaagct 60
aaactggtca acttttagtc tttggaaacc tccaaactta tatatcttca ccttgcccga 120
g 121
<210>276
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>276
gatgcatcca ctgcaagagc caggatattt ccatctccgc tagcagcaca ttcggttagt 60
gcagcaagac aacgttcagc caaagcttga tccctgctgg atttgatcta tggaaaaagt 120
c 121
<210>277
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>277
gcaagacaac gttcagccaa agcttgatcc ctgctggatt tgatctatgg aaaaagtcaa 60
ggaaagggac aatttacatg aagagagaat aaaacagaga tcaagagatt agaccctgat 120
g 121
<210>278
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>278
acacctcatg ctgttgtaag gattaattta agcaggacag tttaaaagct tagccagagc 60
ccagaacaca gaaaatactt aaaaaaaaaa aaaaaagcaa gctattaata ccttcttaag 120
t 121
<210>279
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>279
atctgcctgt ttcgcactga agtattatca attgccagaa cttctacagc gtcttctttt 60
tccaactggt acttatttac tccaacaatt acttcagaac ctggtaattt cccaaagaaa 120
a 121
<210>280
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>280
ctttttccaa ctggtactta tttactccaa caattacttc agaacctggt aatttcccaa 60
agaaaaattt tattcacaaa taattaccta attgtaatgc tctggttatg atgtattttc 120
c 121
<210>281
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>281
aagttccatt tttcattatt tttgttttgt taactataca tgttatcttc aaacagaaat 60
gaatttcttt ttaactactg gatttcatat atgaactttc tcactatctt accagaatct 120
a 121
<210>282
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>282
tattctagct tgtcttcggg cagcacattc ttcaattcga agtttaggta ttccctcagc 60
tacagctttg gccattccac ccatttcttc aatttcatta atgagctaaa aagaaaaaca 120
t 121
<210>283
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>283
ctttggccat tccacccatt tcttcaattt cattaatgag ctaaaaagaa aaacattaac 60
aaaactaaaa gagaatatta aaaatgtgtg taaactatat aaatttgtta tgagtgttat 120
a 121
<210>284
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>284
ataaatttaa aatctataaa tcttgacttg taagttttaa aatctataaa tctttacaaa 60
tctgtaaatt ctgaaaacaa agttgcaaag tggaaaaact tacctttaaa gcagcatcat 120
a 121
<210>285
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>285
catttgtgag acattccatc atgtaagaac ctccccaagg atcagccact ttgggaatcc 60
cagattcttc ttgaatgatg atttgtgtgt tcctggcaat tcgagcactt ttcacagttg 120
g 121
<210>286
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>286
cacagttggc aaacccaaag cttcatcaaa agaatttgtg tgcaaagact gagtccctcc 60
aaatactgct gccattgctt ctattgcagt acggacaata ttattgtagg gatcctaaaa 120
t 121
<210>287
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>287
atactgctgc cattgcttct attgcagtac ggacaatatt attgtaggga tcctaaaata 60
tttgataaaa aacaaaaact caaagaaaca ggtgatagat attgcaacta taaacagcaa 120
c 121
<210>288
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>288
aaatattaac agatagcttc ttaattctat ttcctgcttg tgccacattg ctcagaaaaa 60
atatatatat ataactttat taaaattcta cattttaaat tatatacata cctgctcagt 120
a 121
<210>289
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>289
taagtgacca tccagatgtc tgacagtgtg ctcttagaag aagagatttt gagtttttag 60
gctgaaacat tttctctatt aagtgagccc agagtcttct accagctctc atctttgcta 120
t 121
<210>290
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>290
atatagaaat tcattccaat tccccagaag aaagacaacc taaaatagta acgttaggtc 60
cagaatttaa ttaaagttaa caatatagag cagaaaataa aactaattgt atcacacact 120
a 121
<210>291
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>291
tttataaatt cattttatca atatataaaa tggtcctatg catttcttaa tgttgaaaca 60
atatctaggt ttaatttact caccttggtg caaattcatc aattgtcagg ccagcctgga 120
g 121
<210>292
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>292
ctggagtcca gttctagagt actccaatcc atctgctaaa gtataggcca gctccagaat 60
ggcatcagcc cctgcttcct gcatatggta tccactaatt gaaattgaat taaattttgg 120
c 121
<210>293
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>293
atcagcccct gcttcctgca tatggtatcc actaattgaa attgaattaa attttggcat 60
gtgctacata aaaaaaaaaa ttgtaacagt gaataagtaa aaatattaaa aggtcctatt 120
a 121
<210>294
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>294
ttactcagac taaattttta aattcagtta tagcatgttg taaaaattcc tacattcaag 60
gaactataga aaaacctata ataaccacaa agtatacctt tgctgtatat tcaaatatgt 120
c 121
<210>295
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>295
gtcagcaata attttcatgg atggttctgg aggaaaaatg tatgtatttcgaaccataaa 60
ttcctttagt atatcatttt ggatggtacc agtaagcttc tctttaggta caccttgttc 120
t 121
<210>296
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>296
cttctccagt tactataaaa tttgcaagaa ctggaataac tgctccattc atagtcatgg 60
aaactgacat tttttctaaa ggaattccat caaaaagaat tttggtatct tccacagtgt 120
c 121
<210>297
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>297
tgtcaatagc aactccagcc attccaacat caccacgaac tcgagggttg tctgaatcat 60
agccacgatg tgtcgccaga tcaaaggcaa ctgataatcc ctgctgacca gctaaatata 120
t 121
<210>298
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>298
catagccacg atgtgtcgcc agatcaaagg caactgataa tccctgctga ccagctaaat 60
atataaagaa aaataatgta agattcaaga gtctggaatc aaggtaaaat gatttacttt 120
t 121
<210>299
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>299
tcatctttac agagattaac ccccaaaaaa taaaaaacta ggaggcatat gacttatcat 60
aaatattatg tcttacatta aaatctcacc cttaatgttg tccttataga acttattgct 120
t 121
<210>300
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>300
tgctttcttc cacagtacta aaaccagcat actggcggat ggtccagggc ctaaaggtat 60
acatggtagg atatggtcca cgtgtgaatg gcttcactcc tggaagttct tcaggtaagt 120
c 121
<210>301
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>301
agtatctctc ttggaataca agggttttat agagatccct tccggggtgt gccatattag 60
gtcttctggg tttttgcctt tcagctgctt tttagccagg gcagcccatt ctgggtgaag 120
g 121
<210>302
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>302
tgggtgaagg ggctgttgct ggtgtagaag tcgttgctgt atgagcctgg agcctgatga 60
ttcttttacc tgcctcaggt aatgaggtga aagtaaaaaa agctgattct tagctcttaa 120
c 121
<210>303
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>303
ttacctgcct caggtaatga ggtgaaagta aaaaaagctg attcttagct cttaacatgg 60
tggagcatgg aaacacccaa tagaaataag aactgaccta gaaaaagaaa catagagtaa 120
a 121
<210>304
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>304
gctcccaagg cggccctccg cgcaatgccg ctaccggaag tgcgggtcgc gcttccggcg 60
gcgtcccggg gccagggggg tgcgcctttc tccgcgtcgg ggcggcccgg agcgcggtgg 120
c 121
<210>305
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>305
gcgtcccggg gccagggggg tgcgcctttc tccgcgtcgg ggcggcccgg agcgcggtgg 60
cgcggcgcgg ggtaagtggc ggtccccacg gggcaagtgg cggtccccac ggggcagcgg 120
c 121
<210>306
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>306
cgcggtggcg cggcgcgggg taagtggcgg tccccacggg gcaagtggcg gtccccacgg 60
ggcagcggcc tagagaggcg gaccccgcag tgtccgggtc ccgggccctc acccgcgccc 120
a 121
<210>307
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>307
gggagggtaa gggctcctca gctccctccc tggactccca gttcagtcac cccttccccc 60
ggaagaattc aaagaggaag ggcagggtct atgtcatgga cactgctact tgttcgatga 120
a 121
<210>308
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>308
gccaggttta tgtcccgttc tgaaaggccg gcacactcat gggtgctcag cgtgatgtgg 60
acctgaaatg aaaccagaaa ttctgcttcc actgacttca cttaagaaca ggagggagtc 120
a 121
<210>309
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>309
aggctcattg ttaagtccaa aagccttcag aatgtgtcag agttcgcagt atttggatgg 60
gggcagagca caacagaggc acacagcatc actcaccttg ttgtacacgt taaaccattc 120
a 121
<210>310
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>310
caggatggtg gtccagtttc tcagcctgca gggccactct tgtcatgaac ccaaaggcct 60
atttaagtgg agtgagagcc aggttagtgt tctaagagaa aggacttctg gacatcacca 120
a 121
<210>311
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>311
gagtcttggc taacaagacg tgaagggaga gaacatgctt tgtaaggtga ccccatcagc 60
ccgtctcaga aaactctgtc ccaccctggt gccataccct gttgaagtct ttgaaatgaa 120
a 121
<210>312
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>312
aaactgcttg aagatggcat cacggccttc cagctcattc caccccacag ccctcaggtt 60
tggcagcagc tggtccctct cctcagcgct cagcctgtgt gctttgccag cctagaagag 120
g 121
<210>313
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>313
ttggcagcag ctggtccctc tcctcagcgc tcagcctgtg tgctttgcca gcctagaaga 60
gggaaaaaaa cagaggccca agggcatttc tctttatagg tcaaaacaga ggggctccaa 120
c 121
<210>314
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>314
ccgcagggga ctcgaaaaga ctttcccccg ccccttcccg ctcccacctc gcccgcggct 60
gccccggccc cgctgccccg atcgcggccg cgcacccctg gactcaccat ggcgcgggcg 120
g 121
<210>315
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>315
tggcacgcac tgcgcagccg cggtgggagg aggcaccggc cgcgcggcgg gaggaggtgc 60
cggccgagca ccgcagacag cgccgggaag atgagcacgg aaggtggtgg ccgtcgctgc 120
c 121
<210>316
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>316
caggcacaag tgtcccgccg catctccttc agcgcgagcc accgattgta caggtagggt 60
gtgcacacag gtacagcggc gggcggtggg cgccgggccc cggaacgtca ccggggcggg 120
g 121
<210>317
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>317
caaagatcag tacaaataat aaatataagg aacagagaag ggggtttgaa tgtgatactt 60
gtgtcatgct gacttttttt tttttttttg gtcagtaaat ttctaagtga tgaagaaaac 120
t 121
<210>318
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>318
gaaactgttt gggaaatgca acaatccaaa tggccatggg cacaattata aaggtgagag 60
aaaaactgat gacatttcag cccttcaata aggatgaaag agtattcagc aaatgtagac 120
a 121
<210>319
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>319
ttgccaactt gtgcttgtat gttgctaact tgtgcttgga tgttgatctg ttgaaagtca 60
tgctgttttt tttgtatttt gttttctttc catagttgtg gtgacagtac atggagaggt 120
a 121
<210>320
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>320
gttttttttg tattttgttt tctttccata gttgtggtga cagtacatgg agaggtatgt 60
gcagaaaata tttgtgtggt ttttgcagat tgctgggctc tctttcagcc agtgtggtgg 120
a 121
<210>321
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>321
tgtgcaaatg tgggcacagt ctctgcacat tgtactgcct ttaataattt gccagccgtt 60
taatatggag agcctatcac agtaatattc acctttgttt attctttaga ttgaccctgc 120
t 121
<210>322
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>322
cgggaatggt tatgaatctg gctgatctca aaaaatatat ggaggtaatg gcatgttggg 60
tgcttattat gtgctattcc ctaactgtaa tatttggtgg ccccctatct acctccccaa 120
c 121
<210>323
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>323
gtggctaagt gataaggtga ggtttagagg cataagtgga acaatttgga atttgagtcg 60
taaatggagt caatgatatt ttcccttggt tttgtctcta ggaggcgatt atgcagcccc 120
t 121
<210>324
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>324
ccttgatcat aagaatctgg atatggatgt gccatacttt gcagatgtgg tgaggtgggt 60
ggcactgtat cttgccttat gtggattgta aaacaagaat tgatttgaat actttgattg 120
t 121
<210>325
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>325
aaatctttcg aaactagaat ttctattttc tgtaaatatt aaacatgaaa ttttattgtt 60
tgcattttga attttttttg tttttgtttt tttttcttat agcacgactg aaaatgtagc 120
t 121
<210>326
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>326
tgtttatatc tgggacaacc tccagaaagt tcttcctgta ggagttcttt ataaagtaaa 60
agtatacgaa actgacaata atattgtggt ttataaagga gaatagctat tggggttagc 120
a 121
<210>327
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>327
atcgttggta cgatacgctt tggttaaaac gttggacaca gctcataatg tcttccaccg 60
tcagttcatt ctgtgctcgt tcaggtgcgt ggaagctatg gttctgcaga cctgaaaatg 120
a 121
<210>328
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>328
ccaccgtcag ttcattctgt gctcgttcag gtgcgtggaa gctatggttc tgcagacctg 60
aaaatgatgg gcactctcaa atgtttctgg aaatacttag aaaaatatct tataagatta 120
a 121
<210>329
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>329
gtactatttg aaaaaaatac actaattctt ctcccttccc aggcccctct ggttatctgg 60
cagtggtttt gtgcacgtac ttacactatt agcagttcac tttaatattg ccacaaaaag 120
g 121
<210>330
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>330
tggcaagaag aaagtagagg gctcaaccct ttattatatt tatttgactt cctagaaata 60
attttaaata taattagtga caaggaataa agttcacatc tgtaacaatt gaaaatggaa 120
t 121
<210>331
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>331
acatctgtaa caattgaaaa tggaatgtac aaacaagacc ggacagacag acaatgctac 60
tggcagtacg atcggcaacc aacgcacaca cactgaatga agctcagctc ctaatgagag 120
t 121
<210>332
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>332
aggaactctt cccgagtctt tggatcctcc cggaacacac ccaacattgt gctggtcaca 60
gttttgctgt tcattttctg tacacctcgc attaccatac acatgtgtct acaaaataag 120
g 121
<210>333
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>333
tttgctgttc attttctgta cacctcgcat taccatacac atgtgtctac aaaataaggc 60
aacacaggtt gtttaaagga gtagacagct gctggtttgg tttttaaaag caggcctaaa 120
g 121
<210>334
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>334
acctggtgct acaaaatatg agaagcacta aatagcaaga tcacttctag tgcaccatta 60
tgacgttact aaaggcagat gcagacttac gttgcttcaa ccactacccc gactccagca 120
g 121
<210>335
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>335
ccagcaggcc gcaaggcttc cgtgattgct acagcaattt gttttgtaag gcgctcctga 60
actgtggatg tgataaggag ctcagtttga gagtctgaca caaacagctg gaagcttttt 120
c 121
<210>336
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>336
cagagcaaga ctctgtctca aaaataaaaa tttaaaaaaa gaaaaaaaag aaaaatgttt 60
tctgttaata cagattttta aagcttacct tgtagtcttc tactatagat ttctacaatc 120
c 121
<210>337
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>337
tgttaataca gatttttaaa gcttaccttg tagtcttcta ctatagattt ctacaatcct 60
agaaaagaaa gaattgtttt agttaatcac aaatcatttg aagtaaaatt gataagcctt 120
c 121
<210>338
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>338
gatccataca ggtaaagaga gaaagcctga tgagatagat tctcagcaga tgagggcagg 60
tcctataaac ctgtattctt gttcactgca cagtcacact tacctcgcaa gtttgctgag 120
g 121
<210>339
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>339
gctgaggcca aggacttgct tgttaggaag ataaccaata tggaccttcagagaagagac 60
ggaaatcatt agctgagtga aaatacagtg ccttctttgt gacaaaataa ggaaatatag 120
a 121
<210>340
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>340
acctgagata tcagcaattg gcagctaaaa attttaaata taattattct aattgaaaaa 60
ctttcactat gttttaaatt gctgggaaac aacaaagaga accttacctt tccaacaaat 120
g 121
<210>341
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>341
caacaaatgg aaccaagtga tgctcacaca tggaaaacat gtctatgtcc ttcacaatca 60
ccatctcatc atgatcttca tcaaatatag catcgtttag gacatctgaa atcagaggct 120
t 121
<210>342
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>342
catcatgatc ttcatcaaat atagcatcgt ttaggacatc tgaaatcaga ggcttgcttt 60
agtaacatgt ccaattttat agaaaggtag aattatggat aaacatgaat agacagtcaa 120
c 121
<210>343
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>343
gcccggcttc ctgcgccaaa agtgaggcaa ctccggaaac ttcctggagc cggcgcgcgt 60
ttcctgcaag caccgccccc gccgcccgca cgctctagca gcccgcgggc gcactgacct 120
g 121
<210>344
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>344
gagatggtct cctggtagcc cttggtgaag aactgcatgg ccgaggccgc cctccagggc 60
gtcttgagca gcccttgccg ctgggggttc tcgcccagcg agctcaggat ggacgagtag 120
g 121
<210>345
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>345
ctgccaggtt agggaggttc agctcgttat cctcctcgct gcggggccgc tcgcccttcc 60
agccgtccgc gggctgcgcg ctcttggcct cgggccgcgg gggcttctcc gccggcctgc 120
t 121
<210>346
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>346
ggcccgggcc gcggcggatc ccgctcgggg aacccattgc tgcacctggc gccccgcggc 60
ttctccgccg gtgcccgcac agggcccttc tccatggacc cgccgcagcc gctgccgttc 120
g 121
<210>347
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>347
cttctccgcc ggtgcccgca cagggccctt ctccatggac ccgccgcagc cgctgccgtt 60
cgggaaggac cccggggcgc ttcgaggtct gcggctaaac tccgccggtg gccgcggaca 120
a 121
<210>348
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>348
ctcattatct cgtaccacaa acaggggtta cagaaaacac aaggctggac aaggccacac 60
tgagacaggt tagtgacttt tctggcaggc ccctcatagg cactgagatg aggcctaaaa 120
a 121
<210>349
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>349
atgctggggt gagttccgtc cttccttctg tggttaccac ctggattagg cttcctgagc 60
tcggtcggtt tttccctgtg atccagtcat ggaaagttct ggaacagaaa ataaaagttt 120
t 121
<210>350
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>350
tcggtttttc cctgtgatcc agtcatggaa agttctggaa cagaaaataa aagttttttt 60
tatattctca aagcaaaaat ctgggcacat gctgaccttc acagtgacgg cttgtggggt 120
g 121
<210>351
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>351
tgacgatctc agggaacaca gacttgtcct ctggaccaca gcaggcagag aataggggct 60
ggaagctgct cagtcatgga catgtctgta atactcactc aactaggaat tctaagggtg 120
t 121
<210>352
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>352
tgaagtcagc ctcaggcatt gatttcctgt tcatcggggt atccagggta accctgcaat 60
ggacacagat aagcacgtca ttcatgtcgc tcctttctaa caacaggtgc ccagtccccc 120
t 121
<210>353
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>353
cagaggtgag agcacaccca ggtcgcctgt ggaaagctac agtcagacaa acggtcacct 60
gcagcagtgg ggcagaggtg ggcagcagcc agggaacccc aagcacttac gggagcacag 120
c 121
<210>354
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>354
cacagcgatg gcggctgccc cgggcggcat gccgctgttc ttcccagcca ggctctggca 60
gagctggtga acagcaccct tggccatgcc gtacccgatc atacctggga aatggggaga 120
a 121
<210>355
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>355
ctggtgaaca gcacccttgg ccatgccgta cccgatcata cctgggaaat ggggagaaga 60
tggctcagtg accactggcg gccaggggga cagcaaggac atgcaatctt ctcttgagat 120
c 121
<210>356
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>356
gtaaaggctt taacagtcct catcccatga aagtgcccag cagccccagc aagcaaggta 60
agcaacccca ctccacagat agggaaataa aggcttacca ggagtcccat ccagggcagc 120
c 121
<210>357
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>357
ctttgcgcca gccaaggtca ggaggcctcc ttccttgaga tgcttggtag ccagatggct 60
ggagatggtc gatgtccata tgctctgctt ccacatcagg tcacagttct taaagagagc 120
t 121
<210>358
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>358
ggtcgatgtc catatgctct gcttccacat caggtcacag ttcttaaaga gagctgagtg 60
aaaaaaacat gtgggctcag cattcccagg aaagaaacca aaaggtgagc tcaactcatg 120
c 121
<210>359
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>359
ggcctgtcac ctagtgcaaa cccaatcctt gtcagctgga aaaagagcag agcagaacaa 60
atgagtgact caggaaagga ctcacacttg gatttggcat tgcccccggc ccatcctcca 120
g 121
<210>360
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>360
tcctccagca acgcaaagaa ttgcatccac cttctcttca cccaagagct ttccaacctc 60
agcagtcacc ttcaacacaa gaacaaaaaa atgtataaac tgtaaggtaa gccaacacag 120
g 121
<210>361
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>361
gaagaacata cagccaaagg aagaacatac agccagtggt cacctctccc cagggttccc 60
ctcacaatgt ttgggggcct ttttgaaact acctggtcag cctgctcagt gaacgagtct 120
g 121
<210>362
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>362
ctgtcatttt aacaatgatg ctagcgctgg cctcttcatt ctccaccaca tcaacgctgg 60
caacccactg gaaggagaaa acagctttgg ttaagaggca gtgagttgtt attccatgaa 120
a 121
<210>363
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>363
ggggtgcaca ggggccccca ccttcctcta gactgccccc cgccgggttc cacacgaaag 60
cccccggcca cccccgcgga gacccagcag ccccagcccg cagcattacc cagttgcggg 120
c 121
<210>364
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>364
gggcccgaaa agcctgcacg catcgagaac ccagagcgcc cctgccgccg tacaccagca 60
cccggcgcgc ctcgcctgca gccgccgccg ccgccatcct gctcctgcca gcccggctcc 120
c 121
<210>365
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>365
cagcacccgg cgcgcctcgc ctgcagccgc cgccgccgcc atcctgctcc tgccagcccg 60
gctcccgcag ctccgaatgc ctcgagccgg agcgccgcgc cccgccccgg ccggccaacc 120
c 121
<210>366
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>366
cgcctgccct ggcgacactt tcgaaggact ggagtgggaa tcagagcttc acgggttaaa 60
aagccgatgt cacatcggcc gttcgaaact cctcctcttg cagtgaggtg aagacatttg 120
a 121
<210>367
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>367
taaaaagccg atgtcacatc ggccgttcga aactcctcct cttgcagtga ggtgaagaca 60
tttgaaaatc accccactgc aaactcctcc ccctgctaga aacctcacat tgaaatgctg 120
t 121
<210>368
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>368
aaatcacccc actgcaaact cctccccctg ctagaaacct cacattgaaa tgctgtaaat 60
gacgtgggcc ccgagtgcaa tcgcgggaag ccagggtttc cagctaggac acagcaggtc 120
g 121
<210>369
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>369
gacgtgggcc ccgagtgcaa tcgcgggaag ccagggtttc cagctaggac acagcaggtc 60
gtgatccggg tcgggacact gcctggcaga ggctgcgagc atggggccct ggggctggaa 120
a 121
<210>370
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>370
tgatccgggt cgggacactg cctggcagag gctgcgagca tggggccctg gggctggaaa 60
ttgcgctgga ccgtcgcctt gctcctcgcc gcggcgggga ctgcaggtaa ggcttgctcc 120
a 121
<210>371
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>371
gaaattgcgc tggaccgtcg ccttgctcct cgccgcggcg gggactgcag gtaaggcttg 60
ctccaggcgc cagaataggt tgagagggag cccccggggg gcccttggga atttattttt 120
t 121
<210>372
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>372
gggatgacac tggtgggaag gaaatgccat cttcaagtgg cttgtggaga acacatatag 60
actattgttt gaggctaatt agaaaaacga gcttgtttgt tgcttttcat tcagtccctg 120
c 121
<210>373
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>373
ttaattcctt tgccattaat ttcttactca tagtaatagt atctctgtga ctgactaaat 60
cccagttgtt tcgatatatc actagaatgg ccacataaac ctgggtcctt attaatatac 120
g 121
<210>374
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>374
tatacgttgc ataatacctt ggatgatctt taccaaacgc acttgcttta cagatatcag 60
atctttcctt gaaaacaaca ggattggaat tgtaactaac acttccgtgc tgagagtgtc 120
t 121
<210>375
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>375
cccggattca ccataatcat aatctgcact accatagctg ccatgtctcc aaactaaacc 60
tgattgacct ttttgccttt cagtgccctc agattgataa tgataagaac tagaactgtg 120
a 121
<210>376
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>376
gtgaggactg ccacgtgact gtattcctga gtgatacgca gaatcttgtg aaagactact 60
aaagtgacca tgttccttag cggtactaga gtctgactgt acaggtgaag actgtacatg 120
a 121
<210>377
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>377
ctggctgtat cgcggtgaga ggatccgggg tgtctggagc catctcttga ctgctcccga 60
gaagatccat gatggtttct ggaagcagac tcagatcgcc tctcagagtc ctctgggtat 120
g 121
<210>378
<211>121
<212>DNA
<213>Artificial Sequence
<220>
<223> Artificial sequence
<400>378
ctgggtatgc ctcactgtca ctgtcctggc taacactgga tccctggcgc ctgcttctcc 60
tggaccccgc tgattcaccc tggccggact gtgagtgtct agagctgtca gcctgagtgg 120
a 121

Claims (10)

1. A probe set which recognizes the causative genes of: thalassemia, phenylketonuria, hepatolenticular degeneration, tuberous sclerosis, tetrahydrobiopterin deficiency, hereditary deafness, gaucher's disease, amyotrophic lateral sclerosis, methylmalonic acidemia, Usher syndrome, albinism, pulmonary cystic fibrosis, citrullinemia type I, X-linked congenital adrenal insufficiency, Fabry's disease, ichthyosis, familial hypercholesterolemia, hemophilia, osteogenesis imperfectasis and familial hemophilocytic lymphocytosis.
2. The probe set of claim 1, wherein the probe recognizes a protein coding region or a splice site region of a causative gene of the disease.
3. The probe combination of claim 1, wherein the pathogenic gene is one or more of the following genes:
ASS1, ATP7B, GBA, GCH1, G L a, HBB, KRT1, KRT10, F L G, STS, MUT, MMAA, MMAB, MMACHC, NR0B1, PAH, PCBD1, PRF1, PTS, QDPR, SOD1, STX11, UNC13D, TSC1, TSC2, USH1G, F8, F9, TYR, S L C45A2, OCA2, CFTR, USH2A, CDH23, PCDH15, USH1C, USH1G, MYO7A, CO L1 a1, CO L1 a2 or VAPB.
4. The probe combination of claim 1, wherein the probe combination comprises a mixture of probes having sequences shown as SEQ ID NO1-SEQ ID NO 378.
5. A gene detection kit comprising the probe set according to any one of claims 1 to 4.
6. The gene assaying kit according to claim 5, further comprising a negative control and a positive control for a pathogenic gene.
7. Use of the probe combination according to claim 1 for the preparation of a diagnostic reagent for a disease according to claim 1.
8. The use of claim 7, wherein the combination of probes is used to identify or bind to the disease-causing gene of claim 1.
9. The use of claim 7, wherein the combination of probes is used for screening or detecting human-related monogenic disorders.
10. The use according to claim 7, wherein the combination of probes is used to detect the genotype of the protein coding region or splice site region according to claim 2;
the detection comprises the following steps:
(1) obtaining separated and purified genome DNA;
(2) adding a probe combination according to claim 1;
(3) analyzing and determining the variation of the target gene in the sample.
CN202010378678.9A 2020-05-07 2020-05-07 Probe combination for gene screening and application thereof Pending CN111455041A (en)

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