RU2738752C1 - Method of identifying person and establishing affinity using indel polymorphisms and set of synthetic oligonucleotides for genotyping thereof - Google Patents

Method of identifying person and establishing affinity using indel polymorphisms and set of synthetic oligonucleotides for genotyping thereof Download PDF

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RU2738752C1
RU2738752C1 RU2020105692A RU2020105692A RU2738752C1 RU 2738752 C1 RU2738752 C1 RU 2738752C1 RU 2020105692 A RU2020105692 A RU 2020105692A RU 2020105692 A RU2020105692 A RU 2020105692A RU 2738752 C1 RU2738752 C1 RU 2738752C1
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Иван Дмитриевич Ивановский
Денис Олегович Фесенко
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Денис Олегович Фесенко
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Abstract

FIELD: biotechnology.
SUBSTANCE: invention relates to biotechnology and concerns a set of short biallelic insertion-deletion (InDel) polymorphisms in a human genome, as well as a method of genotyping for identification of an individual and identification of blood relationship. Kit for genotyping contains a composition formed by pairs of primers for 162 InDel loci, which enables to perform multiplex PCR. Also, the composition for genotyping contains allele-specific oligonucleotide probes for hybridization analysis. Primers are selected so that PCR-product has minimum length, which enables to successfully analyze degraded DNA samples.
EFFECT: invention allows identifying an individual and establishing kinship with significantly higher reliability in comparison with analogues.
8 cl, 3 dwg, 2 tbl, 1 ex

Description

Область техники, к которой относится изобретениеThe technical field to which the invention relates

Изобретение относится к области молекулярной генетики, биотехнологии, молекулярной биологии, судебной медицины и криминалистики, относится к набору синтетических олигонуклеотидных праймеров для проведения полимеразной цепной реакции (ПЦР), а также синтетических олигонуклеотидных ДНК-зондов для последующей гибридизации. Изобретение может быть использовано для идентификации личности и определения кровного родства путем генотипирования 162 инсерционно-делеционных (InDel) полиморфизмов в образцах ДНК человека.The invention relates to the field of molecular genetics, biotechnology, molecular biology, forensic medicine and forensic science, relates to a set of synthetic oligonucleotide primers for polymerase chain reaction (PCR), as well as synthetic oligonucleotide DNA probes for subsequent hybridization. The invention can be used to identify a person and determine consanguinity by genotyping 162 insertion-deletion (InDel) polymorphisms in human DNA samples.

Уровень техникиState of the art

Актуальной проблемой криминалистики и судебно-медицинской экспертизы является идентификация личности (преступника, жертв преступлений, катастроф, обнаруженных останков, и т.д.). Учитывая достижения пластической хирургии, визуальная идентификация уже не является полностью надежной. Наиболее достоверным способом идентификации личности в современной судебно-медицинской практике является сравнительный анализ ДНК исследуемых биологических образцов. Полное сравнение генетического материала является избыточным, поэтому для исследования используются отдельные полиморфные локусы ДНК, отличающиеся у разных людей в популяции. Подавляющее большинство существующих в настоящее время способов генетической идентификации личности используют индивидуальные различия людей по трем типам маркеров:The actual problem of forensic science and forensic medical examination is the identification of the person (criminal, victims of crimes, catastrophes, discovered remains, etc.). Given the advances in plastic surgery, visual identification is no longer completely reliable. The most reliable way to identify a person in modern forensic practice is a comparative analysis of the DNA of the studied biological samples. A complete comparison of the genetic material is redundant, therefore, separate polymorphic DNA loci that differ in different people in the population are used for research. The overwhelming majority of currently existing methods of genetic identification of a person use individual differences in people for three types of markers:

Figure 00000001
STR (англ. short tandem repeat, короткий тандемный повтор), представляющим собой участки ДНК, содержащие небольшие мотивы, повторяющиеся различное число раз (например TAAG-TAAG-TAAG-…);
Figure 00000001
STR (English short tandem repeat, short tandem repeat), which are DNA regions containing small motifs repeated at different times (for example, TAAG-TAAG-TAAG-…);

Figure 00000001
SNP (англ. single nucleotide polymorphism, однонуклеотидный полиморфизм), представляющим собой вариации одного нуклеотида;
Figure 00000001
SNP (English single nucleotide polymorphism, single nucleotide polymorphism), which are variations of one nucleotide;

Figure 00000001
InDel (сокр. от англ. Insertion/Deletion, инсерционно-делеционный полиморфизм) - биаллельный маркер, представляющий собой наличие (инсерция), либо отсутствие (делеция) одного или более нуклеотидов.
Figure 00000001
InDel (abbreviated from the English Insertion / Deletion, insertion-deletion polymorphism) is a biallelic marker, which is the presence (insertion) or absence (deletion) of one or more nucleotides.

Наиболее старый и широко применяемый метод генетической идентификации использует индивидуальные различия людей в длине STR-локусов. Число повторов в одном локусе представляет собой определенный аллель, вариантов которого в популяции несколько. К примеру, каждый из 15 локусов, входящих в коммерческий набор PowerPlex® 16 (Promega Corporation, USA), имеет от 8 до 20 аллелей в российской популяции [1]. И, хотя, отдельный аллель не является строго индивидуальной характеристикой, сочетание 15 аллелей таких полиморфных локусов создает генетический профиль, являющийся высокоспецифичной характеристикой человека. Мерой уникальности генетического профиля принято считать показатель MP (англ. match probability - вероятность случайного совпадения): чем меньше его значение, тем выше идентифицирующий потенциал. МР современных коммерческих наборов для идентификации по STR-локусам составляет от 1⋅10-14 до 1⋅10-17.The oldest and most widely used method of genetic identification uses individual differences in people in the length of STR loci. The number of repeats at one locus is a specific allele, the variants of which are several in the population. For example, each of the 15 loci included in the commercial PowerPlex® 16 kit (Promega Corporation, USA) has from 8 to 20 alleles in the Russian population [1]. And although a single allele is not strictly an individual characteristic, the combination of 15 alleles of such polymorphic loci creates a genetic profile that is a highly specific characteristic of a person. The measure of the uniqueness of the genetic profile is considered to be the MP indicator (match probability - the probability of a random coincidence): the lower its value, the higher the identifying potential. The MR of modern commercial kits for identification by STR loci ranges from 1⋅10 -14 to 1⋅10 -17 .

Метод генетической идентификации по STR-локусам хорошо себя зарекомендовал, однако, есть несколько проблем, снижающих его ценность, и решение которых является актуальной задачей. Во-первых, известные нам наборы для идентификации по STR-локусам обеспечивают недостаточное значение МР при установлении кровного родства и исследовании сложных образцов (деградированная ДНК, малые количества ДНК) [2,3].The method of genetic identification by STR loci has proven itself well, however, there are several problems that reduce its value, and the solution of which is an urgent task. First, the kits known to us for identification by STR loci provide an insufficient MR value in establishing consanguinity and studying complex samples (degraded DNA, small amounts of DNA) [2,3].

Второй недостаток связан с большой длиной локусов, подвергающихся генотипированию. В судебной экспертной практике ДНК большинства исследуемых биологических объектов фрагментирована, вследствие воздействия биологических и физических факторов среды. Особенно это актуально при исследовании останков, долгое время находившихся в земле. Вероятность успешного анализа такой деградированной ДНК зависит от длины исследуемых локусов, входящих в конкретный набор для идентификации: чем сильнее фрагментирована ДНК, тем короче должны быть таргетные локусы, использующиеся для идентификации. К примеру, длины STR-локусов российского набора для генотипирования COrDIS, находятся в диапазоне от 66 нуклеотидов (локус TPOX) до 450 нуклеотидов (локус D22S1045). И, если, 66 нуклеотидов - это вполне достаточный размер для анализа деградированных образцов, то вероятность успешного исследования локуса, размером в 450 нуклеотидов, резко снижается, что приведет к выпадению аллели, либо всего локуса. Понимание этой проблемы стимулировало разработку наборов, основанных на мини-STR или микросаттелитах, с размерами целевых локусов 70-280 нуклеотидов [4]. Однако, фундаментальным решением этой проблемы является переход к самому короткому типу маркеров - к однонуклеотидным (SNP) и коротким инсерционно-делеционным (InDel) полиморфизмам.The second disadvantage is associated with the long length of the genotyping loci. In forensic expert practice, the DNA of most of the studied biological objects is fragmented due to the influence of biological and physical environmental factors. This is especially true when examining remains that have been in the ground for a long time. The likelihood of successful analysis of such degraded DNA depends on the length of the studied loci included in a particular identification kit: the more fragmented the DNA, the shorter the target loci used for identification should be. For example, the lengths of the STR-loci of the Russian COrDIS genotyping kit range from 66 nucleotides (TPOX locus) to 450 nucleotides (D22S1045 locus). And, if 66 nucleotides is quite a sufficient size for the analysis of degraded samples, then the probability of a successful study of a locus of 450 nucleotides in size sharply decreases, which will lead to the loss of an allele or the entire locus. Understanding of this problem stimulated the development of kits based on mini-STRs or microsatellites with target loci sizes of 70-280 nucleotides [4]. However, a fundamental solution to this problem is the transition to the shortest type of markers - single nucleotide (SNP) and short insertion-deletion (InDel) polymorphisms.

Третья проблема, связана с самой методикой электрофоретической регистрации результатов STR-анализа. При превышении определенной концентрации исследуемой ДНК, возникает т.н. перегруженность: расширяется детектируемый пик длины продукта и становится невозможно точно определить аллель. Ограничение по максимальному количеству исследуемой ДНК требует предварительного измерения и нормализации ее концентрации, что дополнительно усложняет эту рутинную методику, призванную быть максимально простой. Также, ограничением методики является высокая частота мутирования STR-маркеров (10-3 - 10-4 на поколение[5]), что может приводить к неверной интерпретации экспертиз кровного родства.The third problem is associated with the very technique of electrophoretic recording of STR analysis results. When a certain concentration of the analyzed DNA is exceeded, the so-called. congestion: the detectable peak in product length expands and it becomes impossible to pinpoint the allele. Limiting the maximum amount of DNA to be investigated requires preliminary measurement and normalization of its concentration, which further complicates this routine technique designed to be as simple as possible. Also, a limitation of the technique is the high frequency of STR-markers mutation (10 -3 - 10 -4 per generation [5]), which can lead to misinterpretation of consanguineous examinations.

Как уже было выше сказано, применение коротких маркеров существенно повышает шансы при экспертизах деградированной ДНК. Кроме того, частота мутирования SNP-маркеров в 10 000 - 1 000 000 раз ниже, чем у STR-маркеров [6], что нивелирует риск ошибок при интерпретации экспертиз родства. И финальным аргументом в пользу применения SNP- и InDel-маркеров для генетической идентификации личности, является большое разнообразие методов их генотипирования с помощью гибридизации. Эти методы проще в применении, более производительны, не требуют нормализации концентрации ДНК, что существенно сокращает время и затраты на проведение экспертиз.As mentioned above, the use of short markers significantly increases the chances of examining degraded DNA. In addition, the mutation frequency of SNP markers is 10,000 to 1,000,000 times lower than that of STR markers [6], which eliminates the risk of errors in the interpretation of kinship examinations. And the final argument in favor of the use of SNP and InDel markers for genetic identification of a person is a wide variety of methods for their genotyping using hybridization. These methods are easier to use, more productive, do not require normalization of DNA concentration, which significantly reduces the time and cost of conducting examinations.

Следует также отметить ограничения, которые препятствовали внедрению SNP- и InDel-маркеров в судебно-медицинскую экспертизу. Во-первых, аллели SNP-маркеров представляют собой вариации всего одного нуклеотида. Детектирование гибридизационным методом такого малого различия требует очень точного подбора длины и структуры аллель-специфичных зондов, и это составляет проблему. Для InDel-маркеров такой проблемы не существует, они отлично генотипируются гибридизационными методами, т.к. менее требовательны к точности подбора аллель-специфичных зондов. При этом они сохраняют все достоинства (частоте мутирования, размерам), присущие SNP. Второй недостаток, в сравнении с мультиаллельными STR, - это биаллельная природа, как SNP-, так и InDel-маркеров. Это означает, что для получения столь же уникального генетического профиля, биаллельных маркеров потребуется в 3 раза больше. И здесь возникает новая проблема: увеличение количества маркеров требует соответствующего роста мультиплексности ПЦР. Известно, что увеличение мультиплексности ПЦР повышает конкуренцию между праймерами, что приводит к нестабильности результатов. Нам удалось решить проблему подбора праймеров для ПЦР с очень высокой мультиплексностью. Решение этой проблемы лежит в области точного подбора ПЦР-праймеров для одновременной амплификации нескольких сотен локусов и определяет высокий уровень техники настоящего изобретения.It should also be noted the limitations that hindered the introduction of SNP and InDel markers in forensic science. First, alleles of SNP markers are variations of only one nucleotide. Detection of such a small difference by the hybridization method requires very precise selection of the length and structure of allele-specific probes, and this is a problem. This problem does not exist for InDel markers, they are perfectly genotyped by hybridization methods, since less demanding on the accuracy of the selection of allele-specific probes. At the same time, they retain all the advantages (mutation frequency, size) inherent in SNPs. The second disadvantage, in comparison with multi-allelic STRs, is the biallelic nature of both SNP and InDel markers. This means that 3 times more biallelic markers are required to obtain an equally unique genetic profile. And here a new problem arises: an increase in the number of markers requires a corresponding increase in the PCR multiplex. It is known that an increase in PCR multiplexity increases competition between primers, which leads to instability of results. We managed to solve the problem of selecting primers for PCR with a very high multiplex. The solution to this problem lies in the field of accurate selection of PCR primers for the simultaneous amplification of several hundred loci and defines the state of the art of the present invention.

Настоящее изобретение основано на применении InDel-маркеров, и далее приведен ряд известных решений, использующих InDel-маркеры для идентификации личности.The present invention is based on the use of InDel markers, and the following are a number of known solutions using InDel markers for personal identification.

1. Набор для генотипирования InDel- полиморфизмов на человеческих эухромосомах и Y-хромосоме [7]. Изобретение раскрывает набор для амплификации 47 InDel локусов в аутосомах человека и 2 локусов Y-хромосомы для идентификации половой принадлежности. Набор, раскрываемый в данном изобретении, по заявлению самих авторов, подходит для проведения идентификации среди китайцев. Т.е. маркеры подобраны исходя из частот аллелей в китайской популяции. Протяженность амплифицируемых фрагментов составляет до 200 нуклеотидов, что будет препятствовать успешному анализу деградированной ДНК: учитывая малый размер самих маркеров (от одного до нескольких нуклеотидов), авторы могли бы подобрать праймеры для амплификации более коротких фрагментов, в среднем менее 100 нуклеотидов, если бы использовали для детекции результатов электрофоретическую подвижность, а гибридизационный метод. В связи с трудностью достижения высокой мультиплексности ПЦР, амплификация 49 локусов одного исследуемого образца ДНК происходит в пяти полимеразных цепных реакциях.1. A kit for genotyping InDel polymorphisms on human euchromosomes and Y chromosome [7]. The invention discloses a kit for amplification of 47 InDel loci in human autosomes and 2 loci of the Y chromosome for gender identification. The kit disclosed in this invention, according to the authors themselves, is suitable for identification among the Chinese. Those. markers were selected based on allele frequencies in the Chinese population. The length of the amplified fragments is up to 200 nucleotides, which will hinder the successful analysis of degraded DNA: given the small size of the markers themselves (from one to several nucleotides), the authors could select primers for amplification of shorter fragments, on average, less than 100 nucleotides, if they were used for detection results from electrophoretic mobility, and hybridization method. Due to the difficulty in achieving high multiplex PCR, the amplification of 49 loci of one test DNA sample occurs in five polymerase chain reactions.

Таким образом, к недостаткам данного изобретения следует отнести этническую специфичность панели маркеров, большую длину амплифицируемых фрагментов, необходимость постановки пяти мультиплексных ПЦР (что увеличивает не только стоимость и трудоемкость анализа, но и порой делает экспертизу невозможной, вследствие малого количества ДНК, обнаруживаемого на месте преступления), необходимость измерения и нормализации концентрации исследуемой ДНК.Thus, the disadvantages of this invention include the ethnic specificity of the panel of markers, the large length of the amplified fragments, the need to set up five multiplex PCR (which increases not only the cost and complexity of the analysis, but also sometimes makes the examination impossible, due to the small amount of DNA found at the crime scene ), the need to measure and normalize the concentration of the studied DNA.

2. Автоматическое генотипирование высокоинформативной панели из 40 инсерционно-делеционных полиморфизмов [8].2. Automatic genotyping of a highly informative panel of 40 insertion-deletion polymorphisms [8].

В данной работе авторы предлагают панель для анализа 40 InDel маркеров. Локусы маркеров амплифицируются в четырех мультиплексных ПЦР и имеют длину 78-326 нуклеотидов (средняя длина 154,2 нуклеотида). Панель разрабатывалась для европейской популяции, и имеет величину МР 7.09⋅10-17 для европейцев. Для африканской популяции величина МР уже 1.2⋅10-12, что уже ниже принимаемой судом в качестве доказательной.In this paper, the authors propose a panel for the analysis of 40 InDel markers. The marker loci are amplified in four multiplex PCRs and are 78-326 nucleotides in length (average 154.2 nucleotides in length). The panel was developed for the European population, and has an MP of 7.09⋅10 -17 for Europeans. For the African population, the MR value is already 1.2⋅10 -12 , which is already lower than that accepted by the court as evidence.

Как и в предыдущем изобретении, к недостаткам следует отнести этническую специфичность панели маркеров, большую протяженность амплифицируемых фрагментов, необходимость постановки четырех ПЦР для одного образца.As in the previous invention, the disadvantages include the ethnic specificity of the panel of markers, the large length of the amplified fragments, the need for four PCRs for one sample.

3. Известен также набор реагентов «Qiagen Investigator DIPplex reagent», выпускаемый компанией Qiagen (Hilden, Germany), набор не запатентован. «Qiagen Investigator DIPplex reagent» рассчитан на исследование 30 InDel маркеров. Локусы маркеров амплифицируются в одной мультиплексной ПЦР и имеют длину до 160 нуклеотидов. МР составляет от 5⋅10-11 для азиатской популяции, до 2⋅10-13 для европейской [9]. Несмотря на то, что характеристики длины амплифицируемых локусов и мультиплексность ПЦР в коммерческом наборе «Qiagen Investigator DIPplex reagent» превосходят аналогичные качества предыдущих двух изобретений, существенным его недостатком является малое количество анализируемых маркеров. Этим обусловлено недостаточное значение МР в целом, и для азиатской популяции, в особенности.3. A kit of reagents "Qiagen Investigator DIPplex reagent" is also known, manufactured by Qiagen (Hilden, Germany), the kit is not patented. "Qiagen Investigator DIPplex reagent" is designed for the study of 30 InDel markers. Marker loci are amplified in one multiplex PCR and are up to 160 nucleotides in length. MR ranges from 5⋅10 -11 for the Asian population, up to 2⋅10 -13 for the European [9]. Despite the fact that the characteristics of the length of the amplified loci and the multiplexity of PCR in the commercial kit "Qiagen Investigator DIPplex reagent" are superior to those of the previous two inventions, its significant drawback is the small number of analyzed markers. This is due to the insufficient value of MR in general, and for the Asian population, in particular.

Как видно из описания, все три вышеприведенных аналога схожи между собой по используемому подходу, отличаясь лишь набором маркеров, длинами локусов и мультиплексностью ПЦР. Наиболее близким к заявляемому техническому решению по технической сущности и достигаемому техническому результату является набор DIPplex. Описанный способ принят за прототип изобретения. Основной недостаток прототипа - недостаточное количество маркеров. Особенностью судебно-генетической экспертизы является низкое качество биологических образцов, что зачастую приводит к спорадическим выпадениям результатов по части локусов. Идентифицирующая ценность таких неполных результатов снижается. В связи с этим, необходимо иметь многократный запас по числу исследуемых маркеров, что обеспечит полноценный идентифицирующий профиль даже при выпадении большей части результатов. Увеличение числа анализируемых маркеров связано с фундаментальными методическими проблемами, главная из которых - это выбранный способ регистрации результатов генотипирования по электрофоретической подвижности амплифицированных локусов в геле, т.е. по их длине. Используемый подход всегда будет требовать компромисса между количеством маркеров и их максимальной длиной. Увеличение достоверности результата идентификации требует увеличения числа маркеров, что в свою очередь, будет повышать среднюю длину амплифицируемого локуса (т.к. каждая длина продукта «зарезервирована» за одним аллелем одного маркера), ограничивая возможности анализа деградированной ДНК.As can be seen from the description, all three of the above analogs are similar to each other in the approach used, differing only in the set of markers, the lengths of the loci, and the multiplexity of PCR. The closest to the claimed technical solution in terms of the technical essence and the achieved technical result is the DIPplex set. The described method is taken as a prototype of the invention. The main disadvantage of the prototype is the insufficient number of markers. A feature of forensic genetic examination is the low quality of biological samples, which often leads to sporadic dropouts of results in terms of loci. The identifying value of such incomplete results is reduced. In this regard, it is necessary to have a multiple supply of the number of markers under study, which will provide a full-fledged identifying profile even if most of the results are missing. The increase in the number of analyzed markers is associated with fundamental methodological problems, the main one of which is the chosen method of recording the results of genotyping by the electrophoretic mobility of amplified loci in the gel, i.e. along their length. The approach used will always require a trade-off between the number of markers and their maximum length. An increase in the reliability of the identification result requires an increase in the number of markers, which, in turn, will increase the average length of the amplified locus (since each length of the product is "reserved" for one allele of one marker), limiting the possibilities of analyzing degraded DNA.

Для устранения указанных недостатков необходимо существенно увеличить число анализируемых маркеров и обеспечить минимально возможную длину амплифицируемых локусов. Это позволит повысить идентифицирующий потенциал и чувствительность метода, как для качественных образцов ДНК, так и для деградировавших. Решение этих задач требует увеличения мультиплексности ПЦР без увеличения числа реакций, т.е. в одной смеси праймеров. Для минимизации длины локусов необходимо уйти от электрофоретического способа регистрации результатов генотипирования, т.к. он связан с длиной ПЦР-продукта. Оптимальным является гибридизационный анализ. При его применении размер амплифицируемого фрагмента каждого локуса будет определяться исключительно качеством зон отжига праймеров на флангах самого маркера. Учитывая, что в геноме человека число таких маркеров-кандидатов избыточно, из них можно выбрать те, для которых можно подобрать праймеры, отжигающиеся достаточно близко к маркеру, и обеспечивающие минимальную длину амплифицируемого фрагмента.To eliminate these disadvantages, it is necessary to significantly increase the number of analyzed markers and ensure the minimum possible length of amplified loci. This will increase the identifying potential and sensitivity of the method, both for high-quality DNA samples and for degraded ones. Solving these problems requires increasing the multiplexing of PCR without increasing the number of reactions, i.e. in one primer mixture. To minimize the length of loci, it is necessary to move away from the electrophoretic method of recording the results of genotyping, since it is related to the length of the PCR product. Hybridization analysis is optimal. When applied, the size of the amplified fragment of each locus will be determined solely by the quality of the primer annealing zones on the flanks of the marker itself. Considering that the number of such candidate markers in the human genome is excessive, one can select those for which primers can be selected that can be annealed sufficiently close to the marker and provide the minimum length of the amplified fragment.

Раскрытие сущности изобретенияDisclosure of the essence of the invention

Задачей настоящего изобретения является:The objective of the present invention is:

- создание универсальной межпопуляционной панели, состоящей из маркеров, обладающих близким по значению дискриминирующим потенциалом в каждой из пяти основных мировых популяций (европейской, африканской, южноазиатской, восточноазиатской и американской);- Creation of a universal interpopulation panel, consisting of markers that have a discriminatory potential of a similar value in each of the five major world populations (European, African, South Asian, East Asian and American);

- улучшение характеристики МР до 1.52⋅10-65 за счет увеличения количества InDel-маркеров, определяющих идентифицирующий профиль;- improvement of MR characteristics to 1.52⋅10 -65 due to an increase in the number of InDel markers that determine the identifying profile;

- сокращение средней длины амплифицируемых локусов до 72,8 п.н. и максимальной до 97 нуклеотидов;- reduction of the average length of the amplified loci to 72.8 bp. and maximum up to 97 nucleotides;

- подбор структур олигонуклеотидных праймеров, обеспечивающих проведение ПЦР в одной реакции для всех локусов;- selection of the structures of oligonucleotide primers that provide PCR in one reaction for all loci;

- подбор структур олигонуклеотидных ДНК-зондов, обеспечивающих достоверное генотипирование методом гибридизации.- selection of the structures of oligonucleotide DNA probes that provide reliable genotyping by hybridization.

Поставленная задача технически решена следующим образом. Для преодоления присущих прототипу недостатков, и достижения идентифицирующих и эксплуатационных характеристик, в большей мере удовлетворяющих потребностям судебно-медицинской экспертизы, в заявляемом техническом решении были введены следующие усовершенствования. Выбраны 162 InDel маркеров, имеющих равномерное распределение частот аллелей в основных мировых популяциях. Для них были подобран набор синтетических праймеров, эффективно амплифицирующих в ходе одной мультиплексной ПЦР локусы всех, входящих в набор маркеров, причем обратный праймер каждого локуса имеет универсальную вставку по 3'-концу. В качестве способа генотипирования (определения присутствующих в образце аллелей всех маркеров) был выбран гибридизационный анализ. Принцип гибридизационного анализа состоит в проведении реакции комплементарного взаимодействия между исследуемым продуктом мультиплексной ПЦР и набором олигонуклеотидных зондов (предварительно закрепленным на поверхности подложки, в микрокаплях геля, на микросферах и т.д.), каждый из которых соответствует определенной аллели маркера. Для детекции результата гибридизации могут быть использованы любые подходящие метки (флуоресцентные, радиоактивные, ферментативные и проч.), предварительно введенные в ПЦР-продукт посредством меченых дезоксинуклеотидтрифосфатов в ходе элонгации, либо путем использования предварительно меченого праймера, или иным способом. В приведенных далее примерах для введения метки мы использовали ПЦР с флуоресцентно-меченым праймером.The task is technically solved as follows. To overcome the disadvantages inherent in the prototype, and to achieve identifying and operational characteristics that better meet the needs of forensic medical examination, the following improvements have been introduced in the claimed technical solution. We selected 162 InDel markers with a uniform distribution of allele frequencies in the main world populations. A set of synthetic primers was selected for them, which effectively amplified during one multiplex PCR the loci of all the markers included in the set, and the reverse primer of each locus has a universal insert at the 3'-end. Hybridization analysis was chosen as a method of genotyping (determination of alleles of all markers present in the sample). The principle of hybridization analysis is to carry out a complementary interaction reaction between the investigated product of multiplex PCR and a set of oligonucleotide probes (preliminarily fixed on the surface of the substrate, in gel microdrops, on microspheres, etc.), each of which corresponds to a specific allele of the marker. Any suitable labels (fluorescent, radioactive, enzymatic, etc.) previously introduced into the PCR product via labeled deoxynucleotide triphosphates during elongation, or by using a prelabeled primer, or otherwise, can be used to detect the result of hybridization. In the following examples, we used PCR with a fluorescently labeled primer for labeling.

Таким образом, заявляемым техническим решением устранены следующие недостатки прототипа:Thus, the claimed technical solution eliminated the following disadvantages of the prototype:

- Недостаточно низкая вероятность случайного совпадения генотипов, МР, составляющая у прототипа от 5⋅10-11 для азиатской популяции, до 2⋅10-13 для европейской, в заявляемом техническом решении достигает 1.52⋅10-65, что повышает идентифицирующий потенциал метода в 1052 - 1054 раз;- Insufficiently low probability of accidental coincidence of genotypes, MR, which in the prototype is from 5⋅10 -11 for the Asian population, to 2⋅10 -13 for the European one, in the claimed technical solution reaches 1.52⋅10 -65 , which increases the identifying potential of the method by 10 52 - 10 54 times;

- Панель InDel-маркеров, предложенная в заявляемом техническом решении, является универсальной вне зависимости от популяции. Средние значения частоты минорной аллели (которые в конечном итоге определяют ключевую величину - MP), рассчитанные исходя их данных исследования «1000 Genome Project» [10], практически не отличаются, и составляют для европейской популяции 39,8%, африканской - 39,4%, южноазиатской - 39,9%, восточноазиатской - 39,8% и американской - 39,6%. Это свидетельствует об универсальности выбранной панели маркеров, учитывая крайнюю полярность африканского, азиатского и европейского генофонда.- Panel InDel-markers, proposed in the claimed technical solution, is universal, regardless of the population. The average values of the frequency of the minor allele (which ultimately determine the key value - MP), calculated on the basis of the data of the 1000 Genome Project study [10], practically do not differ, and are 39.8% for the European population, 39.4% for the African population. %, South Asian - 39.9%, East Asian - 39.8% and American - 39.6%. This testifies to the universality of the selected panel of markers, given the extreme polarity of the African, Asian, and European gene pool.

- Протяженность амплифицируемых фрагментов прототипа составляет от 70 до 160 нуклеотидов [11], среднее значение длины 115 нуклеотидов, медиана 115 нуклеотидов. В заявляемом техническом решении протяженность амплифицируемых фрагментов прототипа составляет от 55 до 97 нуклеотидов, среднее значение длины 72,8 нуклеотида, медиана 72 нуклеотида.- The length of the amplified fragments of the prototype is from 70 to 160 nucleotides [11], the average length is 115 nucleotides, the median is 115 nucleotides. In the claimed technical solution, the length of the amplified fragments of the prototype is from 55 to 97 nucleotides, the average length is 72.8 nucleotides, the median is 72 nucleotides.

Выбор праймеров, входящих в предмет настоящего изобретения, характеризуется тем, что праймеры подбирали таким образом, чтобы они обеспечивали равномерную амплификацию всех целевых локусов.The choice of primers included in the subject of the present invention is characterized in that the primers are selected in such a way that they provide uniform amplification of all target loci.

Основными аспектами данного изобретения являются синтетические олигонуклеотиды, приведенные в Таблицах 1 и 2, а также Перечне последовательностей (SEQ ID N0: 1-SEQ ID N0: 648).The main aspects of the present invention are the synthetic oligonucleotides shown in Tables 1 and 2 and the Sequence Listing (SEQ ID NO: 1-SEQ ID NO: 648).

Предлагаемый набор синтетических олигонуклеотидов для амплификации целевых локусов, содержащих генотипируемые InDel-маркеры, характеризуется тем, что содержит 1) локус-специфичные праймеры следующего нуклеотидного состава (SEQ ID N0: 1-SEQ ID N0: 324):The proposed set of synthetic oligonucleotides for amplification of target loci containing genotypable InDel markers is characterized by the fact that it contains 1) locus-specific primers of the following nucleotide composition (SEQ ID NO: 1-SEQ ID NO: 324):

Таблица 1. ПЦР-праймеры для амплификации локусов, содержащих InDel полиморфизмы.Table 1. PCR primers for amplification of loci containing InDel polymorphisms.

SEQ ID NO:SEQ ID NO: Номер полиморфизмаPolymorphism number НазваниеName Последовательность 5’-3’Sequence 5'-3 ' 1one rs3059749rs3059749 01_007_F01_007_F TGGACTTTATTATTATGGTCTGGAGCAGCATGGACTTTATTATTATGGTCTGGAGCAGCA 22 rs3059749rs3059749 01_007_R01_007_R TGCATGAGTGATTCCTTAAAACCAGACACTGCATGAGTGATTCCTTAAAACCAGACAC 33 rs34338895rs34338895 01_031_F01_031_F AGCCATGTAGATGCTRTCATCAACAGCTAGCCATGTAGATGCTRTCATCAACAGCT 44 rs34338895rs34338895 01_031_R01_031_R TGCAATTTTGGATACCAATGACCACAAGATGCAATTTTGGATACCAATGACCACAAGA 55 rs67091803rs67091803 01_041_F01_041_F ACTTTGTGACCGTCTTCTCTCTTGGACTTTGTGACCGTCTTCTCTCTTGG 66 rs67091803rs67091803 01_041_R01_041_R CCAAGAGGGGTGCACTGCTCCCCAAGAGGGGTGCACTGCTCC 77 rs5774423rs5774423 01_059_F01_059_F GCACAGAATCCAGCAGGTAGTAAGGG GCACAGAATCCAGCAGGTAGTAAGGG 88 rs5774423rs5774423 01_059_R01_059_R CACAATGTTAAATCTGTTTGTTAAGGGGAG CACAATGTTAAATCTGTTTGTTAAGGGGAG 9nine rs113565562rs113565562 01_083_F01_083_F TGATCACTGTATTCCTGACCCAGTTTCATGATCACTGTATTCCTGACCCAGTTTCA 10ten rs113565562rs113565562 01_083_R01_083_R CACTTTAACTTCTGTTTAGAACACATAGTCACTTTAACTTCTGTTTAGAACACATAGT 11eleven rs111706466rs111706466 01_101_F01_101_F AGTGTAAAAAYGACTGCTTAGACATTTCTAGTGTAAAAAYGACTGCTTAGACATTTCT 1212 rs111706466rs111706466 01_101_R01_101_R TCATTTGACAGATATTGAATCAAATTGGATTCTGATCATTTGACAGATATTGAATCAAATTGGATTCTGA 1313 rs11394524rs11394524 01_119_F01_119_F AGCAGCAGGTAAAACAACTATCGTTCAGCAGCAGGTAAAACAACTATCGTTC 1414 rs11394524rs11394524 01_119_R01_119_R CTAGGGGAGCCAGAGAGCCTTTTCCTAGGGGAGCCAGAGAGCCTTTTC 1515 rs72082809rs72082809 01_154_F01_154_F ACAGATTCCTTTGATTGCCTGATGAG ACAGATTCCTTTGATTGCCTGATGAG 1616 rs72082809rs72082809 01_154_R01_154_R GCCGGTGCATTCTCCCCTTCAGGCCGGTGCATTCTCCCCTTCAG 1717 rs35379245rs35379245 01_170_F01_170_F CTTGTTTCAGATATGCAGGCTGAGACTTGTTTCAGATATGCAGGCTGAGA 18eighteen rs35379245rs35379245 01_170_R01_170_R TGCTrGCAAACTTAGGCAATTAAGTTAACATCTGCTrGCAAACTTAGGCAATTAAGTTAACATC 1919 rs71107464rs71107464 01_192_F01_192_F TCTAGTTGAGTCACTTGAGCTCTATTAGACTCTAGTTGAGTCACTTGAGCTCTATTAGAC 20twenty rs71107464rs71107464 01_192_R01_192_R AACTCCTAACTGCTTAATGTAGCAGG AACTCCTAACTGCTTAATGTAGCAGG 2121 rs66944170rs66944170 01_208_F01_208_F TGGTCACTCCTCTTTGCACTGCGTGGTCACTCCTCTTTGCACTGCG 2222 rs66944170rs66944170 01_208_R01_208_R CCCATCCTCCCGAAGCACATCTACCCCATCCTCCCGAAGCACATCTAC 2323 rs35126101rs35126101 01_223_F01_223_F GGAGAGGGGTGTCCGACTCAGGGGAGAGGGGTGTCCGACTCAGG 2424 rs35126101rs35126101 01_223_R01_223_R CCTTCCTGAGACAGCTGAAATGTCCTTCCTGAGACAGCTGAAATGT 2525 rs35994297rs35994297 01_233_F01_233_F CAACATTGCAAAAATGAACGCTGACTACCAACATTGCAAAAATGAACGCTGACTAC 2626 rs35994297rs35994297 01_233_R01_233_R CTCTATACTTAGTCATTTGTTGCATTTCTGG CTCTATACTTAGTCATTTGTTGCATTTCTGG 2727 rs34450453rs34450453 01_240_F01_240_F CTTCAATGAAGAACTGTTAAGAATTAAAGGCCTTCAATGAAGAACTGTTAAGAATTAAAGGC 2828 rs34450453rs34450453 01_240_R01_240_R CTTAAAATATGTAGTGTGTACCCAATCATTTGCCTTAAAATATGTAGTGTGTACCCAATCATTTGC 2929 rs10693974rs10693974 02_011_F02_011_F CACGTGGGTGGTCACTCACACC CACGTGGGTGGTCACTCACACC 30thirty rs10693974rs10693974 02_011_R02_011_R CTTATCTCCAATAGATCAGTGAAGAAACAGG CTTATCTCCAATAGATCAGTGAAGAAACAGG 3131 rs66610049rs66610049 02_036_F02_036_F GCCATAGAATTTCTCTCATGGCTCTACGCCATAGAATTTCTCTCATGGCTCTAC 3232 rs66610049rs66610049 02_036_R02_036_R GTGAAATTCAGCTATAAGGAGATGAAGCCGTGAAATTCAGCTATAAGGAGATGAAGCC 3333 rs68130608rs68130608 02_042_F02_042_F AGAGGAGAATGAATGTTGGAGTAAGCAGAGGAGAATGAATGTTGGAGTAAGC 3434 rs68130608rs68130608 02_042_R02_042_R CAGAGTGACAGGTCAACACTTACCCCAGAGTGACAGGTCAACACTTACCC 3535 rs11424237rs11424237 02_061_F02_061_F AGGCCTGTAATGGATTACAAAATGGCCACAAGGCCTGTAATGGATTACAAAATGGCCACA 3636 rs11424237rs11424237 02_061_R02_061_R AGCAAAGTCACATTGCAAATTCTTGTACATATAATGATGGAGCAAAGTCACATTGCAAATTCTTGTACATATAATGATGG 3737 rs72339906rs72339906 02_080_F02_080_F CAGCTCTAAGACCACACATTCTGCCAGCTCTAAGACCACACATTCTGC 3838 rs72339906rs72339906 02_080_R02_080_R ACTGGCCATGCAGGTATTCTAGG ACTGGCCATGCAGGTATTCTAGG 3939 rs5832955rs5832955 02_101_F02_101_F TCAGGGTTGACCAGCAGTTTAAGTGTCAGGGTTGACCAGCAGTTTAAGTG 4040 rs5832955rs5832955 02_101_R02_101_R GAATTCAGTTTTCACTCATGAGTTTAGCTGGAATTCAGTTTTCACTCATGAGTTTAGCTG 4141 rs5833488rs5833488 02_113_F02_113_F AGGCGGAAATAAGTGACCCAGAGAAAAACGCTAGGCGGAAATAAGTGACCCAGAGAAAAACGCT 4242 rs5833488rs5833488 02_113_R02_113_R TGCCGCCTCCTGCAACTCCTTCATGCCGCCTCCTGCAACTCCTTCA 4343 rs77093320rs77093320 02_150_F02_150_F AGGCACCTTGTGAGAAAAGATTGGAGGCACCTTGTGAGAAAAGATTGG 4444 rs77093320rs77093320 02_150_R02_150_R CCTAGGCTTGCTGGGAAGTCCTCCCTAGGCTTGCTGGGAAGTCCTC 4545 rs111665673rs111665673 02_215_F02_215_F ACCCAAGAATATGAAGGACCAACTGACCCAAGAATATGAAGGACCAACTG 4646 rs111665673rs111665673 02_215_R02_215_R TCATCACATTCTGCACTCATAATCAGCTCATCACATTCTGCACTCATAATCAGC 4747 rs57993635rs57993635 02_231_F02_231_F AGGAGACCACTCAAAGAATCCTACTCAGGAGACCACTCAAAGAATCCTACTC 4848 rs57993635rs57993635 02_231_R02_231_R TCAGTTTAGGTGCACAGAATAAGTCACTCAGTTTAGGTGCACAGAATAAGTCAC 4949 rs35926392rs35926392 03_016_F03_016_F AGGACCAAGGCTGCAGAGAAAGGAGGACCAAGGCTGCAGAGAAAGG 50fifty rs35926392rs35926392 03_016_R03_016_R CGGCTCTCCTTCCAAGTCAGGACCGGCTCTCCTTCCAAGTCAGGAC 5151 rs139738417rs139738417 03_030_F03_030_F TGATGTAATTTAAAGTGAGCCAGCCAGACRTATGATGTAATTTAAAGTGAGCCAGCCAGACRTA 5252 rs139738417rs139738417 03_030_R03_030_R TGACTCTTCTCCCACCTAACTCAAGTTTGATGACTCTTCTCCCACCTAACTCAAGTTTGA 5353 rs66976303rs66976303 03_063_F03_063_F GTTAGGAAATRATCCCAGGAAATAGGAATGGTTAGGAAATRATCCCAGGAAATAGGAATG 5454 rs66976303rs66976303 03_063_R03_063_R CTACTCCATCATAGGCTCTTGTATTGGCTACTCCATCATAGGCTCTTGTATTGG 5555 rs57495895rs57495895 03_082_F03_082_F CTGTGTTGTATTCTGTTATTGCTACTTGCCTGTGTTGTATTCTGTTATTGCTACTTGC 5656 rs57495895rs57495895 03_082_R03_082_R TTGCCATTCTAAGATTTCTCTCTTCCTGTTGCCATTCTAAGATTTCTCTCTTCCTG 5757 rs35291341rs35291341 03_100_F03_100_F CGTTCACATGTCAGGTACTAACTCTCCGTTCACATGTCAGGTACTAACTCTC 5858 rs35291341rs35291341 03_100_R03_100_R TGGTGGGGATGAGGTACAGACTGTGGTGGGGATGAGGTACAGACTG 5959 rs35464243rs35464243 03_107_F03_107_F CAATCTAAGTTGTCTTACCCTGTGGCCAATCTAAGTTGTCTTACCCTGTGGC 6060 rs35464243rs35464243 03_107_R03_107_R TTTCTAGTTCTCATATTCCATGATTGTATTTTGAGTTTCTAGTTCTCATATTCCATGATTGTATTTTGAG 6161 rs10540628rs10540628 03_124_F03_124_F AGGAATGACAGGAAAGTCTTAATGAGCAGGAATGACAGGAAAGTCTTAATGAGC 6262 rs10540628rs10540628 03_124_R03_124_R ACATCATGCATTGTTTGAATCATCTCTGACATCATGCATTGTTTGAATCATCTCTG 6363 rs35588182rs35588182 03_162_F03_162_F CTCTGTCACCTAGGCTGGAGTGCCTCTGTCACCTAGGCTGGAGTGC 6464 rs35588182rs35588182 03_162_R03_162_R AGAATCACTTGAACCCGGGAGGCAGTGAGAATCACTTGAACCCGGGAGGCAGTG 6565 rs150470881rs150470881 03_182_F03_182_F GAGTCCCTCTCTTTCTACTGTWTGGAATAGTGAGTCCCTCTCTTTCTACTGTWTGGAATAGT 6666 rs150470881rs150470881 03_182_R03_182_R AGAGGTACAAAGAGAAGCTGGTACCAAGAGGTACAAAGAGAAGCTGGTACCA 6767 rs75445531rs75445531 03_194_F03_194_F TTCCTGGACGTGTGAATTGATGCTTCCTGGACGTGTGAATTGATGC 6868 rs75445531rs75445531 03_194_R03_194_R GAAGACAGACAGAACACTCCTGCGAAGACAGACAGAACACTCCTGC 6969 rs3834231rs3834231 04_008_F04_008_F AGGATCTGGACTTGCTCTGGGGCAGAGGATCTGGACTTGCTCTGGGGCAG 7070 rs3834231rs3834231 04_008_R04_008_R GCAGGGCTCTGGGAAATTTGGGTGCGCAGGGCTCTGGGAAATTTGGGTGC 7171 rs59170274rs59170274 04_027_F04_027_F TATTCACTATGGTTACCATGCAGTACAAGTATTCACTATGGTTACCATGCAGTACAAG 7272 rs59170274rs59170274 04_027_R04_027_R TGTTGAACAAACAGTACAAAGTTTCAGACTGTTGAACAAACAGTACAAAGTTTCAGAC 7373 rs34184705rs34184705 04_045_F04_045_F CAGATCGCTGGGCTATTAGGTGCAGATCGCTGGGCTATTAGGTG 7474 rs34184705rs34184705 04_045_R04_045_R TACTGGCCAGCTGCAGCCTCTACTACTGGCCAGCTGCAGCCTCTAC 7575 rs56281469rs56281469 04_056_F04_056_F GCTGTGGAGTATAATTTGTAGGGAGACGCTGTGGAGTATAATTTGTAGGGAGAC 7676 rs56281469rs56281469 04_056_R04_056_R CATACTGTATCTTACTTGAGTGTTTCATCTCCATACTGTATCTTACTTGAGTGTTTCATCTC 7777 rs10707593rs10707593 04_065_F04_065_F TGGGAATACTAGGGAAGCATTGGGAAGTGACTTGGGAATACTAGGGAAGCATTGGGAAGTGACT 7878 rs10707593rs10707593 04_065_R04_065_R RGCTATTGGTACCAGACATAAACRTATATGCARGCTATTGGTACCAGACATAAACRTATATGCA 7979 rs35932180rs35932180 04_085_F04_085_F GTTCAAGCAATAATCATTGATCTGTGCCGTTCAAGCAATAATCATTGATCTGTGCC 8080 rs35932180rs35932180 04_085_R04_085_R GTGAGTCTTATTTTTTCCCTGTGTCTGTGTGAGTCTTATTTTTTCCCTGTGTCTGT 8181 rs72273695rs72273695 04_112_F04_112_F AGTAACTTCTCCATGCATCACATTATTCAGTAACTTCTCCATGCATCACATTATTC 8282 rs72273695rs72273695 04_112_R04_112_R CACAAACAGAGGCCAGGTAACACAAACAGAGGCCAGGTAA 8383 rs70938781rs70938781 04_137_F04_137_F ACCTGCCCTGACTATATCTGTAACCTGCCCTGACTATATCTGTA 8484 rs70938781rs70938781 04_137_R04_137_R CATATCAGCTTTTTCCTCCTCCTTCACATATCAGCTTTTTCCTCCTCCTTCA 8585 rs34581182rs34581182 04_154_F04_154_F TCTCACAAAATATACATGTAGCAGTGGATATCTCACAAAATATACATGTAGCAGTGGATA 8686 rs34581182rs34581182 04_154_R04_154_R GTTACTGAAGGTAGTATAGCTCTAGGCAGTTACTGAAGGTAGTATAGCTCTAGGCA 8787 rs3067059rs3067059 04_177_F04_177_F CCTTCCCTTCCATTTTGTATATCTGCCTTCCCTTCCATTTTGTATATCTG 8888 rs3067059rs3067059 04_177_R04_177_R CCTAGTCAGAGGAACATTTTGAAGCCTAGTCAGAGGAACATTTTGAAG 8989 rs61235135rs61235135 05_003_F05_003_F CTCTGTTCCTTTGCTGAAAAATGACCTCTGTTCCTTTGCTGAAAAATGAC 9090 rs61235135rs61235135 05_003_R05_003_R AGATGTTTTCAGGTGGGAGGAATAAGATGTTTTCAGGTGGGAGGAATA 9191 rs113132739rs113132739 05_013_F05_013_F GGAAGATGATGTGAATGTACACAAGGGAAGATGATGTGAATGTACACAAG 9292 rs113132739rs113132739 05_013_R05_013_R TGTGGCAGTCCTAGTCCAGTCTCTGTGGCAGTCCTAGTCCAGTCTC 9393 rs142490175rs142490175 05_065_F05_065_F CCCATATATTTTCCTTCCTGGTGCACCCATATATTTTCCTTCCTGGTGCA 9494 rs142490175rs142490175 05_065_R05_065_R CCCTACCCTGACAAATACATGAACTACCCTACCCTGACAAATACATGAACTA 9595 rs572636473rs572636473 05_074_F05_074_F TGTTCCTTATTTCTGGAAGAGCCCTGTTCCTTATTTCTGGAAGAGCCC 9696 rs572636473rs572636473 05_074_R05_074_R TGCCAGACCTATGCATAAAAAAGGTGCCAGACCTATGCATAAAAAAGG 9797 rs138124389rs138124389 05_087_F05_087_F GCTAAACATTGAGCACACATGGAGCTAAACATTGAGCACACATGGA 9898 rs138124389rs138124389 05_087_R05_087_R GATTGTTTTTTAACCCATGCCCTTTCGATTGTTTTTTAACCCATGCCCTTTC 9999 rs34990478rs34990478 05_096_F05_096_F CTAGCAAGGGTGAGAATTAGTGACTCTAGCAAGGGTGAGAATTAGTGACT 100one hundred rs34990478rs34990478 05_096_R05_096_R GAACACATCTTGGTAAGCAGCACTGAACACATCTTGGTAAGCAGCACT 101101 rs6149192rs6149192 05_115_F05_115_F TGCAGTTCAGCTGACTTCACTGCAGTTCAGCTGACTTCAC 102102 rs6149192rs6149192 05_115_R05_115_R GGGGTTAAGAGTTTCAGCATGGGGGTTAAGAGTTTCAGCATG 103103 rs145918302rs145918302 05_119_F05_119_F CCTAACTACCTGTTTACAAGGCAATTCACCTAACTACCTGTTTACAAGGCAATTCA 104104 rs145918302rs145918302 05_119_R05_119_R CACAGTTTGGAAATGGTTAATTGTATTCTCACAGTTTGGAAATGGTTAATTGTATTCT 105105 rs66881681rs66881681 05_132_F05_132_F GGAACTCCAGGACCCAACAGAGGAACTCCAGGACCCAACAGA 106106 rs66881681rs66881681 05_132_R05_132_R AGCCATGTTTCTGTCTCAGCAAGCCATGTTTCTGTCTCAGCA 107107 rs10701589rs10701589 05_141_F05_141_F AGGCTTCTAATTGGTTTCCGCAAGGCTTCTAATTGGTTTCCGCA 108108 rs10701589rs10701589 05_141_R05_141_R CAAGATATAATAACAAATCAGAGTGGACAAGATATAATAACAAATCAGAGTGGA 109109 rs3832355rs3832355 05_151_F05_151_F TGCTGCTGTGAAGATGAGAAGGTGCTGCTGTGAAGATGAGAAGG 110110 rs3832355rs3832355 05_151_R05_151_R GTAGGGGCTTTGGTAAATATAGTCAGTAGGGGCTTTGGTAAATATAGTCA 111111 rs10560231rs10560231 05_180_F05_180_F AGCCATGCGTTGCTTTAAGCCAAGCCATGCGTTGCTTTAAGCCA 112112 rs10560231rs10560231 05_180_R05_180_R CCCAGCCTGTAGTATGTTTCAATATCATCCCAGCCTGTAGTATGTTTCAATATCAT 113113 rs35948562rs35948562 06_007_F06_007_F CTCACTACCAAGTCAAACCCACTCACTACCAAGTCAAACCCA 114114 rs35948562rs35948562 06_007_R06_007_R TGAGGGAATAGGCGCAGTATATGAGGGAATAGGCGCAGTATA 115115 rs56071028rs56071028 06_016_F06_016_F CATGGTCCCAAAGCCATCACAGCCATGGTCCCAAAGCCATCACAGC 116116 rs56071028rs56071028 06_016_R06_016_R ACACATTGCTCCTTCTTCATCATCACACATTGCTCCTTCTTCATCATC 117117 rs10529292rs10529292 06_031_F06_031_F AGCCTCTTTGCRTGGCTCTTTCTGGCAGCCTCTTTGCRTGGCTCTTTCTGGC 118118 rs10529292rs10529292 06_031_R06_031_R AGTGTGTACGATTTCATTTCTGATGTCTCTAGTGTGTACGATTTCATTTCTGATGTCTCT 119119 rs376539574rs376539574 06_057_F06_057_F AGATCCTCGCTAATCAATTAGAGCACAAGATCCTCGCTAATCAATTAGAGCACA 120120 rs376539574rs376539574 06_057_R06_057_R AGTATTCACATATTTGCAATTAGGATATATTCCTAGTATTCACATATTTGCAATTAGGATATATTCCT 121121 rs68133212rs68133212 06_071_F06_071_F CCAAGGTAAACATCGTTAGTTTCTCCACCAAGGTAAACATCGTTAGTTTCTCCA 122122 rs68133212rs68133212 06_071_R06_071_R GAAGCCCAAACAGAAAAGCAAGGAAGCCCAAACAGAAAAGCAAG 123123 rs139823267rs139823267 06_077_F06_077_F TTCTCAATGAATACAGCCTGTGACTTTCTCAATGAATACAGCCTGTGACT 124124 rs139823267rs139823267 06_077_R06_077_R CTTAGTAAATAGCCTAAGCGATTTTGTCACTTAGTAAATAGCCTAAGCGATTTTGTCA 125125 rs144273778rs144273778 06_087_F06_087_F CAGTTCCCACCTGTATGCTGTGCAGTTCCCACCTGTATGCTGTG 126126 rs144273778rs144273778 06_087_R06_087_R AGGAGGGAGGTGGATCTCAGCAGGAGGGAGGTGGATCTCAGC 127127 rs56343259rs56343259 06_096_F06_096_F TTGCCTCCAAAGTCTCTGACACTTGCCTCCAAAGTCTCTGACAC 128128 rs56343259rs56343259 06_096_R06_096_R ACAAATGACTCTGGCAGAGGTGACAAATGACTCTGGCAGAGGTG 129129 rs573860910rs573860910 06_113_F06_113_F ACTTTTTAATGATCACCATTCTAACTGGTGACTTTTTAATGATCACCATTCTAACTGGTG 130130 rs573860910rs573860910 06_113_R06_113_R TCAGAGAAATGCAAATCAAAACCACAATGTCAGAGAAATGCAAATCAAAACCACAATG 131131 rs141141409rs141141409 06_125_F06_125_F ATAGGCAGCTGTGGTATGGGAATAGGCAGCTGTGGTATGGGA 132132 rs141141409rs141141409 06_125_R06_125_R GTACCTGGCTCCCCTGCTGTGTACCTGGCTCCCCTGCTGT 133133 rs71675135rs71675135 06_135_F06_135_F AGGGAAATGAAAGACAATTAGAGAAGTAGGGAAATGAAAGACAATTAGAGAAGT 134134 rs71675135rs71675135 06_135_R06_135_R TGTCCCTGATCTGTGTTCACACTGTCCCTGATCTGTGTTCACAC 135135 rs140327598rs140327598 06_143_F06_143_F ATCTTAAAATGCTAGACACTGTTTTAGAGATCTTAAAATGCTAGACACTGTTTTAGAG 136136 rs140327598rs140327598 06_143_R06_143_R TTTCTTCCACTAGAATGTAAGCCTTTCTTCCACTAGAATGTAAGCC 137137 rs68078431rs68078431 06_153_F06_153_F GTGCACATGCATGTTTGAATAGGTGCACATGCATGTTTGAATAG 138138 rs68078431rs68078431 06_153_R06_153_R GTATATTCAAAACAAGAGTCGAAGCCAGTATATTCAAAACAAGAGTCGAAGCCA 139139 rs11278298rs11278298 06_158_F06_158_F GTGTGACGTTTCAGTTAATAGTGGTGGGTGTGACGTTTCAGTTAATAGTGGTGG 140140 rs11278298rs11278298 06_158_R06_158_R TCTCCTGCATAAAGTATGAATTTTCGTTCTCCTGCATAAAGTATGAATTTTCGT 141141 rs566489451rs566489451 06_167_F06_167_F CCTTGAGCCTGGCTGTAATCCCTTGAGCCTGGCTGTAATC 142142 rs566489451rs566489451 06_167_R06_167_R CATGGTAGGCCCACAGGAAATACATGGTAGGCCCACAGGAAATA 143143 rs35345873rs35345873 07_010_F07_010_F AGAAGAGAAAAGTGAGGTAGTTGCTAAGAAGAGAAAAGTGAGGTAGTTGCTA 144144 rs35345873rs35345873 07_010_R07_010_R ATGGTTGCATATTAATGCCTAAGCTTGATGGTTGCATATTAATGCCTAAGCTTG 145145 rs71552214rs71552214 07_023_F07_023_F CCCAAGCACTTTTCTATATTCTATCACCTCTGCCCAAGCACTTTTCTATATTCTATCACCTCTG 146146 rs71552214rs71552214 07_023_R07_023_R TTGGGTTAATGTGTGTTGTATTCAGCTTGGGTTAATGTGTGTTGTATTCAGC 147147 rs34786735rs34786735 07_040_F07_040_F GCATAATTGATAGATCAGCTCTAGAAGAATYACGCATAATTGATAGATCAGCTCTAGAAGAATYAC 148148 rs34786735rs34786735 07_040_R07_040_R ACTGCTTTCCTCACAGATTTGTACATTCAACTGCTTTCCTCACAGATTTGTACATTCA 149149 rs377131771rs377131771 07_062_F07_062_F GGATGATTCCACTTGAATCCATTCAAAGAGGATGATTCCACTTGAATCCATTCAAAGA 150150 rs377131771rs377131771 07_062_R07_062_R CCTTTGGAACCATTGAATAGAAAGGAATGCCTTTGGAACCATTGAATAGAAAGGAATG 151151 rs1610906rs1610906 07_082_F07_082_F CCAGTAGACACAATGATATTGACAAATAGCCAGTAGACACAATGATATTGACAAATAG 152152 rs1610906rs1610906 07_082_R07_082_R GCAGGATATTTTGATATTGAGAGTTTGGCAGGATATTTTGATATTGAGAGTTTG 153153 rs112677752rs112677752 07_097_F07_097_F CAGAGACTATCTTAAATATGCATTTCTATGCAGAGACTATCTTAAATATGCATTTCTATG 154154 rs112677752rs112677752 07_097_R07_097_R CCTAACAGCTCGACAAATATTGCAGCCTAACAGCTCGACAAATATTGCAG 155155 rs35830730rs35830730 07_112_F07_112_F CTGTAATCCCAGCTACTCAGGAGGCTGCTGTAATCCCAGCTACTCAGGAGGCTG 156156 rs35830730rs35830730 07_112_R07_112_R TCTGCTTCCCGGGTTCAAGTGATTCTCTGCTTCCCGGGTTCAAGTGATTC 157157 rs3216282rs3216282 07_126_F07_126_F CCAAGTTCATACAAAGTTCACAACCACCAAGTTCATACAAAGTTCACAACCA 158158 rs3216282rs3216282 07_126_R07_126_R CAACAATGAAAAAAACATCTATAGTAGCACTCAACAATGAAAAAAACATCTATAGTAGCACT 159159 rs35575707rs35575707 07_140_F07_140_F TTCCACATTGTGCTGGTGGTTCTTTCCACATTGTGCTGGTGGTTCT 160160 rs35575707rs35575707 07_140_R07_140_R CTCAACACTGGCAGGTATAGCACTCAACACTGGCAGGTATAGCA 161161 rs71520104rs71520104 07_153_F07_153_F TGCGGTTCCATCAAAGCCACARCCCTGTGCGGTTCCATCAAAGCCACARCCCTG 162162 rs71520104rs71520104 07_153_R07_153_R AACAAGACATAGGGTGACCGTAGTGAACAAGACATAGGGTGACCGTAGTG 163163 rs35146459rs35146459 08_002_F08_002_F GACTGTCCATTGTTTGCTGCACTTGTCGACTGTCCATTGTTTGCTGCACTTGTC 164164 rs35146459rs35146459 08_002_R08_002_R AGGGAATGACGCTCATGGGAGGAGGGAATGACGCTCATGGGAGG 165165 rs36048750rs36048750 08_013_F08_013_F TCCATGAGAATAACTATAGTATGCTAAGTAATACATTCCATGAGAATAACTATAGTATGCTAAGTAATACAT 166166 rs36048750rs36048750 08_013_R08_013_R TCCACTGAGAATACATGATCTATTAAGTAAAATGTCCACTGAGAATACATGATCTATTAAGTAAAATG 167167 rs34168882rs34168882 08_033_F08_033_F TGGACCCAATAAAACTTGGTGAAATAAAATGTGGACCCAATAAAACTTGGTGAAATAAAATG 168168 rs34168882rs34168882 08_033_R08_033_R TCAAGTCTTGTCCTATCATGTTTCTGATGATCAAGTCTTGTCCTATCATGTTTCTGATGA 169169 rs35604660rs35604660 08_058_F08_058_F TGCTCTCTGAACAGACGTCATGGTGCTCTCTGAACAGACGTCATGG 170170 rs35604660rs35604660 08_058_R08_058_R GCTATACAGTGCTGGAGAAATACTCTGGCTATACAGTGCTGGAGAAATACTCTG 171171 rs34067160rs34067160 08_064_F08_064_F ACCCCTCACCCTTTACTTTGTAGGACCCCTCACCCTTTACTTTGTAGG 172172 rs34067160rs34067160 08_064_R08_064_R CAAAGAGGCATATTTTGGGGTGGCAAAGAGGCATATTTTGGGGTGG 173173 rs138172268rs138172268 08_082_F08_082_F CAGGGTTTGTGAATGCACCAATCCAGGGTTTGTGAATGCACCAATC 174174 rs138172268rs138172268 08_082_R08_082_R TTTCCAAGTCCCCACCAGAGGAGTTTCCAAGTCCCCACCAGAGGAG 175175 rs35679778rs35679778 08_103_F08_103_F TAAGCTCAGGGAAGCACTGCCTGACATAAGCTCAGGGAAGCACTGCCTGACA 176176 rs35679778rs35679778 08_103_R08_103_R AGAGCAACCATCCCCCACCCCCAGAGCAACCATCCCCCACCCCC 177177 rs11323264rs11323264 08_125_F08_125_F TCCACGGCACCACATTCAAGGCCTCTGTCCACGGCACCACATTCAAGGCCTCTG 178178 rs11323264rs11323264 08_125_R08_125_R AGCAGAGGCGAAGTGTGAGACCTGTAGCAGAGGCGAAGTGTGAGACCTGT 179179 rs6150855rs6150855 08_139_F08_139_F GGAGTAAAAACTTCCTGAGGCCTCGGAGTAAAAACTTCCTGAGGCCTC 180180 rs6150855rs6150855 08_139_R08_139_R GCAAACCATTCAGGAAGCGTGGAGCAAACCATTCAGGAAGCGTGGA 181181 rs147918543rs147918543 09_000_F09_000_F ACACTCACTGATCAAGGATTTCTAAAACCAACACTCACTGATCAAGGATTTCTAAAACCA 182182 rs147918543rs147918543 09_000_R09_000_R AGCCTATAAGACATTCCTTTATGAGTGATACAAAGTCAGCCTATAAGACATTCCTTTATGAGTGATACAAAGTC 183183 rs66509579rs66509579 09_021_F09_021_F GGGTTATTTCTATATAAAAACGAGCATAAAATTATAGCAGGGGTTATTTCTATATAAAAACGAGCATAAAATTATAGCAG 184184 rs66509579rs66509579 09_021_R09_021_R TAACACCATGTTTTTTCTTCAAAAATGTGCATCTAACACCATGTTTTTTCTTCAAAAATGTGCATC 185185 rs371766957rs371766957 09_064_F09_064_F GTACTGACAGAAGGCTCATGAGTTAGTACTGACAGAAGGCTCATGAGTTA 186186 rs371766957rs371766957 09_064_R09_064_R ATTACCACACCACTCTTTACTACAGATTACCACACCACTCTTTACTACAG 187187 rs71493646rs71493646 09_072_F09_072_F ATTCCTCTTGACATCCAGCCACCCATTCCTCTTGACATCCAGCCACCC 188188 rs71493646rs71493646 09_072_R09_072_R CTAGCAAGACAGACATACAAGCTGCTAGCAAGACAGACATACAAGCTG 189189 rs34499887rs34499887 09_084_F09_084_F CCTCGAGGTGGCTTGTTTGRGTGCCCTCGAGGTGGCTTGTTTGRGTGC 190190 rs34499887rs34499887 09_084_R09_084_R ACCTGCCCACCAACCTGACCCAACCTGCCCACCAACCTGACCCA 191191 rs59923204rs59923204 09_109_F09_109_F AGACCAGAAATTGGAAAATGTTACAGTGGTCAGACCAGAAATTGGAAAATGTTACAGTGGTC 192192 rs59923204rs59923204 09_109_R09_109_R ACCAAGGACACATAGCTGACAAATGGAACCAAGGACACATAGCTGACAAATGGA 193193 rs55952736rs55952736 09_117_F09_117_F AATTTATTTTCTCCATAAACTACCTAGTCTCAAATTTATTTTCTCCATAAACTACCTAGTCTCA 194194 rs55952736rs55952736 09_117_R09_117_R GCAATGTTATTGTTCCATTGTGTCTTAGTCTGCAATGTTATTGTTCCATTGTGTCTTAGTCT 195195 rs71953876rs71953876 09_132_F09_132_F TTACTGAGATGCCCAACCTGCGTTTACTGAGATGCCCAACCTGCGT 196196 rs71953876rs71953876 09_132_R09_132_R CCGTTTCCTCCGCACTTATGCTGCCCGTTTCCTCCGCACTTATGCTGC 197197 rs368278029rs368278029 10_001_F10_001_F GCTATACCATTTCTCCTATTGTATAGCTATACCATTTCTCCTATTGTATA 198198 rs368278029rs368278029 10_001_R10_001_R AGGTAGCRTAGAGTAGAAGAAACAGTGTAACAGGTAGCRTAGAGTAGAAGAAACAGTGTAAC 199199 rs71281575rs71281575 10_026_F10_026_F CCAGGCTGGTCTCAAACTCCTGGGCCCAGGCTGGTCTCAAACTCCTGGGC 200200 rs71281575rs71281575 10_026_R10_026_R TAGGAGGCCGAAGCGGGAGGTAGGAGGCCGAAGCGGGAGG 201201 rs202245860rs202245860 10_035_F10_035_F TACTCAGGAGGCTGAGGCAGGAGTACTCAGGAGGCTGAGGCAGGAG 202202 rs202245860rs202245860 10_035_R10_035_R TGCGGTGGCACGATCTGGGCTCTGCGGTGGCACGATCTGGGCTC 203203 rs34948479rs34948479 10_047_F10_047_F GAGTCATGATTCACRAGCAGTTGTAAGCAATGGAGTCATGATTCACRAGCAGTTGTAAGCAATG 204204 rs34948479rs34948479 10_047_R10_047_R TGGGGAAAACTGGGTACAGGGTACAGTTGGGGAAAACTGGGTACAGGGTACAGT 205205 rs10552811rs10552811 10_071_F10_071_F GAGTCACCCAGAGGGATTTTGACAATGAGTCACCCAGAGGGATTTTGACAAT 206206 rs10552811rs10552811 10_071_R10_071_R CCCACTTAGAAAAATCCAATGAGAATCTCACCCACTTAGAAAAATCCAATGAGAATCTCA 207207 rs10555357rs10555357 10_085_F10_085_F TCAGCCACAGAGGAACAGCCAGTCAGCCACAGAGGAACAGCCAG 208208 rs10555357rs10555357 10_085_R10_085_R GCTTTGCCCAACTCACAGAATTACGCTTTGCCCAACTCACAGAATTAC 209209 rs140576359rs140576359 10_117_F10_117_F AGGAATTCATGGCTTAGGTTGGAACAGGAATTCATGGCTTAGGTTGGAAC 210210 rs140576359rs140576359 10_117_R10_117_R CCGATCTATATTCCTGTTCTGATGTCCCGATCTATATTCCTGTTCTGATGTC 211211 rs10544160rs10544160 10_128_F10_128_F CAGCACTGAAATTTAAAATCCTGGTCCTCAGCACTGAAATTTAAAATCCTGGTCCT 212212 rs10544160rs10544160 10_128_R10_128_R CCGCCAGGGAAAACAAGCCACATGCCGCCAGGGAAAACAAGCCACATG 213213 rs10583916rs10583916 11_006_F11_006_F ACTTCCTGTATCATTAATTCCACCTAGACTTCCTGTATCATTAATTCCACCTAG 214214 rs10583916rs10583916 11_006_R11_006_R GCAGCACTCTGAACTTTTTATTGTCTCGCAGCACTCTGAACTTTTTATTGTCTC 215215 rs113764748rs113764748 11_020_F11_020_F TAGGAGTTCTGACTCAGTTCTGGTGTAGGAGTTCTGACTCAGTTCTGGTG 216216 rs113764748rs113764748 11_020_R11_020_R CTGACCAAAACTCAATGGCCTTTCCTGACCAAAACTCAATGGCCTTTC 217217 rs57958958rs57958958 11_034_F11_034_F ATGGGCGTATAAATATTGCCTTTCTCAATGGGCGTATAAATATTGCCTTTCTCA 218218 rs57958958rs57958958 11_034_R11_034_R AGACACACTCCCTAAGGTGTTATATGAGACACACTCCCTAAGGTGTTATATG 219219 rs138278630rs138278630 11_059_F11_059_F TGGTGGGAGTGTAAATTAGTTCAACCATGGTGGGAGTGTAAATTAGTTCAACCA 220220 rs138278630rs138278630 11_059_R11_059_R TGGTTCTAGATCCTTGAGGAATCACCACTGGTTCTAGATCCTTGAGGAATCACCAC 221221 rs74933486rs74933486 11_084_F11_084_F CTACCAGCTCTTTGTGTGTCCTAGACTACCAGCTCTTTGTGTGTCCTAGA 222222 rs74933486rs74933486 11_084_R11_084_R TTCTTAGAACTTTCCATATGGCCATTGTTCTTAGAACTTTCCATATGGCCATTG 223223 rs35847449rs35847449 11_094_F11_094_F TTATGCTATAAATTAGCAAACCCAACACATCTTATGCTATAAATTAGCAAACCCAACACATC 224224 rs35847449rs35847449 11_094_R11_094_R GCAGTTCACCCTCTAAAACCATTCACTCGCAGTTCACCCTCTAAAACCATTCACTC 225225 rs143339028rs143339028 11_111_F11_111_F AGAGGGAGGAGTCGTGATTGTCTAGAGGGAGGAGTCGTGATTGTCT 226226 rs143339028rs143339028 11_111_R11_111_R CTGAGCAGGCTGCCGGAAACCTGAGCAGGCTGCCGGAAAC 227227 rs11394480rs11394480 11_135_F11_135_F AAGCCCTTGGCCATACATAAGGCTCAAGCCCTTGGCCATACATAAGGCTC 228228 rs11394480rs11394480 11_135_R11_135_R GGGAGTGGGAGAATGAGCTCTCCGGGAGTGGGAGAATGAGCTCTCC 229229 rs10533848rs10533848 12_013_F12_013_F GCCTTCTCTGCTCTCTTTTGTGGCCTTCTCTGCTCTCTTTTGTG 230230 rs10533848rs10533848 12_013_R12_013_R GCTATTATCCACTCTTGCAGATGAAGGCTATTATCCACTCTTGCAGATGAAG 231231 rs35955982rs35955982 12_024_F12_024_F TTCACTGCTTGTGTGGTCTTATATAATCAAAACTTCACTGCTTGTGTGGTCTTATATAATCAAAAC 232232 rs35955982rs35955982 12_024_R12_024_R AGTGTAGTCTACTCTGTTCATTTTACACCAGTGTAGTCTACTCTGTTCATTTTACACC 233233 rs10571534rs10571534 12_074_F12_074_F TCAAGAGGTAATCTGAARACAGGTCTTTCTCAAGAGGTAATCTGAARACAGGTCTTTC 234234 rs10571534rs10571534 12_074_R12_074_R ACTCAGYAGGCCTAGGTTGCTCACTCAGYAGGCCTAGGTTGCTC 235235 rs10689649rs10689649 12_090_F12_090_F CCCATTTATAAGCCAATGTTTCATTGTCCCCATTTATAAGCCAATGTTTCATTGTC 236236 rs10689649rs10689649 12_090_R12_090_R ACATCATTTAAATGGAGAGAGTAGCTGACATCATTTAAATGGAGAGAGTAGCTG 237237 rs150767158rs150767158 12_100_F12_100_F ATTGCTTTTTATGACACTACYCCTCATGCATTGCTTTTTATGACACTACYCCTCATGC 238238 rs150767158rs150767158 12_100_R12_100_R TGGGTCCAGACAAATCACAAGGGTTCTGGGTCCAGACAAATCACAAGGGTTC 239239 rs10706208rs10706208 12_128_F12_128_F ACCTGAAATTGATTCAAATGTGTCATGTGATCTTTCAAACACCTGAAATTGATTCAAATGTGTCATGTGATCTTTCAAAC 240240 rs10706208rs10706208 12_128_R12_128_R TGTCATATAACAGAATGTGACTTTGACTGTCATATAACAGAATGTGACTTTGAC 241241 rs142669819rs142669819 13_039_F13_039_F GGACTTCCTAAGATACACTTCGATTGGGACTTCCTAAGATACACTTCGATTG 242242 rs142669819rs142669819 13_039_R13_039_R ACTGGGTTGGAACATCCAAAACAATCACTGGGTTGGAACATCCAAAACAATC 243243 rs5803618rs5803618 13_053_F13_053_F TCAGATATATGGCTCGGTAGCCTCCCYGATCAGATATATGGCTCGGTAGCCTCCCYGA 244244 rs5803618rs5803618 13_053_R13_053_R TCAAACCTAATGCCTGTCTAAGTAGACTCAAACCTAATGCCTGTCTAAGTAGAC 245245 rs371764729rs371764729 13_069_F13_069_F ACCATCTCAYCCCADTTAGAATGGCGATCACCATCTCAYCCCADTTAGAATGGCGATC 246246 rs371764729rs371764729 13_069_R13_069_R TTCCTATTTCTCCACATCCTCTCCAGTTCCTATTTCTCCACATCCTCTCCAG 247247 rs67650090rs67650090 13_087_F13_087_F GTGACATTTCCTTGTCAAAAGAACATTATAGGTGACATTTCCTTGTCAAAAGAACATTATAG 248248 rs67650090rs67650090 13_087_R13_087_R CATTAGGTCATGGTAATTTTCCCTGAGCATTAGGTCATGGTAATTTTCCCTGAG 249249 rs55812371rs55812371 14_056_F14_056_F ACCTAGGGATGGAACTTTGGCTTATGACCTAGGGATGGAACTTTGGCTTATG 250250 rs55812371rs55812371 14_056_R14_056_R CACTATAGAAAACAGGCTTGTGGTTCCACTATAGAAAACAGGCTTGTGGTTC 251251 rs141061555rs141061555 14_091_F14_091_F GGAATTACAATTTATAAATGTAGGTCCACATGGGAATTACAATTTATAAATGTAGGTCCACATG 252252 rs141061555rs141061555 14_091_R14_091_R CCACACTCATTTGTGTATTTCTACACTGCCACACTCATTTGTGTATTTCTACACTG 253253 rs144457716rs144457716 15_046_F15_046_F TAYTGTGAAATTGAAGTTTAGAGTCAGTTTCVAAGTAYTGTGAAATTGAAGTTTAGAGTCAGTTTCVAAG 254254 rs144457716rs144457716 15_046_R15_046_R TCTGCTTGATAACTGTACAACTTTATAGTAAAATGTGAACTCTGCTTGATAACTGTACAACTTTATAGTAAAATGTGAAC 255255 rs112548522rs112548522 15_067_F15_067_F TCATCTCCTTGGGAAATGGCCTCATCTCCTTGGGAAATGGCC 256256 rs112548522rs112548522 15_067_R15_067_R GCACCAGGCTCATCCTATTCTTATTACGCACCAGGCTCATCCTATTCTTATTAC 257257 rs112792286rs112792286 15_087_F15_087_F GCAGCACCAGTTCTGTCTCCTACTAGTACCTTCAGGCAGCACCAGTTCTGTCTCCTACTAGTACCTTCAG 258258 rs112792286rs112792286 15_087_R15_087_R TTTGCACCAGCCTAATAGTTGGTCTTACAGTTTGCACCAGCCTAATAGTTGGTCTTACAG 259259 rs112880243rs112880243 15_097_F15_097_F AGAACACCATGCTTTCTGACAGCAGAACACCATGCTTTCTGACAGC 260260 rs112880243rs112880243 15_097_R15_097_R CCAGCTATGAAAAGCCAATTGCTGCCAGCTATGAAAAGCCAATTGCTG 261261 rs35379530rs35379530 16_000_F16_000_F ACTATGGGTTTATCAAGAATTCCAAGTTGACTATGGGTTTATCAAGAATTCCAAGTTG 262262 rs35379530rs35379530 16_000_R16_000_R GTCAAAGGAAGTTTCACTGTAGGGGTCAAAGGAAGTTTCACTGTAGGG 263263 rs34436424rs34436424 16_012 _F16_012 _F CTTAGAGTCATAGTTTACAAACATAAAACCATGCTTAGAGTCATAGTTTACAAACATAAAACCATG 264264 rs34436424rs34436424 16_012 _R16_012 _R GGCTTAGATATCTCAGACCTACCAATATCGGCTTAGATATCTCAGACCTACCAATATC 265265 rs3841767rs3841767 16_024_F16_024_F CCTTAGCTTGTATCACCCTTTATCATCTGCCTTAGCTTGTATCACCCTTTATCATCTG 266266 rs3841767rs3841767 16_024_R16_024_R AGAAAGAAGAAAGGAAGTCACACAGAGAAAGAAGAAAGGAAGTCACACAG 267267 rs35709162rs35709162 16_064_F16_064_F AGTGACSKACATTTGGCAAGAAGCCATGAGTGACSKACATTTGGCAAGAAGCCATG 268268 rs35709162rs35709162 16_064_R16_064_R AGAGAATTTATTGTCAyGCTTGTGCCAAAGCAGAGAATTTATTGTCAyGCTTGTGCCAAAGC 269269 rs34816330rs34816330 16_076_F16_076_F AGTGAGTCTGTTCAGGGTGCTACATTGCTGAGTGAGTCTGTTCAGGGTGCTACATTGCTG 270270 rs34816330rs34816330 16_076_R16_076_R GCATACAGAAGCCACTCrGAATACAATTTCAAGGCATACAGAAGCCACTCrGAATACAATTTCAAG 271271 rs11330085rs11330085 17_001_F17_001_F GTACCCCACATAGATAGCCGGAAGGGTACCCCACATAGATAGCCGGAAGG 272272 rs11330085rs11330085 17_001_R17_001_R TCCTTCCAGCGGTCTCTGTGGTCCTTCCAGCGGTCTCTGTGG 273273 rs5821134rs5821134 17_057_F17_057_F TCCCAAAGGAACCCCTATGACTTCCCAAAGGAACCCCTATGACT 274274 rs5821134rs5821134 17_057_R17_057_R CTCAGGAGCTAGCAGTGGGAGCTCAGGAGCTAGCAGTGGGAG 275275 rs141730340rs141730340 17_083_F17_083_F CTCCACTTTCCACTGATGCAGCTCCACTTTCCACTGATGCAG 276276 rs141730340rs141730340 17_083_R17_083_R GGGAGGGAGGGGTGCTCGGGATGGGAGGGAGGGGTGCTCGGGAT 277277 rs35023498rs35023498 18_001_F18_001_F CTTCATGAATGGTTTGGCACCHGTTCCTTGCTTCATGAATGGTTTGGCACCHGTTCCTTG 278278 rs35023498rs35023498 18_001_R18_001_R ACACACTTTTAAACAACAGATCTTGTGATAACACACACTTTTAAACAACAGATCTTGTGATAAC 279279 rs35452393rs35452393 18_030_F18_030_F AGCTTGACTAAAGTTTAGTCAACACAGCAAAGAGCTTGACTAAAGTTTAGTCAACACAGCAAAG 280280 rs35452393rs35452393 18_030_R18_030_R TTGTGATTGbCCAAGTGTTCACAACTTTGTGATTGbCCAAGTGTTCACAACT 281281 rs33990768rs33990768 18_051_F18_051_F ACATTCCTCCTGTGGRCTCTGCTGCATCACATTCCTCCTGTGGRCTCTGCTGCATC 282282 rs33990768rs33990768 18_051_R18_051_R AATTGTGATAGACAAATGCCTGGCAATTGTGATAGACAAATGCCTGGC 283283 rs66933419rs66933419 18_065_F18_065_F GCCACTCAATTTCTAGCCATTGCCTTAGGGCCACTCAATTTCTAGCCATTGCCTTAGG 284284 rs66933419rs66933419 18_065_R18_065_R CCTGAGACATTTGGGTGAAGGTTTGTGTCTACCCTGAGACATTTGGGTGAAGGTTTGTGTCTAC 285285 rs66502030rs66502030 18_075_F18_075_F ACAGCAAAGAGGAGAGAAAGAGCTGAACACAGCAAAGAGGAGAGAAAGAGCTGAAC 286286 rs66502030rs66502030 18_075_R18_075_R AACTACCCTGTTCTAGTCCCGCATCCAACTACCCTGTTCTAGTCCCGCATCC 287287 rs60503836rs60503836 19_002_F19_002_F GGCTCTGTCABCAGGCTGGAGTGCAATGGGGCTCTGTCABCAGGCTGGAGTGCAATGG 288288 rs60503836rs60503836 19_002_R19_002_R CTTGAACCCTGGAGACAGAGGTCGCAGCTTGAACCCTGGAGACAGAGGTCGCAG 289289 rs112906660rs112906660 19_015_F19_015_F GATTTTGTTATATGCAGGGTGTCCTGAAACCAGATTTTGTTATATGCAGGGTGTCCTGAAACCA 290290 rs112906660rs112906660 19_015_R19_015_R CTCTCACTTTTCTTCTTTATAGTAAGTCATTCCTCTCACTTTTCTTCTTTATAGTAAGTCATTC 291291 rs112877961rs112877961 19_029_F19_029_F CTACHGCAGGGAAAAGGGACTTAGCCGTAGGCTACHGCAGGGAAAAGGGACTTAGCCGTAGG 292292 rs112877961rs112877961 19_029_R19_029_R AGACATCTGCAAGAAMTTTCCAGCAGGCAGACATCTGCAAGAAMTTTCCAGCAGGC 293293 rs34242584rs34242584 19_044_F19_044_F GTAGTGGCTATTTYGTCYGTCAGCTCCTGTGTAGTGGCTATTTYGTCYGTCAGCTCCTGT 294294 rs34242584rs34242584 19_044_R19_044_R ACATTGAAACCCAATCCAAAGAAGCTAAGAATCACATTGAAACCCAATCCAAAGAAGCTAAGAATC 295295 rs79282333rs79282333 20_005_F20_005_F AAGACACAAAGTKTGGCTTCAGATAAAGAGCAAAGACACAAAGTKTGGCTTCAGATAAAGAGCA 296296 rs79282333rs79282333 20_005_R20_005_R TGCCAAGCTATCTTGTAAGAAATAACTACACTGCCAAGCTATCTTGTAAGAAATAACTACAC 297297 rs35894782rs35894782 20_020_F20_020_F GGATTTTATTGTCTCATATTCTTGAAGTGGGATTTTATTGTCTCATATTCTTGAAGTG 298298 rs35894782rs35894782 20_020_R20_020_R CAGTAGACAATGCCGAGAAAGAATAGCAGTAGACAATGCCGAGAAAGAATAG 299299 rs73622051rs73622051 20_039_F20_039_F TCTGATTCCAATCTAATACCATAGGGCTTCTGATTCCAATCTAATACCATAGGGCT 300300 rs73622051rs73622051 20_039_R20_039_R GGACTAAGCTTCTCATTGTTGCAGAGGGACTAAGCTTCTCATTGTTGCAGAG 301301 rs66555516rs66555516 20_058_F20_058_F TATTATGCCTTTTGTACCCGATGTTTGTATTATGCCTTTTGTACCCGATGTTTG 302302 rs66555516rs66555516 20_058_R20_058_R CCAGTTGGCAGCTGGGAGAGCAAAGCCAGTTGGCAGCTGGGAGAGCAAAG 303303 rs138066060rs138066060 21_010_F21_010_F TGGGGTGGAGGTGGGGCACAGCCTTGTTACTGGGGTGGAGGTGGGGCACAGCCTTGTTAC 304304 rs138066060rs138066060 21_010_R21_010_R AGGCCTACTATGAAACTGGAATCTTCACATACAGGCCTACTATGAAACTGGAATCTTCACATAC 305305 rs10583984rs10583984 21_038_F21_038_F GCTGAATCTACTGTTTGGAGCTTACAATAAGGCTGAATCTACTGTTTGGAGCTTACAATAAG 306306 rs10583984rs10583984 21_038_R21_038_R ACCATGTTATTCCAGCTACAATTCTGTG ACCATGTTATTCCAGCTACAATTCTGTG 307307 rs112408318rs112408318 21_042_F21_042_F CAGAAATGCATGCACAAGGCACTCCAGAAATGCATGCACAAGGCACTC 308308 rs112408318rs112408318 21_042_R21_042_R TTGCTATTGTAACTAATGTTGCTGAGGACTTGCTATTGTAACTAATGTTGCTGAGGAC 309309 rs60228580rs60228580 22_033_F22_033_F TTCCTCTTCCGTAGATGGGGATAAGAAGATCTACTTCCTCTTCCGTAGATGGGGATAAGAAGATCTAC 310310 rs60228580rs60228580 22_033_R22_033_R TTAAATCTGTGTCTTCATATAATCCTGTTGATTAAATCTGTGTCTTCATATAATCCTGTTGA 311311 rs67057410rs67057410 22_046_F22_046_F TTTGAGACAGAGTCTTGCTCTGTCACATTTGAGACAGAGTCTTGCTCTGTCACA 312312 rs67057410rs67057410 22_046_R22_046_R TGCACTGAGATTGCACCACTACACTGCACTGAGATTGCACCACTACAC 313313 rs35997669rs35997669 X_004_FX_004_F GCCATAAAAAAGAAAGAAATGCTGCCAGCCATAAAAAAGAAAGAAATGCTGCCA 314314 rs35997669rs35997669 X_004_RX_004_R CTTAGTCCAGTGTTCTCTAGGTTCACGCTTAGTCCAGTGTTCTCTAGGTTCACG 315315 rs57522085rs57522085 X_029_FX_029_F GGAAGTTGTCATTGGAACTTCTGCTGGGAAGTTGTCATTGGAACTTCTGCTG 316316 rs57522085rs57522085 X_029_RX_029_R GGGTTGAGAGTAAGGTATGAAAATTCTGGGGGTTGAGAGTAAGGTATGAAAATTCTGG 317317 rs202172626rs202172626 X_083_FX_083_F GCAATTTCCAATGTCAAATTAAAATTCTTCTAACGCAATTTCCAATGTCAAATTAAAATTCTTCTAAC 318318 rs202172626rs202172626 X_083_RX_083_R CTGTAAATAAGGAGTTTCATTATTTAGTGGCTGTAAATAAGGAGTTTCATTATTTAGTGG 319319 rs34991528rs34991528 X_095_FX_095_F AGTATGTTTTCAAATCAGGAATTGTGATGTAGTATGTTTTCAAATCAGGAATTGTGATGT 320320 rs34991528rs34991528 X_095_RX_095_R GCACAAAAGACCTGGTCAAGACAAACGCACAAAAGACCTGGTCAAGACAAAC 321321 rs35020323rs35020323 X_138_FX_138_F GAGTTTTGCAGAAGGTACAGCAACTGAGTTTTGCAGAAGGTACAGCAACT 322322 rs35020323rs35020323 X_138_RX_138_R TCAGTCTTGCATTTGAGAGACAATCTCAGTCTTGCATTTGAGAGACAATC 323323 rs10689407rs10689407 X_141_FX_141_F GACCAAATTCAGTATGCTGGGAGTGACCAAATTCAGTATGCTGGGAGT 324324 rs10689407rs10689407 X_141_RX_141_R GTAGCCTCCATTTTACCCTGTTCCGTAGCCTCCATTTTACCCTGTTCC

2) дополнительно, каждый обратный праймер с четным номером «Seq ID» (Seq ID NO:2, Seq ID NO:4… Seq ID NO:324), имеет со стороны 5'-конца универсальную олигонуклеотидную вставку, например 5'-TCATTGGATCTCATTA-3', или любую иную. Таким образом, каждый локус-специфичный обратный праймер имеет следующую последовательность: 5'-TCATTGGATCTCATTANNN…..NNN-3' , где “NNN…NNN” - его специфичная составляющая, а “TCATTGGATCTCATTA” - универсальная.2) additionally, each reverse primer with an even number "Seq ID" (Seq ID NO: 2, Seq ID NO: 4 ... Seq ID NO: 324) has a universal oligonucleotide insert from the 5'-end, for example 5'-TCATTGGATCTCATTA -3 ', or any other. Thus, each locus-specific reverse primer has the following sequence: 5'-TCATTGGATCTCATTANNN… ..NNN-3 ', where “NNN… NNN” is its specific component, and “TCATTGGATCTCATTA” is universal.

Локус-специфичные праймеры добавляют в количестве, обеспечивающем их конечную концентрацию от 1 нМ до 0,5 мкМ. Помимо приведенных праймеров, в реакционную смесь для амплификации вносят универсальный праймер, имеющий последовательность, идентичную универсальной вставке обратных праймеров, например, 5'-TCATTGGATCTCATTA-3'. В случае применения флуоресцентного маркирования, используют универсальный праймер с флуорофором (например Су5 или Су7) по 5'-концу. Концентрация универсального праймера должна составлять от 0,1 мкМ до 100 мкМ. Также, в реакционную смесь для амплификации входят следующие компоненты:Locus-specific primers are added in an amount to provide a final concentration of 1 nM to 0.5 μM. In addition to the above primers, a universal primer with a sequence identical to the universal insert of the reverse primers, for example, 5'-TCATTGGATCTCATTA-3 ', is added to the amplification reaction mixture. In the case of fluorescent labeling, use a universal primer with a fluorophore (eg Cy5 or Cy7) at the 5'-end. The concentration of the universal primer should be between 0.1 μM and 100 μM. Also, the following components are included in the amplification reaction mixture:

- смесь дезоксирибонуклеотидтрифосфатов четырех типов (dATP, dTTP, dGTP, dCTP);- a mixture of deoxyribonucleotide triphosphates of four types (dATP, dTTP, dGTP, dCTP);

- полимераза (Taq-, HotTaq-, или иная);- polymerase (Taq-, HotTaq-, or other);

- реакционный буфер, оптимизированный для работы соответствующей полимеразы, например: 70 mM Tris-HCl (pH 8.8 при 25°C); 17 mM (NH4)2SO4; 0.01% Tween-20. 2 ммоль MgCl2;- reaction buffer optimized for the corresponding polymerase, for example: 70 mM Tris-HCl (pH 8.8 at 25 ° C); 17 mM (NH 4 ) 2 SO 4 ; 0.01% Tween-20. 2 mmol MgCl 2 ;

- для флуоресцентного маркирования посредством встраивания флуоресцентно-меченых дезоксинуклеотидтрифосфатов в растущую цепь ПЦР-продукта, в реакционную смесь вносят соответствующий меченый дезоксинуклеотидтрифосфат в концентрации, обеспечивающей эффективное мечение (например, 0,05 мМ дУТФ-Су5). Флуоресцентное маркирование может осуществляться как одним из способов, так и их сочетанием.- for fluorescent labeling by incorporating fluorescently labeled deoxynucleotide triphosphates into the growing chain of the PCR product, the corresponding labeled deoxynucleotide triphosphate is added to the reaction mixture at a concentration that provides effective labeling (for example, 0.05 mM dUTP-Cy5). Fluorescent marking can be carried out either by one of the methods or by their combination.

Подготовленная смесь для амплификации также должна содержать исследуемую ДНК в количестве не менее 1 пкг. В качестве исследуемого образца могут быть использованы образцы ДНК, выделенные из любого биологического материала, содержащего геномную ДНК (кровь, слюна, волосяная луковица, потожировые следы, сперма, мазки со слизистой и бругие). Максимальное количество вносимой ДНК регламентируется лишь вязкостью ее раствора: при очень высоких концентрациях (более 1 мкг/мкл) возрастает вязкость раствора, что затрудняет его перенесение микродозатором. В этом случае рекомендуется разбавить раствор. Внесение компонентов в смесь для амплификации может происходить в любом порядке.The prepared mixture for amplification must also contain the analyzed DNA in an amount of at least 1 pcg. As a test sample, DNA samples isolated from any biological material containing genomic DNA (blood, saliva, hair follicle, sweat traces, sperm, mucous smears and swabs) can be used. The maximum amount of introduced DNA is regulated only by the viscosity of its solution: at very high concentrations (more than 1 μg / μL), the viscosity of the solution increases, which makes it difficult to transfer it with a microdispenser. In this case, it is recommended to dilute the solution. The addition of components to the amplification mixture can take place in any order.

Амплификацию следует проводить в пробирках, стрипах, планшетах или иных емкостях, предназначенных для этой цели. После приготовления, смесь для амплификации помещают в прибор (амплификатор), обеспечивающий циклическую смену температур по заданной программе, например:Amplification should be carried out in tubes, strips, plates or other containers intended for this purpose. After preparation, the mixture for amplification is placed in a device (amplifier), which provides a cyclic change in temperatures according to a given program, for example:

No. ТемператураTemperature ВремяTime Количество цикловThe number of cycles 1one 95°С95 ° C 1 мин1 minute 1one 22 95°С95 ° C 30 сек30 sec 50fifty 33 64°С64 ° C 60 сек60 sec 44 72°С72 ° C 20 сек20 sec 55 95°С95 ° C 20 сек20 sec 50fifty 66 50°С50 ° C 10 сек10 sec 77 72°С72 ° C 30 сек30 sec 88 72°С72 ° C 5 мин5 minutes 1one

Амплификатор должен быть снабжен крышкой, нагреваемой до температуры, исключающей скопление конденсата в верхней части пробирки (стрипа, планшета), обычно 100-110°С. Если используется прибор, не имеющий нагревающейся крышки, то при приготовлении смеси реагентов, в нее необходимо добавить минеральное масло для исключения испарения водной части смеси.The amplifier should be equipped with a lid heated to a temperature excluding the accumulation of condensate in the upper part of the tube (strip, plate), usually 100-110 ° C. If a device is used without a heated lid, then when preparing a mixture of reagents, it is necessary to add mineral oil to it to prevent evaporation of the aqueous part of the mixture.

В ходе температурного циклирования на первом этапе (№2-4) происходит симметричная амплификация всех входящих в набор локусов. Универсальный праймер имеет меньшую температуру отжига, чем локус-специфичные праймеры, поэтому на этой стадии он не участвует в реакции. Задача первой стадии - максимально эффективно амплифицировать локус в виде двуцепочечного фрагмента. Т.к. гибридизационный анализ требует присутствия одной цепи, комплементарной иммобилизованному ДНК-зонду (а в результате симметричной ПЦР первого этапа обе цепи связаны друг с другом), требуется стадия асимметричной амплификации. Это происходит на втором этапе: вследствие понижения температуры отжига, в реакцию вступает универсальный праймер. Т.к. он берется в существенно большей концентрации, чем локус-специфичные праймеры, на второй стадии происходит асимметричный синтез той цепи, которая комплементарна соответствующему ДНК-зонду. В итоге такой амплификации образуется смесь преимущественно одноцепочечных меченых ампликонов.In the course of temperature cycling at the first stage (No. 2-4), symmetric amplification of all loci included in the set occurs. The universal primer has a lower annealing temperature than the locus-specific primers; therefore, it does not participate in the reaction at this stage. The task of the first stage is to amplify the locus in the form of a double-stranded fragment as efficiently as possible. Because hybridization analysis requires the presence of one strand complementary to the immobilized DNA probe (and as a result of the symmetric PCR of the first stage, both strands are linked to each other), an asymmetric amplification step is required. This occurs at the second stage: due to a decrease in the annealing temperature, a universal primer enters into the reaction. Because it is taken in a significantly higher concentration than locus-specific primers; in the second stage, asymmetric synthesis of the strand that is complementary to the corresponding DNA probe occurs. As a result of this amplification, a mixture of predominantly single-stranded labeled amplicons is formed.

Разработанные нами зонды для генотипирования предлагаемой в данном изобретении панели InDel-маркеров приведены в Таблице 2 и перечне SEQ ID N0: 325-SEQ ID N0: 648.Probes developed by us for genotyping the panel of InDel markers according to the present invention are shown in Table 2 and listing SEQ ID NO: 325-SEQ ID NO: 648.

Таблица 2. Аллель-специфичные ДНК-зонды для гибридизацииTable 2. Allele-specific DNA probes for hybridization

SEQ ID NO:SEQ ID NO: Номер полиморфизмаPolymorphism number НазваниеName Последовательность 5’-3’Sequence 5'-3 ' 325325 rs3059749rs3059749 01_007_I01_007_I CAAAACTAAATGAAAGATAATCCAAAACTAAATGAAAGATAATC 326326 rs3059749rs3059749 01_007_D01_007_D GCAAAACTAAAAAAGATAATCTGCAAAACTAAAAAAGATAATCT 327327 rs34338895rs34338895 01_031_I01_031_I GTTAGGACGTGTGRTCTTGGTTAGGACGTGTGRTCTTG 328328 rs34338895rs34338895 01_031_D01_031_D GTTAGGACTGTGRTCTTGTGGTTAGGACTGTGRTCTTGTG 329329 rs67091803rs67091803 01_041_I01_041_I CCTTCATTTCCTCAACTGTGCCTTCATTTCCTCAACTGTG 330330 rs67091803rs67091803 01_041_D01_041_D CCTTCATTTCAACTGTGCACCTTCATTTCAACTGTGCA 331331 rs5774423rs5774423 01_059_I01_059_I CTAAGCAAATACTTAGTTCCCCTAAGCAAATACTTAGTTCCC 332332 rs5774423rs5774423 01_059_D01_059_D ACTAAGCAAATAGTTCCCTTCACTAAGCAAATAGTTCCCTTC 333333 rs113565562rs113565562 01_083_I01_083_I TCACTTGTCACACTATGTGTCACTTGTCACACTATGTG 334334 rs113565562rs113565562 01_083_D01_083_D TTTCACTTGTCACTATGTGTTTCACTTGTCACTATGTG 335335 rs111706466rs111706466 01_101_I01_101_I CATTTCTCTAAGTAATCAGCATTTCTCTAAGTAATCAG 336336 rs111706466rs111706466 01_101_D01_101_D GACATTTCTCTAATCAGAAGACATTTCTCTAATCAGAA 337337 rs11394524rs11394524 01_119_I01_119_I TCAATCATGGGGTAAATGGATCAATCATGGGGTAAATGGA 338338 rs11394524rs11394524 01_119_D01_119_D ATCAATCATGGGTAAATGGAATCAATCATGGGTAAATGGA 339339 rs72082809rs72082809 01_154_I01_154_I GTGGGATTGTAAGTAAGAGCGTGGGATTGTAAGTAAGAGC 340340 rs72082809rs72082809 01_154_D01_154_D AGTGGGATTGTAAGAGCTGAGTGGGATTGTAAGAGCTG 341341 rs35379245rs35379245 01_170_I01_170_I GAGACTCAGAGATGTTAGAGACTCAGAGATGTTA 342342 rs35379245rs35379245 01_170_D01_170_D CTGAGACTCAGATGTTAACTGAGACTCAGATGTTAA 343343 rs71107464rs71107464 01_192_I01_192_I GTGGTTCAAATAATCTATTCCGTGGTTCAAATAATCTATTCC 344344 rs71107464rs71107464 01_192_D01_192_D GTGGTTCAAATCTATTCCTGGTGGTTCAAATCTATTCCTG 345345 rs66944170rs66944170 01_208_I01_208_I ATTTCAGTTTTCTTCGAGATCATTTCAGTTTTCTTCGAGATC 346346 rs66944170rs66944170 01_208_D01_208_D TTTTCCTCTTATCAAATCTGGTTTTCCTCTTATCAAATCTGG 347347 rs35126101rs35126101 01_223_I01_223_I GAAAGACACTGTGAAGGAGGAAAGACACTGTGAAGGAG 348348 rs35126101rs35126101 01_223_D01_223_D GGAAAGACACTGAAGGAGGGGAAAGACACTGAAGGAGG 349349 rs35994297rs35994297 01_233_I01_233_I ATTGTACTTCTTTATTTCCAGATTGTACTTCTTTATTTCCAG 350350 rs35994297rs35994297 01_233_D01_233_D GAAATTGTACTTATTTCCAGAGAAATTGTACTTATTTCCAGA 351351 rs34450453rs34450453 01_240_I01_240_I CATATTTAAATTGGTTGGTTAAGCATATTTAAATTGGTTGGTTAAG 352352 rs34450453rs34450453 01_240_D01_240_D GCATATTTAAATTGGTTAAGAGCGCATATTTAAATTGGTTAAGAGC 353353 rs10693974rs10693974 02_011_I02_011_I ACCAGGAACTCTGGCCCTACCAGGAACTCTGGCCCT 354354 rs10693974rs10693974 02_011_D02_011_D CACCAGGATGGCCCTGTTCACCAGGATGGCCCTGTT 355355 rs66610049rs66610049 02_036_I02_036_I TTCAGAACTGTCTCTGGCATTCAGAACTGTCTCTGGCA 356356 rs66610049rs66610049 02_036_D02_036_D CTTTCAGAACTCTGGCAATCTTTCAGAACTCTGGCAAT 357357 rs68130608rs68130608 02_042_I02_042_I ACACATGCATAATAACCCTACACATGCATAATAACCCT 358358 rs68130608rs68130608 02_042_D02_042_D CAACACATGCATAACCCTTCAACACATGCATAACCCTT 359359 rs11424237rs11424237 02_061_I02_061_I CAAATTCCTCCCCATCACAAATTCCTCCCCATCA 360360 rs11424237rs11424237 02_061_D02_061_D CAAATTCCTCCCATCATCAAATTCCTCCCATCAT 361361 rs72339906rs72339906 02_080_I02_080_I CTGCAGACAGAGCATGTCCTGCAGACAGAGCATGTC 362362 rs72339906rs72339906 02_080_D02_080_D CTGCAGACAGCATGTCCTCTGCAGACAGCATGTCCT 363363 rs5832955rs5832955 02_101_I02_101_I GCTAATTAGGGAACCTTGCGCTAATTAGGGAACCTTGC 364364 rs5832955rs5832955 02_101_D02_101_D AGCTAATTAGGAACCTTGCAGCTAATTAGGAACCTTGC 365365 rs5833488rs5833488 02_113_I02_113_I TATGAAGTAGGTGAAGGATATGAAGTAGGTGAAGGA 366366 rs5833488rs5833488 02_113_D02_113_D CTATGAAGTAGTGAAGGAGCTATGAAGTAGTGAAGGAG 367367 rs77093320rs77093320 02_150_I02_150_I AAGCACCGCCAGAGCTCTAAGCACCGCCAGAGCTCT 368368 rs77093320rs77093320 02_150_D02_150_D GATTGGAAGTCTGAGGACTGATTGGAAGTCTGAGGACT 369369 rs111665673rs111665673 02_215_I02_215_I GTATCATAAAGAGAAAGGGCGTATCATAAAGAGAAAGGGC 370370 rs111665673rs111665673 02_215_D02_215_D TGTATCATAAAAAGGGCATGTGTATCATAAAAAGGGCATG 371371 rs57993635rs57993635 02_231_I02_231_I CAAAGAAAGCCTGTTCCTACAAAGAAAGCCTGTTCCTA 372372 rs57993635rs57993635 02_231_D02_231_D ACAAAGAAAGCTGTTCCTAGACAAAGAAAGCTGTTCCTAG 373373 rs35926392rs35926392 03_016_I03_016_I TGAGTCTTGCGCTGACCTGAGTCTTGCGCTGACC 374374 rs35926392rs35926392 03_016_D03_016_D GTGAGTCTTGCTGACCCGTGAGTCTTGCTGACCC 375375 rs139738417rs139738417 03_030_I03_030_I CTGCACATAAGCCATAATCTGCACATAAGCCATAAT 376376 rs139738417rs139738417 03_030_D03_030_D TACCTGCACATAATTTCATACCTGCACATAATTTCA 377377 rs66976303rs66976303 03_063_I03_063_I GAACCAGCGTGATGTAATAGGAACCAGCGTGATGTAATAG 378378 rs66976303rs66976303 03_063_D03_063_D GAATGAAGAAAGGGAATGAGGAATGAAGAAAGGGAATGAG 379379 rs57495895rs57495895 03_082_I03_082_I ATAGGTACTGGATTCACAGCATAGGTACTGGATTCACAGC 380380 rs57495895rs57495895 03_082_D03_082_D CATAGGTACTGATTCACAGCCATAGGTACTGATTCACAGC 381381 rs35291341rs35291341 03_100_I03_100_I AGATCCCCCTGTTTTCAGAGATCCCCCTGTTTTCAG 382382 rs35291341rs35291341 03_100_D03_100_D AGATCCCCGTTTTCAGTCAGATCCCCGTTTTCAGTC 383383 rs35464243rs35464243 03_107_I03_107_I TAAACTTCACCAAGTACTCTTTAAACTTCACCAAGTACTCTT 384384 rs35464243rs35464243 03_107_D03_107_D CATAAACTTCAAGTACTCTTTCCATAAACTTCAAGTACTCTTTC 385385 rs10540628rs10540628 03_124_I03_124_I CTGTGGAAACACAGAGTAACTGTGGAAACACAGAGTAA 386386 rs10540628rs10540628 03_124_D03_124_D TCTGTGGAAACAGAGTAATTCTGTGGAAACAGAGTAAT 387387 rs35588182rs35588182 03_162_I03_162_I TGGTGTGATCTCGGCTCATGGTGTGATCTCGGCTCA 388388 rs35588182rs35588182 03_162_D03_162_D TGGTGTGATCGGCTCACTTGGTGTGATCGGCTCACT 389389 rs150470881rs150470881 03_182_I03_182_I AGTTTCAGACAGGAATGGTAGTTTCAGACAGGAATGGT 390390 rs150470881rs150470881 03_182_D03_182_D TAGTTTCAGAAGGAATGGTTAGTTTCAGAAGGAATGGT 391391 rs75445531rs75445531 03_194_I03_194_I ATGCCTCCTTCTTCTGTAACATGCCTCCTTCTTCTGTAAC 392392 rs75445531rs75445531 03_194_D03_194_D GATGCCTCCTTCTGTAACAGATGCCTCCTTCTGTAACA 393393 rs3834231rs3834231 04_008_I04_008_I CCCCAGCTAGGTAGGACTCCCCAGCTAGGTAGGACT 394394 rs3834231rs3834231 04_008_D04_008_D CCCAGCTAGGACTAGCACCCCAGCTAGGACTAGCAC 395395 rs59170274rs59170274 04_027_I04_027_I TCACTAAAACTTATTCTTGTCACTAAAACTTATTCTTG 396396 rs59170274rs59170274 04_027_D04_027_D TCACTAAAATTATTCTTGCTCACTAAAATTATTCTTGC 397397 rs34184705rs34184705 04_045_I04_045_I GGCCATGGGGCATTCTTGGCCATGGGGCATTCTT 398398 rs34184705rs34184705 04_045_D04_045_D GGCCATGGGCATTCTTGGGCCATGGGCATTCTTG 399399 rs56281469rs56281469 04_056_I04_056_I ATTGCACACTCTGGGTAAGATTGCACACTCTGGGTAAG 400400 rs56281469rs56281469 04_056_D04_056_D ATTGCACACTGGGTAAGAGATTGCACACTGGGTAAGAG 401401 rs10707593rs10707593 04_065_I04_065_I TGACTACTCAATTGCATTGACTACTCAATTGCAT 402402 rs10707593rs10707593 04_065_D04_065_D GTGACTACTAATTGCATGTGACTACTAATTGCAT 403403 rs35932180rs35932180 04_085_I04_085_I CCAGTCACTCTGTACCAGCCAGTCACTCTGTACCAG 404404 rs35932180rs35932180 04_085_D04_085_D CCCAGTCACTGTACCAGGCCCAGTCACTGTACCAGG 405405 rs72273695rs72273695 04_112_I04_112_I TATACATCTGCATTGATTGGATATACATCTGCATTGATTGGA 406406 rs72273695rs72273695 04_112_D04_112_D GCACAAATATACATTGGATATTCGCACAAATATACATTGGATATTC 407407 rs70938781rs70938781 04_137_I04_137_I CCCTACCTTGTAGCTGACCCCTACCTTGTAGCTGAC 408408 rs70938781rs70938781 04_137_D04_137_D GTACCTATCCGACAACCTGGTACCTATCCGACAACCTG 409409 rs34581182rs34581182 04_154_I04_154_I GTGACTTCCTATAAAAACTGTGACTTCCTATAAAAACT 410410 rs34581182rs34581182 04_154_D04_154_D AGTGACTTCCTAAAAACTCAGTGACTTCCTAAAAACTC 411411 rs3067059rs3067059 04_177_I04_177_I TTCAACTTGACTTGTGTAACTTCAACTTGACTTGTGTAAC 412412 rs3067059rs3067059 04_177_D04_177_D GAATTTCAACTTGTGTAACTTGAATTTCAACTTGTGTAACTT 413413 rs61235135rs61235135 05_003_I05_003_I TCTTGCCTCCTTTATTTCCTCTTGCCTCCTTTATTTCC 414414 rs61235135rs61235135 05_003_D05_003_D GTCTTGCCTCTTTATTTCCTGTCTTGCCTCTTTATTTCCT 415415 rs113132739rs113132739 05_013_I05_013_I CATATCTTCACAAGACAAAGGCATATCTTCACAAGACAAAGG 416416 rs113132739rs113132739 05_013_D05_013_D GAAAATCATATCAAAGGGAGAGAAAATCATATCAAAGGGAGA 417417 rs142490175rs142490175 05_065_I05_065_I CATGTAATGAAAGGAATAAATCCCATGTAATGAAAGGAATAAATCC 418418 rs142490175rs142490175 05_065_D05_065_D AAAACATGTAATGAATAAATCCATAAAACATGTAATGAATAAATCCAT 419419 rs572636473rs572636473 05_074_I05_074_I CCACCTTCCCCTCCCCTCCACCTTCCCCTCCCCT 420420 rs572636473rs572636473 05_074_D05_074_D TTTCCACCTTCCCCTTTTTTTTTCCACCTTCCCCTTTTTT 421421 rs138124389rs138124389 05_087_I05_087_I ATAGACACTGCAGACTACTAGATAGACACTGCAGACTACTAG 422422 rs138124389rs138124389 05_087_D05_087_D GAAAAAAATAGAGAGGGGAGAGAAAAAAATAGAGAGGGGAGA 423423 rs34990478rs34990478 05_096_I05_096_I CAGCAGCATCATGAGATTTCAGCAGCATCATGAGATTT 424424 rs34990478rs34990478 05_096_D05_096_D GCAGCAGCATGAGATTTCGCAGCAGCATGAGATTTC 425425 rs6149192rs6149192 05_115_I05_115_I TGAGACCCTAAACAGAGGATGAGACCCTAAACAGAGGA 426426 rs6149192rs6149192 05_115_D05_115_D CTTGTGAGACCCAGTTAAGCTTGTGAGACCCAGTTAAG 427427 rs145918302rs145918302 05_119_I05_119_I ATAGGGGAACATCTAGATAACATAGGGGAACATCTAGATAAC 428428 rs145918302rs145918302 05_119_D05_119_D GCTCATAGGGGATCTAGATAACAGCTCATAGGGGATCTAGATAACA 429429 rs66881681rs66881681 05_132_I05_132_I AGCAGAACAGGAGACTAGGAGCAGAACAGGAGACTAGG 430430 rs66881681rs66881681 05_132_D05_132_D AGCAGAACAGACTAGGTTGAGCAGAACAGACTAGGTTG 431431 rs10701589rs10701589 05_141_I05_141_I CCACTCTGATTGGTTTCCGCCACTCTGATTGGTTTCCG 432432 rs10701589rs10701589 05_141_D05_141_D CTTCCACTCTGGTTTCCGCTTCCACTCTGGTTTCCG 433433 rs3832355rs3832355 05_151_I05_151_I GTGCTCTTACTCAGTTAATGAGTGCTCTTACTCAGTTAATGA 434434 rs3832355rs3832355 05_151_D05_151_D AGGTGCTCTTAGTTAATGATGAGGTGCTCTTAGTTAATGATG 435435 rs10560231rs10560231 05_180_I05_180_I CACTAGGTCAATGATAACTTAGCACTAGGTCAATGATAACTTAG 436436 rs10560231rs10560231 05_180_D05_180_D CACTAGGTCAATAACTTAGTACCACTAGGTCAATAACTTAGTAC 437437 rs35948562rs35948562 06_007_I06_007_I CATTGTAACTCAGTTTTCCCCATTGTAACTCAGTTTTCCC 438438 rs35948562rs35948562 06_007_D06_007_D CATTGTAACTGTTTTCCCTCCATTGTAACTGTTTTCCCTC 439439 rs56071028rs56071028 06_016_I06_016_I TCAGGTAGCAGAGAAGGGTCAGGTAGCAGAGAAGGG 440440 rs56071028rs56071028 06_016_D06_016_D TTCAGGTAGAGAGAAGGGATTCAGGTAGAGAGAAGGGA 441441 rs10529292rs10529292 06_031_I06_031_I TCRAAAGCACAGCCAGAGATCRAAAGCACAGCCAGAGA 442442 rs10529292rs10529292 06_031_D06_031_D TTTCRAAAGCGCCAGAGACTTTCRAAAGCGCCAGAGAC 443443 rs376539574rs376539574 06_057_I06_057_I TATAAATCATTATTTTAACAGGTATAAATCATTATTTTAACAGG 444444 rs376539574rs376539574 06_057_D06_057_D GATTATAAATCATTTAACAGGGATTATAAATCATTTAACAGG 445445 rs68133212rs68133212 06_071_I06_071_I GTTCCTCATCTTTCATGGTGTTCCTCATCTTTCATGGT 446446 rs68133212rs68133212 06_071_D06_071_D CTGTTCCTCATTCATGGTTCTGTTCCTCATTCATGGTT 447447 rs139823267rs139823267 06_077_I06_077_I CAGACTCAGTTCATGAACTCCAGACTCAGTTCATGAACTC 448448 rs139823267rs139823267 06_077_D06_077_D TCAGTTCAGACTCCACTGACTCAGTTCAGACTCCACTGAC 449449 rs144273778rs144273778 06_087_I06_087_I GCAGTTAGAAGGAACACTCGCAGTTAGAAGGAACACTC 450450 rs144273778rs144273778 06_087_D06_087_D TGCTGTATGCTGCTATTTGTGCTGTATGCTGCTATTTG 451451 rs56343259rs56343259 06_096_I06_096_I TGAATGCCCGCCCACTCTGAATGCCCGCCCACTC 452452 rs56343259rs56343259 06_096_D06_096_D CACTGAATGCCCACTCACACTGAATGCCCACTCA 453453 rs573860910rs573860910 06_113_I06_113_I GTGTGAGATGGGTATCTCAGTGTGAGATGGGTATCTCA 454454 rs573860910rs573860910 06_113_D06_113_D GTGTGAGATGGTATCTCATGTGTGAGATGGTATCTCAT 455455 rs141141409rs141141409 06_125_I06_125_I ACATGTCAGTTGTTTCTTAAATACATGTCAGTTGTTTCTTAAAT 456456 rs141141409rs141141409 06_125_D06_125_D ATTACATGTCAGTTTCTTAAATAAATTACATGTCAGTTTCTTAAATAA 457457 rs71675135rs71675135 06_135_I06_135_I CAGGGGAATGAATGATTTTGCAGGGGAATGAATGATTTTG 458458 rs71675135rs71675135 06_135_D06_135_D GTCAGGGGAATGATTTTGAGTCAGGGGAATGATTTTGA 459459 rs140327598rs140327598 06_143_I06_143_I CAACATTGAACAAAGTCCTTGCAACATTGAACAAAGTCCTTG 460460 rs140327598rs140327598 06_143_D06_143_D TATACAACATTGTCCTCATGGTATACAACATTGTCCTCATGG 461461 rs68078431rs68078431 06_153_I06_153_I ATTTCCCCAATTTGATAATTTTTATTTCCCCAATTTGATAATTTTT 462462 rs68078431rs68078431 06_153_D06_153_D TTGAATATTTCTTTTTTGTTCAGTTGAATATTTCTTTTTTGTTCAG 463463 rs11278298rs11278298 06_158_I06_158_I GCTTTCATTCAGTCAGTCTCGCTTTCATTCAGTCAGTCTC 464464 rs11278298rs11278298 06_158_D06_158_D AACTATGCTTTCAGTCTCTGAACTATGCTTTCAGTCTCTG 465465 rs566489451rs566489451 06_167_I06_167_I GCTGATAACATTCATTCATTCGCTGATAACATTCATTCATTC 466466 rs566489451rs566489451 06_167_D06_167_D GGCTGATAACATATTCATTCAGGCTGATAACATATTCATTCA 467467 rs35345873rs35345873 07_010_I07_010_I CAATCAATGGGTGGAACTGCAATCAATGGGTGGAACTG 468468 rs35345873rs35345873 07_010_D07_010_D CAATCAATGGTGGAACTGGCAATCAATGGTGGAACTGG 469469 rs71552214rs71552214 07_023_I07_023_I GATTTTGCCTGATAACCTTCGATTTTGCCTGATAACCTTC 470470 rs71552214rs71552214 07_023_D07_023_D TGCTGCTGATTTCTTCTCTTTGCTGCTGATTTCTTCTCTT 471471 rs34786735rs34786735 07_040_I07_040_I TGAGAAAAGCCCGTGAATGTGAGAAAAGCCCGTGAATG 472472 rs34786735rs34786735 07_040_D07_040_D TGAGAAAAGCCGTGAATGTTGAGAAAAGCCGTGAATGT 473473 rs377131771rs377131771 07_062_I07_062_I CCATTCGATGACGATTCCACCATTCGATGACGATTCCA 474474 rs377131771rs377131771 07_062_D07_062_D CATTCAATTCCATCCGATAATACATTCAATTCCATCCGATAATA 475475 rs1610906rs1610906 07_082_I07_082_I CATGATGGTATTATGATCTAGTCATGATGGTATTATGATCTAGT 476476 rs1610906rs1610906 07_082_D07_082_D CATGATGGTATGATCTAGTATGCATGATGGTATGATCTAGTATG 477477 rs112677752rs112677752 07_097_I07_097_I CAGTTAATGTATTTGGTTTCACCAGTTAATGTATTTGGTTTCAC 478478 rs112677752rs112677752 07_097_D07_097_D CAGTTAATGTTTCACCTGCCAGTTAATGTTTCACCTGC 479479 rs35830730rs35830730 07_112_I07_112_I CTGAGGCAGGAGAATCACCTGAGGCAGGAGAATCAC 480480 rs35830730rs35830730 07_112_D07_112_D GCTGAGGCAGAGAATCACGCTGAGGCAGAGAATCAC 481481 rs3216282rs3216282 07_126_I07_126_I ATTAACTCAGATAGCCCTAAGATTAACTCAGATAGCCCTAAG 482482 rs3216282rs3216282 07_126_D07_126_D ATTAACTCAGCCCTAAGAAGATTAACTCAGCCCTAAGAAG 483483 rs35575707rs35575707 07_140_I07_140_I TATTTGGCAGAGTCTTTTGTTATTTGGCAGAGTCTTTTGT 484484 rs35575707rs35575707 07_140_D07_140_D ATATTTGGCAGTCTTTTGTTTATATTTGGCAGTCTTTTGTTT 485485 rs71520104rs71520104 07_153_I07_153_I CTTATTTTCTGTACAGTGTTTTCACCTTATTTTCTGTACAGTGTTTTCAC 486486 rs71520104rs71520104 07_153_D07_153_D CTTATTTTCACTACGGTCACCTTATTTTCACTACGGTCAC 487487 rs35146459rs35146459 08_002_I08_002_I TGTCTTTGAGGTTTCCTCCTGTCTTTGAGGTTTCCTCC 488488 rs35146459rs35146459 08_002_D08_002_D TGTCTTTGAGTTTCCTCCCTGTCTTTGAGTTTCCTCCC 489489 rs36048750rs36048750 08_013_I08_013_I CATTAGTTTTCCCCATTTTACTCATTAGTTTTCCCCATTTTACT 490490 rs36048750rs36048750 08_013_D08_013_D ACATTAGTTTTCCCATTTTACTTACATTAGTTTTCCCATTTTACTT 491491 rs34168882rs34168882 08_033_I08_033_I AGCTTCCTCAGGTAAAATATTTAGCTTCCTCAGGTAAAATATTT 492492 rs34168882rs34168882 08_033_D08_033_D GGAAAGCTTCCTCAGTAAAATATTGGAAAGCTTCCTCAGTAAAATATT 493493 rs35604660rs35604660 08_058_I08_058_I TCGTACAAAGTGTCTACACTACATCGTACAAAGTGTCTACACTACA 494494 rs35604660rs35604660 08_058_D08_058_D TCTCGTACAAAGTCTACACTACATCTCGTACAAAGTCTACACTACA 495495 rs34067160rs34067160 08_064_I08_064_I GCTAAACCCAAAATATGAGTGGCTAAACCCAAAATATGAGTG 496496 rs34067160rs34067160 08_064_D08_064_D GCTAAACCCAATATGAGTGTGCTAAACCCAATATGAGTGT 497497 rs138172268rs138172268 08_082_I08_082_I GACACTCTGTGTATCTAGCTGACACTCTGTGTATCTAGCT 498498 rs138172268rs138172268 08_082_D08_082_D CGACACTCTGTATCTAGCTCGACACTCTGTATCTAGCT 499499 rs35679778rs35679778 08_103_I08_103_I ACAGTGGACTGTGGGGGTACAGTGGACTGTGGGGGT 500500 rs35679778rs35679778 08_103_D08_103_D ACAGTGGATGTGGGGGTGACAGTGGATGTGGGGGTG 501501 rs11323264rs11323264 08_125_I08_125_I CTCTGTGCAGGCACAGGTCTCTGTGCAGGCACAGGT 502502 rs11323264rs11323264 08_125_D08_125_D CCTCTGTGCAGCACAGGTCCTCTGTGCAGCACAGGT 503503 rs6150855rs6150855 08_139_I08_139_I CAAAGGCTGAGCAGATGCCAAAGGCTGAGCAGATGC 504504 rs6150855rs6150855 08_139_D08_139_D CCTCGCAAATGCCGGCTCCTCGCAAATGCCGGCT 505505 rs147918543rs147918543 09_000_I09_000_I ACTTTTCTTTTCTCTGAATTTATATAGACTTTTCTTTTCTCTGAATTTATATAG 506506 rs147918543rs147918543 09_000_D09_000_D CACTTTTCTTTTCTTGAATTTATATAGCACTTTTCTTTTCTTGAATTTATATAG 507507 rs66509579rs66509579 09_021_I09_021_I CAGAAAATGATCATGATGCACACAGAAAATGATCATGATGCACA 508508 rs66509579rs66509579 09_021_D09_021_D TAGCAGAAAATGATGCACATTTTAGCAGAAAATGATGCACATTT 509509 rs371766957rs371766957 09_064_I09_064_I AGTCTATTGGAAATGTGCTACAGTCTATTGGAAATGTGCTAC 510510 rs371766957rs371766957 09_064_D09_064_D CTAAGTCTATTCTGTGCTACTGCTAAGTCTATTCTGTGCTACTG 511511 rs71493646rs71493646 09_072_I09_072_I ATGTGCTCCTCTCAACATCATGTGCTCCTCTCAACATC 512512 rs71493646rs71493646 09_072_D09_072_D CATCTATGTGCTCAACATCCCATCTATGTGCTCAACATCC 513513 rs34499887rs34499887 09_084_I09_084_I CAAAAATGGCAGTAGTGGGTCACAAAAATGGCAGTAGTGGGTCA 514514 rs34499887rs34499887 09_084_D09_084_D AAAATGGCATAGTGGGTCAGGAAAATGGCATAGTGGGTCAGG 515515 rs59923204rs59923204 09_109_I09_109_I GTCTCAGCTCCTCCATTTGTGTCTCAGCTCCTCCATTTGT 516516 rs59923204rs59923204 09_109_D09_109_D GTCTCAGCTCTCCATTTGTGTCTCAGCTCTCCATTTGT 517517 rs55952736rs55952736 09_117_I09_117_I ATTCAGTTATAGCAACAGAAAATTCAGTTATAGCAACAGAAA 518518 rs55952736rs55952736 09_117_D09_117_D TATTCAGTTAAACAGAAAACAGTATTCAGTTAAACAGAAAACAG 519519 rs71953876rs71953876 09_132_I09_132_I AAGCCTCCACCCACCTTGAAGCCTCCACCCACCTTG 520520 rs71953876rs71953876 09_132_D09_132_D AAAGCCTCCACCTTGCAGAAAGCCTCCACCTTGCAG 521521 rs368278029rs368278029 10_001_I10_001_I ACTATACTATATAATGTTACACACTATACTATATAATGTTACAC 522522 rs368278029rs368278029 10_001_D10_001_D ACTATACTATATGTTACACTGACTATACTATATGTTACACTG 523523 rs71281575rs71281575 10_026_I10_026_I GGGCTCAAGTGATCCTCCCGGGCTCAAGTGATCCTCCC 524524 rs71281575rs71281575 10_026_D10_026_D GGGCTCAAGTATCCTCCCGGGGCTCAAGTATCCTCCCG 525525 rs202245860rs202245860 10_035_I10_035_I TGCTTGAACCTGGGAGGTTTGCTTGAACCTGGGAGGTT 526526 rs202245860rs202245860 10_035_D10_035_D TGCTTGAACTGGGAGGTTGTGCTTGAACTGGGAGGTTG 527527 rs34948479rs34948479 10_047_I10_047_I ATGATACAGAGAGGCCCACTATGATACAGAGAGGCCCACT 528528 rs34948479rs34948479 10_047_D10_047_D AATGATACAGAGGCCCACTGAATGATACAGAGGCCCACTG 529529 rs10552811rs10552811 10_071_I10_071_I TGCCCAGGCTACACCCTTGCCCAGGCTACACCCT 530530 rs10552811rs10552811 10_071_D10_071_D GATGCCCAGTACACCCTGGATGCCCAGTACACCCTG 531531 rs10555357rs10555357 10_085_I10_085_I TGGCTCTTATGCCTTGCCTGGCTCTTATGCCTTGCC 532532 rs10555357rs10555357 10_085_D10_085_D TGGCTCTTGCCTTGCCTATGGCTCTTGCCTTGCCTA 533533 rs140576359rs140576359 10_117_I10_117_I GTTGCCGATATTCCAGGAGTTGCCGATATTCCAGGA 534534 rs140576359rs140576359 10_117_D10_117_D AAATGTTGCCAGGAGGTGAAATGTTGCCAGGAGGTG 535535 rs10544160rs10544160 10_128_I10_128_I TTCAATGTTATACTCGTCCATTTCAATGTTATACTCGTCCAT 536536 rs10544160rs10544160 10_128_D10_128_D TTCAATGTTACTCGTCCATGTTCAATGTTACTCGTCCATG 537537 rs10583916rs10583916 11_006_I11_006_I GGGAATAACTGAGCATTCTGGGGAATAACTGAGCATTCTG 538538 rs10583916rs10583916 11_006_D11_006_D TGGGAATAACAGCATTCTGTGGGAATAACAGCATTCTG 539539 rs113764748rs113764748 11_020_I11_020_I CATTAGCATAGCTGGATTTCCATTAGCATAGCTGGATTTC 540540 rs113764748rs113764748 11_020_D11_020_D GCATTAGCATGGATTTCCTGCATTAGCATGGATTTCCT 541541 rs57958958rs57958958 11_034_I11_034_I GGGGAGCAAATGAATTACCATGGGGAGCAAATGAATTACCAT 542542 rs57958958rs57958958 11_034_D11_034_D TTATGGGGATACCATATAACTTATGGGGATACCATATAAC 543543 rs138278630rs138278630 11_059_I11_059_I CATTGTGGAAGACTATGTGCATTGTGGAAGACTATGTG 544544 rs138278630rs138278630 11_059_D11_059_D CATTGTGGAAACTATGTGGCATTGTGGAAACTATGTGG 545545 rs74933486rs74933486 11_084_I11_084_I ATGAGTCTCAGTTTCTTCATATGAGTCTCAGTTTCTTCAT 546546 rs74933486rs74933486 11_084_D11_084_D AAATGAGTCTGTTTCTTCATTAAATGAGTCTGTTTCTTCATT 547547 rs35847449rs35847449 11_094_I11_094_I ATCCAGAGTCCATAGAGTGAATCCAGAGTCCATAGAGTGA 548548 rs35847449rs35847449 11_094_D11_094_D CATCCAGAGTCATAGAGTGACATCCAGAGTCATAGAGTGA 549549 rs143339028rs143339028 11_111_I11_111_I CTAACAAAAAGAAGACCATCTCTAACAAAAAGAAGACCATCT 550550 rs143339028rs143339028 11_111_D11_111_D TCTAACAAAAAGACCATCTGTTCTAACAAAAAGACCATCTGT 551551 rs11394480rs11394480 11_135_I11_135_I TCCGCAGTGGCAGGAGAGTCCGCAGTGGCAGGAGAG 552552 rs11394480rs11394480 11_135_D11_135_D TTCCGCAGTGCAGGAGAGCTTCCGCAGTGCAGGAGAGC 553553 rs10533848rs10533848 12_013_I12_013_I ACACTCAGTTCTCTATTTCAGACACTCAGTTCTCTATTTCAG 554554 rs10533848rs10533848 12_013_D12_013_D ACACTCAGTTCTATTTCAGAGACACTCAGTTCTATTTCAGAG 555555 rs35955982rs35955982 12_024_I12_024_I TGCMTCCTATATATTTTCAGGTGCMTCCTATATATTTTCAGG 556556 rs35955982rs35955982 12_024_D12_024_D TTGCMTCCTATATTTTCAGGTGTTGCMTCCTATATTTTCAGGTG 557557 rs10571534rs10571534 12_074_I12_074_I AATGTGCAGAGTTTGAGCA AATGTGCAGAGTTTGAGCA 558558 rs10571534rs10571534 12_074_D12_074_D GAAATGTGCAGTTTGAGCAAGAAATGTGCAGTTTGAGCAA 559559 rs10689649rs10689649 12_090_I12_090_I GTTTCCAAAACTCTTAGTATCAGTTTCCAAAACTCTTAGTATCA 560560 rs10689649rs10689649 12_090_D12_090_D AGTTTCCAAATTAGTATCAAACAGTTTCCAAATTAGTATCAAAC 561561 rs150767158rs150767158 12_100_I12_100_I GCCTTCTTCTCATAAGAACCCGCCTTCTTCTCATAAGAACCC 562562 rs150767158rs150767158 12_100_D12_100_D CATGCCTTCTTAAGAACCCTCATGCCTTCTTAAGAACCCT 563563 rs10706208rs10706208 12_128_I12_128_I TCAAACTCTTTTGGAAACGTCAAAGTCAAACTCTTTTGGAAACGTCAAAG 564564 rs10706208rs10706208 12_128_D12_128_D TCAAACTCTTTTGAAACGTCAAAGTCATCAAACTCTTTTGAAACGTCAAAGTCA 565565 rs142669819rs142669819 13_039_I13_039_I AGGCAAATGCAATTGATTTCAGGCAAATGCAATTGATTTC 566566 rs142669819rs142669819 13_039_D13_039_D CCCTAGGCAAATTGATTTCACCCTAGGCAAATTGATTTCA 567567 rs5803618rs5803618 13_053_I13_053_I AAGCATTAGCTTTGTCTACTAAGCATTAGCTTTGTCTACT 568568 rs5803618rs5803618 13_053_D13_053_D AAGCATTAGTTTGTCTACTTAAGCATTAGTTTGTCTACTT 569569 rs371764729rs371764729 13_069_I13_069_I AGTCAGCAAACAACAGATGCTGGAGTCAGCAAACAACAGATGCTGG 570570 rs371764729rs371764729 13_069_D13_069_D AGTCAGCAAACAGATGCTGGAGAAGTCAGCAAACAGATGCTGGAGA 571571 rs67650090rs67650090 13_087_I13_087_I CATTATCATTGTCTGCATAATCTGCATTATCATTGTCTGCATAATCTG 572572 rs67650090rs67650090 13_087_D13_087_D GTCATTATCATTGCATAATCTGCGTCATTATCATTGCATAATCTGC 573573 rs55812371rs55812371 14_056_I14_056_I GAATATATACATGTTCCATTTTACGAATATATACATGTTCCATTTTAC 574574 rs55812371rs55812371 14_056_D14_056_D GGAATATATTTTTACTAGGAACCGGAATATATTTTTACTAGGAACC 575575 rs141061555rs141061555 14_091_I14_091_I TAATAAGTAGTGAGTGAAATACCTAATAAGTAGTGAGTGAAATACC 576576 rs141061555rs141061555 14_091_D14_091_D CTTAATAAGTAGTGAAATACCAGCTTAATAAGTAGTGAAATACCAG 577577 rs144457716rs144457716 15_046_I15_046_I GTTGGAGGACTGACAGTTCACAGTTGGAGGACTGACAGTTCACA 578578 rs144457716rs144457716 15_046_D15_046_D AAGTTGGAGGACAGTTCACATTAAGTTGGAGGACAGTTCACATT 579579 rs112548522rs112548522 15_067_I15_067_I CTCAGTAAGAGTTTGTCAAATGCTCAGTAAGAGTTTGTCAAATG 580580 rs112548522rs112548522 15_067_D15_067_D GAACTCAGTAAGTCAAATGGGGAACTCAGTAAGTCAAATGGG 581581 rs112792286rs112792286 15_087_I15_087_I AGTTATTAAAACATTATTTTCTGTAAGAAGTTATTAAAACATTATTTTCTGTAAGA 582582 rs112792286rs112792286 15_087_D15_087_D CAGTTATTAAAACATTTTCTGTAAGACCCAGTTATTAAAACATTTTCTGTAAGACC 583583 rs112880243rs112880243 15_097_I15_097_I CCTAGCTTTTACTTAAGTGCAGCCTAGCTTTTACTTAAGTGCAG 584584 rs112880243rs112880243 15_097_D15_097_D AGCCTAGCTTTTAAGTGCAGAGCCTAGCTTTTAAGTGCAG 585585 rs35379530rs35379530 16_000_I16_000_I TGCATCCTATGAAAATACCCTGCATCCTATGAAAATACCC 586586 rs35379530rs35379530 16_000_D16_000_D GTGCATCCTATAAAATACCCTGTGCATCCTATAAAATACCCT 587587 rs34436424rs34436424 16_012 _I16_012 _I AATGATTAGCGCAATGTGATAATGATTAGCGCAATGTGAT 588588 rs34436424rs34436424 16_012 _D16_012 _D TTAATGATTAGCAATGTGATATTTAATGATTAGCAATGTGATAT 589589 rs3841767rs3841767 16_024_I16_024_I CATCTGGCCCTTGTTCTCCATCTGGCCCTTGTTCTC 590590 rs3841767rs3841767 16_024_D16_024_D ATCATCTGGCTTGTTCTCTATCATCTGGCTTGTTCTCT 591591 rs35709162rs35709162 16_064_I16_064_I GTTGTATAGGGACAGGAGCGTTGTATAGGGACAGGAGC 592592 rs35709162rs35709162 16_064_D16_064_D TGTTGTATAGGACAGGAGCTTGTTGTATAGGACAGGAGCT 593593 rs34816330rs34816330 16_076_I16_076_I GACTTCATGTCCCTCTTGAAAGACTTCATGTCCCTCTTGAAA 594594 rs34816330rs34816330 16_076_D16_076_D TGACTTCATGTCCTCTTGAAATGACTTCATGTCCTCTTGAAA 595595 rs11330085rs11330085 17_001_I17_001_I GGACTCTGAGCCAGTACCCCGGACTCTGAGCCAGTACCCC 596596 rs11330085rs11330085 17_001_D17_001_D GGACTCTGAGCAGTACCCCGGACTCTGAGCAGTACCCC 597597 rs5821134rs5821134 17_057_I17_057_I TGACTGTTACTCAGGAGAGTTGACTGTTACTCAGGAGAGT 598598 rs5821134rs5821134 17_057_D17_057_D CTATGACTGTTAGGAGAGTAATCTATGACTGTTAGGAGAGTAAT 599599 rs141730340rs141730340 17_083_I17_083_I ACACCTGTGCAGCGCCTACACCTGTGCAGCGCCT 600600 rs141730340rs141730340 17_083_D17_083_D AGCACACCTTCCATGAGAAGCACACCTTCCATGAGA 601601 rs35023498rs35023498 18_001_I18_001_I GGTGCTGTTCTCGAGATAGTGGTGCTGTTCTCGAGATAGT 602602 rs35023498rs35023498 18_001_D18_001_D TGGTGCTGTTCGAGATAGTTGGTGCTGTTCGAGATAGT 603603 rs35452393rs35452393 18_030_I18_030_I AGGGGAAACATGAGCAGTTGAGGGGAAACATGAGCAGTTG 604604 rs35452393rs35452393 18_030_D18_030_D AAGGGGAAACGAGCAGTTGTGAAGGGGAAACGAGCAGTTGTG 605605 rs33990768rs33990768 18_051_I18_051_I TCACTCAATGGTGCCAGGCATCACTCAATGGTGCCAGGCA 606606 rs33990768rs33990768 18_051_D18_051_D CATCACTCAATGTGCCAGGCACATCACTCAATGTGCCAGGCA 607607 rs66933419rs66933419 18_065_I18_065_I AGTGATGGCCCCCACACTTGAGTGATGGCCCCCACACTTG 608608 rs66933419rs66933419 18_065_D18_065_D ACAGTGATGGCCCACACTTGACAGTGATGGCCCACACTTG 609609 rs66502030rs66502030 18_075_I18_075_I CTGAGACMCTGTGGCTCCTCCTGAGACMCTGTGGCTCCTC 610610 rs66502030rs66502030 18_075_D18_075_D GAACTGAGACMCTGGCTCCTCGAACTGAGACMCTGGCTCCTC 611611 rs60503836rs60503836 19_002_I19_002_I TGATCTCGGCTAACTGCGACTGATCTCGGCTAACTGCGAC 612612 rs60503836rs60503836 19_002_D19_002_D TGATCTCGGTAACTGCGACCTGATCTCGGTAACTGCGACC 613613 rs112906660rs112906660 19_015_I19_015_I CCCCTGCAAATAATAAGGACCCCTGCAAATAATAAGGA 614614 rs112906660rs112906660 19_015_D19_015_D ATCCCCTGCAAATAAGGAATGATCCCCTGCAAATAAGGAATG 615615 rs112877961rs112877961 19_029_I19_029_I GAAGCCAGCAGCCTGCTGGAAGCCAGCAGCCTGCTG 616616 rs112877961rs112877961 19_029_D19_029_D GGAAGCCAGAGCCTGCTGGGAAGCCAGAGCCTGCTG 617617 rs34242584rs34242584 19_044_I19_044_I ATCATTTTATTGTGATTCTTAGCATCATTTTATTGTGATTCTTAGC 618618 rs34242584rs34242584 19_044_D19_044_D GTATCATTTTATTGATTCTTAGCTGTATCATTTTATTGATTCTTAGCT 619619 rs79282333rs79282333 20_005_I20_005_I TATCTACTCATGTGTGTAGTTATATCTACTCATGTGTGTAGTTA 620620 rs79282333rs79282333 20_005_D20_005_D TTATCTACTCGTGTGTAGTTATTTATCTACTCGTGTGTAGTTAT 621621 rs35894782rs35894782 20_020_I20_020_I CACAAAATAGAATAGGGTTTTCCACAAAATAGAATAGGGTTTTC 622622 rs35894782rs35894782 20_020_D20_020_D GGCCACAAAATAGGGTTTTCCGGCCACAAAATAGGGTTTTCC 623623 rs73622051rs73622051 20_039_I20_039_I GCCTTTCTTTATTTATAACTTCTC GCCTTTCTTTATTTATAACTTCTC 624624 rs73622051rs73622051 20_039_D20_039_D GAGCCTTTCTTTATAACTTCTCTGAGCCTTTCTTTATAACTTCTCT 625625 rs66555516rs66555516 20_058_I20_058_I TTTCCATGTGGTGGACAGGTTTCCATGTGGTGGACAGG 626626 rs66555516rs66555516 20_058_D20_058_D ATTTCCATGTGGACAGGTGATTTCCATGTGGACAGGTG 627627 rs138066060rs138066060 21_010_I21_010_I ACTACTCCCAGGTGTATGTACTACTCCCAGGTGTATGT 628628 rs138066060rs138066060 21_010_D21_010_D TACTACTCCAGGTGTATGTGTACTACTCCAGGTGTATGTG 629629 rs10583984rs10583984 21_038_I21_038_I AATATGCAGAGACTCTGAAAAATATGCAGAGACTCTGAAA 630630 rs10583984rs10583984 21_038_D21_038_D GAAATATGCAGACTCTGAAATGAAATATGCAGACTCTGAAAT 631631 rs112408318rs112408318 21_042_I21_042_I AAGACACATACAAGAACGTCAAGACACATACAAGAACGTC 632632 rs112408318rs112408318 21_042_D21_042_D CAAAGACACAAGAACGTCCCAAAGACACAAGAACGTCC 633633 rs60228580rs60228580 22_033_I22_033_I TACTCACATGGTTGTCAACATACTCACATGGTTGTCAACA 634634 rs60228580rs60228580 22_033_D22_033_D CTACTCACATGTTGTCAACACTACTCACATGTTGTCAACA 635635 rs67057410rs67057410 22_046_I22_046_I ACACAGGCTGGGAGTGTAGTACACAGGCTGGGAGTGTAGT 636636 rs67057410rs67057410 22_046_D22_046_D CACACAGGCTGGAGTGTAGTGCACACAGGCTGGAGTGTAGTG 637637 rs35997669rs35997669 X_004_IX_004_I CATCTTCAACAACATGCGCATCTTCAACAACATGCG 638638 rs35997669rs35997669 X_004_DX_004_D CCATCTTCAAAACATGCGCCATCTTCAAAACATGCG 639639 rs57522085rs57522085 X_029_IX_029_I TTCCTACTTCCTAGGGAACTTCCTACTTCCTAGGGAAC 640640 rs57522085rs57522085 X_029_DX_029_D TTCCTACTTCTAGGGAACCTTCCTACTTCTAGGGAACC 641641 rs202172626rs202172626 X_083_IX_083_I CTTTCATCTTAACTTAAGTTACTGCTTTCATCTTAACTTAAGTTACTG 642642 rs202172626rs202172626 X_083_DX_083_D ACACTTTCATCTTAAGTTACTGACACTTTCATCTTAAGTTACTG 643643 rs34991528rs34991528 X_095_IX_095_I GTGATGTTGCCATCCTTGGTGATGTTGCCATCCTTG 644644 rs34991528rs34991528 X_095_DX_095_D GTGATGTTGCATCCTTGATGTGATGTTGCATCCTTGAT 645645 rs35020323rs35020323 X_138_IX_138_I CAGCAACTCTATTTAAATAAATGCAGCAACTCTATTTAAATAAATG 646646 rs35020323rs35020323 X_138_DX_138_D CAGCAACTCTAAATAAATGGACAGCAACTCTAAATAAATGGA 647647 rs10689407rs10689407 X_141_IX_141_I AAATTATTTCACATGAGTGCTAAATTATTTCACATGAGTGCT 648648 rs10689407rs10689407 X_141_DX_141_D GAAATTATTTCACGAGTGCTGAAATTATTTCACGAGTGCT

Для генотипирования с помощью гибридизации, аллель-специфичные ДНК-зонды закрепляются любым известным способом на подложке. Для этого наиболее применима технология биочипов, как двумерных, с креплением зондов к плоскости, так и трехмерных, с иммобилизацией в массе пористого полимерного носителя. Для закрепления ДНК-зондов, к ним может быть привита соответствующая химическая группа, или любое иное соединение, способствующее реализации данной цели. ДНК-зонды располагают на подложке согласно заданной схемы. Схема расположения ячеек может быть произвольной, мы использовали схему, приведенную на Фиг. 1. Для проведения гибридизации ПЦР-продукт обычно смешивают с буферным раствором, который также может содержать денатурирующие агенты (формамид, диметилсульфоксид, гуанидин и другие), и наносят на биочип. Условия гибридизации подбираются таким образом, чтобы флуоресцентно-меченные одноцепочечные фрагменты ДНК специфично связывались с полностью комплементарными им ДНК-зондами, локально иммобилизованными на биочипе. Для того, чтобы определить генотип образца, необходимо зарегистрировать флуоресцентное изображение биочипа. ДНК-зонды, образовавшие совершенные дуплексы с исследуемым фрагментом ДНК, будут флуоресцировать в соответствующем флуорофору диапазоне длин волн. Для регистрации флуоресцентного изображения могут быть использованы сканеры, широкопольные микроскопы, или иные подходящие для этого средства. Флуоресцентное изображение анализируется и обсчитывается с помощью программного обеспечения. Пример такого изображения приведен на Фиг. 2. На Фиг. 3 приведены варианты гибридизационного изображения в зависимости от аллельного состояния маркера в образце. Интерпретация результатов генотипирования проводится экспертом исходя из общеизвестных генетических принципов наследования биаллельных маркеров.For genotyping by hybridization, allele-specific DNA probes are attached in any known manner to a support. For this, biochip technology is most applicable, both two-dimensional, with the attachment of probes to a plane, and three-dimensional, with immobilization of a porous polymer carrier in the mass. To anchor DNA probes, an appropriate chemical group or any other compound can be grafted onto them to help achieve this goal. DNA probes are placed on a substrate according to a predetermined pattern. The layout of the cells can be arbitrary; we used the layout shown in Fig. 1. To carry out hybridization, the PCR product is usually mixed with a buffer solution, which may also contain denaturing agents (formamide, dimethyl sulfoxide, guanidine, and others), and applied to a biochip. Hybridization conditions are selected in such a way that the fluorescently labeled single-stranded DNA fragments bind specifically to completely complementary DNA probes that are locally immobilized on the biochip. In order to determine the genotype of the sample, it is necessary to register the fluorescent image of the biochip. DNA probes that form perfect duplexes with the studied DNA fragment will fluoresce in the wavelength range corresponding to the fluorophore. Scanners, wide-field microscopes, or other suitable means can be used to register the fluorescence image. The fluorescent image is analyzed and calculated using software. An example of such an image is shown in FIG. 2. In FIG. 3 shows the variants of hybridization images depending on the allelic state of the marker in the sample. The interpretation of the results of genotyping is carried out by an expert based on the well-known genetic principles of inheritance of biallelic markers.

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Описание чертежейDescription of drawings

На Фигуре 1 приведен один из множества возможных вариантов схемы расположения ячеек с олигонуклеотидными ДНК-зондами, который мы использовали для иллюстрации осуществления данного изобретения. Номера на схеме соответствуют номерам олигонуклеотидов в Перечне последовательностей (SEQ ID NO: 325-648)Данная схема не является принципиальной и дизайн ее может быть произвольным.Figure 1 shows one of the many possible layouts with oligonucleotide DNA probes, which we used to illustrate the implementation of the present invention. The numbers in the diagram correspond to the numbers of the oligonucleotides in the Sequence Listing (SEQ ID NO: 325-648). This diagram is not schematic and its design can be arbitrary.

На Фигуре 2 приведено флуоресцентное изображение биочипа после проведения гибридизации. Figure 2 shows the fluorescent image of the biochip after hybridization.

На Фигуре 3 приведены флуоресцентные изображения трех вариантов аллельного состояния любого из используемых в данном изобретении маркера: гомозигота по инсерции (In/In, Фиг. 3А), гетерозигота (In/Del, Фиг.3Б) и гомозигота по делеции (Del/Del, Фиг. 3В).Figure 3 shows fluorescence images of three variants of the allelic state of any of the markers used in this invention: insertion homozygote (In / In, Fig.3A), heterozygote (In / Del, Fig.3B) and deletion homozygote (Del / Del, Fig. 3B).

Осуществление изобретенияImplementation of the invention

Пример 1. Олигонуклеотидный биочип для генотипирования 162 инсерционно-делеционных полиморфизмов.Example 1. Oligonucleotide biochip for genotyping 162 insertion-deletion polymorphisms.

Олигонуклеотидные ДНК-зонды синтезировалит согласно перечню SEQ ID N0: 325-SEQ ID N0: 648 (Таблица №2) таким образом, что 3’-конец олигонуклеотидов содержит спейсер со свободной аминогруппой. Биочип изготавливали методом сополимеризации олигонуклеотида в акриламидном геле аналогично описаному ранее (Патент на изобретение N 2175972 «Способ иммобилизации олигонуклеотидов, содержащих непредельные группы, в полимерных гидрогелях при формировании микрочипа» Мирзабеков А.Д., Рубина А.Ю., Паньков С.В., Чернов Б.К. Приоритет от 28.12.1999), а именно, готовили полимеризационную смесь, соответствующую 5% полиакриламидному гелю: 5% акриламид-бисакриламид (19:1), 40% глицерин, 2% ацетон, 1,2% ТЕМЕД, 0,1 М натрий фосфатный буфер, pH 7,0. Концентрация ДНК-зондов составляла 200 мкМ. Капли наносили с помощью роботизированной станции QArray 2 (Genetix Ltd, New Milton, Hampshire, UK) на пластиковую подложку. Ячейки наносили рядами, согласно схеме на Фиг. 1. Верхние ячейки в каждом ряду соответствуют инсерционным аллелям, а нижние - делеционным. Диаметр капли 50-100 мкм. Полимеризацию проводили под УФ лампой в атмосфере азота. Время экспозиции 40 мин при длине волны 254 нм. После проведения сополимеризации проводили отмывку от непрореагировавших реагентов в дистиллированой воде. Биочип высушивали при комнатной температуре и помещали на хранение в темное сухое место.Oligonucleotide DNA probes were synthesized according to SEQ ID NO: 325 to SEQ ID NO: 648 (Table 2) in such a way that the 3 'end of the oligonucleotides contains a spacer with a free amino group. The biochip was manufactured by the method of copolymerization of an oligonucleotide in an acrylamide gel similarly to that described earlier (Patent for invention N 2175972 "Method for immobilizing oligonucleotides containing unsaturated groups in polymer hydrogels during microchip formation" Mirzabekov A.D., Rubina A.Yu., Pankov S.V. , Chernov B.K., Priority from 28.12.1999), namely, prepared a polymerization mixture corresponding to 5% polyacrylamide gel: 5% acrylamide-bisacrylamide (19: 1), 40% glycerin, 2% acetone, 1.2% TEMED , 0.1 M sodium phosphate buffer, pH 7.0. The concentration of DNA probes was 200 μM. Drops were applied using a QArray 2 robotic station (Genetix Ltd, New Milton, Hampshire, UK) on a plastic substrate. The cells were applied in rows according to the diagram in FIG. 1. The upper cells in each row correspond to insertional alleles, and the lower ones correspond to deletion alleles. Drop diameter 50-100 microns. Polymerization was carried out under a UV lamp in a nitrogen atmosphere. Exposure time 40 min at a wavelength of 254 nm. After copolymerization, unreacted reagents were washed off in distilled water. The biochip was dried at room temperature and stored in a dark dry place.

Пример 2. Мультиплексная амплификация 162 локусов, содержащих генотипируемые инсерционно-делеционные полиморфизмы методом ПЦР с целью наработки одноцепочечных флуоресцентно меченых фрагментов.Example 2. Multiplex amplification of 162 loci containing genotyped insertion-deletion polymorphisms by PCR in order to generate single-stranded fluorescently labeled fragments.

Из слюны испытуемых выделяли ДНК набором Lumipure (ООО «Биотех-индустрия», Москва). Для мультиплексной наработки всех анализируемых генов использовали ПЦР-праймеры SEQ ID NO: 1-324 в концентрации от 1 нМ до 0,5 мкМ, отличающиеся тем, что каждый обратный праймер с четным номером «Seq ID» (Seq ID NO:2, Seq ID NO:4… Seq ID NO:324), имел со стороны 5'-конца универсальную олигонуклеотидную вставку, с последовательностью 5'-TCATTGGATCTCATTA-3'. Флуоресцентно меченый (Су5-, возб./исп.: 640/657 нм) универсальный праймер Су5-TCATTGGATCTCATTA-3'добавляли в конечной концентрации 6 мкМ. ПЦР проводили на амплификаторе T-100 (Bio-Rad laboratories, США) в объеме 25 мкл реакционной смеси, составом: 1× буфер (67 мМ Трис-HCl, pH 8,6, 166 мМ (NH4)2SO4, 0,01% Тритон Х-100), 2,0 мМ MgCl2, 0,2 мМ каждого из dNTP («Силекс», Россия), ПЦР-праймеры (SEQ ID NO: 1-324) в концентрации от 1 нМ до 0,5 мкМ, 1 мкл геномной ДНК и 2,5 ед. акт. HotTaq-полимеразы («Сибэнзим», Россия). Амплификацию проводили по программе:DNA was isolated from the saliva of the subjects using a Lumipure kit (Biotech-industry, Moscow). For multiplex production of all analyzed genes, PCR primers SEQ ID NO: 1-324 were used at a concentration of 1 nM to 0.5 μM, characterized in that each reverse primer with an even number “Seq ID” (Seq ID NO: 2, Seq ID NO: 4 ... Seq ID NO: 324), had a universal oligonucleotide insert from the 5'-end, with the sequence 5'-TCATTGGATCTCATTA-3 '. Fluorescently labeled (Cy5-, exc./isp .: 640/657 nm) universal primer Cy5-TCATTGGATCTCATTA-3 'was added at a final concentration of 6 μM. PCR was carried out on a T-100 amplifier (Bio-Rad laboratories, USA) in a volume of 25 μL of the reaction mixture, composition: 1 × buffer (67 mM Tris-HCl, pH 8.6, 166 mM (NH 4 ) 2 SO 4 , 0 , 01% Triton X-100), 2.0 mM MgCl 2 , 0.2 mM of each dNTP (Sileks, Russia), PCR primers (SEQ ID NO: 1-324) at a concentration from 1 nM to 0 , 5 μM, 1 μl of genomic DNA and 2.5 units. Act. HotTaq polymerases (Sibenzyme, Russia). Amplification was carried out according to the program:

No. ТемператураTemperature ВремяTime Количество цикловThe number of cycles 1one 95°С95 ° C 1 мин1 minute 1one 22 95°С95 ° C 30 сек30 sec 50fifty 33 64°С64 ° C 60 сек60 sec 44 72°С72 ° C 20 сек20 sec 55 95°С95 ° C 20 сек20 sec 50fifty 66 50°С50 ° C 10 сек10 sec 77 72°С72 ° C 30 сек30 sec 88 72°С72 ° C 5 мин5 minutes 1one

Пример 3. Гибридизация флуоресцентно-меченого ПЦР-продукта на биочипе и регистрация результатов.Example 3. Hybridization of a fluorescently labeled PCR product on a biochip and registration of the results.

ПЦР-продукт, полученный в Примере 2 использовали для гибридизации на биочипе, полученном в Примере 1, в буфере следующего состава: 25% формамид (Gibco BRL), 5хSSPE. 30 мкл смеси вносили в гибридизационную камеру биочипа. Гибридизацию проводили в течение 5 ч при температуре 37°С. Отмывку выполняли в буфере 1х SSPE при комнатной температуре в течение 10 мин.The PCR product obtained in Example 2 was used for hybridization on the biochip obtained in Example 1 in a buffer of the following composition: 25% formamide (Gibco BRL), 5xSSPE. 30 μL of the mixture was introduced into the hybridization chamber of the biochip. Hybridization was carried out for 5 h at 37 ° C. Washing was performed in 1x SSPE buffer at room temperature for 10 min.

Регистрацию гибридизационной картины производили с помощью универсального аппаратно-программного комплекса (УАПК), производства ООО «БИОЧИП-ИМБ» (Москва). На Фиг.2 приведено флуоресцентное изображение биочипа после гибридизации и отмывки. Описание алгоритма автоматического анализа изображения с помощью программного обеспечения выходит за рамки настоящего изобретения.The hybridization pattern was recorded using a universal hardware and software complex (UAPK), manufactured by BIOCHIP-IMB LLC (Moscow). Figure 2 shows the fluorescent image of the biochip after hybridization and washing. A description of an automatic image analysis algorithm using software is outside the scope of the present invention.

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SEQUENCE LISTING SEQUENCE LISTING

<110> Fesenko, Denis O<110> Fesenko, Denis O

Ivanovskii, Ivan D Ivanovskii, Ivan D

<120> Способ идентификации личности и установления родства с помощью InDel полиморфизмов и набор синтетических олигонуклеотидов для их генотипирования<120> A method for identifying a person and establishing relationship using InDel polymorphisms and a set of synthetic oligonucleotides for their genotyping

<130> CID 1.6<130> CID 1.6

<160> 648 <160> 648

<170> PatentIn version 3.1<170> PatentIn version 3.1

<210> 1<210> 1

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_007_F<223> 01_007_F

<400> 1<400> 1

tggactttat tattatggtc tggagcagca 30tggactttat tattatggtc tggagcagca 30

<210> 2<210> 2

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_007_R<223> 01_007_R

<400> 2<400> 2

tgcatgagtg attccttaaa accagacac 29tgcatgagtg attccttaaa accagacac 29

<210> 3<210> 3

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_031_F<223> 01_031_F

<400> 3<400> 3

agccatgtag atgctrtcat caacagct 28agccatgtag atgctrtcat caacagct 28

<210> 4<210> 4

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_031_R<223> 01_031_R

<400> 4<400> 4

tgcaattttg gataccaatg accacaaga 29tgcaattttg gataccaatg accacaaga 29

<210> 5<210> 5

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_041_F<223> 01_041_F

<400> 5<400> 5

actttgtgac cgtcttctct cttgg 25actttgtgac cgtcttctct cttgg 25

<210> 6<210> 6

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_041_R<223> 01_041_R

<400> 6<400> 6

ccaagagggg tgcactgctc c 21ccaagagggg tgcactgctc c 21

<210> 7<210> 7

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_059_F<223> 01_059_F

<400> 7<400> 7

gcacagaatc cagcaggtag taaggg 26gcacagaatc cagcaggtag taaggg 26

<210> 8<210> 8

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_059_R<223> 01_059_R

<400> 8<400> 8

cacaatgtta aatctgtttg ttaaggggag 30cacaatgtta aatctgtttg ttaaggggag 30

<210> 9<210> 9

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_083_F<223> 01_083_F

<400> 9<400> 9

tgatcactgt attcctgacc cagtttca 28tgatcactgt attcctgacc cagtttca 28

<210> 10<210> 10

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_083_R<223> 01_083_R

<400> 10<400> 10

cactttaact tctgtttaga acacatagt 29cactttaact tctgtttaga acacatagt 29

<210> 11<210> 11

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_101_F<223> 01_101_F

<400> 11<400> 11

agtgtaaaaa ygactgctta gacatttct 29agtgtaaaaa ygactgctta gacatttct 29

<210> 12<210> 12

<211> 35<211> 35

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_101_R<223> 01_101_R

<400> 12<400> 12

tcatttgaca gatattgaat caaattggat tctga 35tcatttgaca gatattgaat caaattggat tctga 35

<210> 13<210> 13

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_119_F<223> 01_119_F

<400> 13<400> 13

agcagcaggt aaaacaacta tcgttc 26agcagcaggt aaaacaacta tcgttc 26

<210> 14<210> 14

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_119_R<223> 01_119_R

<400> 14<400> 14

ctaggggagc cagagagcct tttc 24ctaggggagc cagagagcct tttc 24

<210> 15<210> 15

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_154_F<223> 01_154_F

<400> 15<400> 15

acagattcct ttgattgcct gatgag 26acagattcct ttgattgcct gatgag 26

<210> 16<210> 16

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_154_R<223> 01_154_R

<400> 16<400> 16

gccggtgcat tctccccttc ag 22gccggtgcat tctccccttc ag 22

<210> 17<210> 17

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_170_F<223> 01_170_F

<400> 17<400> 17

cttgtttcag atatgcaggc tgaga 25cttgtttcag atatgcaggc tgaga 25

<210> 18<210> 18

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_170_R<223> 01_170_R

<400> 18<400> 18

tgctrgcaaa cttaggcaat taagttaaca tc 32tgctrgcaaa cttaggcaat taagttaaca tc 32

<210> 19<210> 19

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_192_F<223> 01_192_F

<400> 19<400> 19

tctagttgag tcacttgagc tctattagac 30tctagttgag tcacttgagc tctattagac 30

<210> 20<210> 20

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_192_R<223> 01_192_R

<400> 20<400> 20

aactcctaac tgcttaatgt agcagg 26aactcctaac tgcttaatgt agcagg 26

<210> 21<210> 21

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_208_F<223> 01_208_F

<400> 21<400> 21

tggtcactcc tctttgcact gcg 23tggtcactcc tctttgcact gcg 23

<210> 22<210> 22

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_208_R<223> 01_208_R

<400> 22<400> 22

cccatcctcc cgaagcacat ctac 24cccatcctcc cgaagcacat ctac 24

<210> 23<210> 23

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_223_F<223> 01_223_F

<400> 23<400> 23

ggagaggggt gtccgactca gg 22ggagaggggt gtccgactca gg 22

<210> 24<210> 24

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_223_R<223> 01_223_R

<400> 24<400> 24

ccttcctgag acagctgaaa tgt 23ccttcctgag acagctgaaa tgt 23

<210> 25<210> 25

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_233_F<223> 01_233_F

<400> 25<400> 25

caacattgca aaaatgaacg ctgactac 28caacattgca aaaatgaacg ctgactac 28

<210> 26<210> 26

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_233_R<223> 01_233_R

<400> 26<400> 26

ctctatactt agtcatttgt tgcatttctg g 31ctctatactt agtcatttgt tgcatttctg g 31

<210> 27<210> 27

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_240_F<223> 01_240_F

<400> 27<400> 27

cttcaatgaa gaactgttaa gaattaaagg c 31cttcaatgaa gaactgttaa gaattaaagg c 31

<210> 28<210> 28

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_240_R<223> 01_240_R

<400> 28<400> 28

cttaaaatat gtagtgtgta cccaatcatt tgc 33cttaaaatat gtagtgtgta cccaatcatt tgc 33

<210> 29<210> 29

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_011_F<223> 02_011_F

<400> 29<400> 29

cacgtgggtg gtcactcaca cc 22cacgtgggtg gtcactcaca cc 22

<210> 30<210> 30

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_011_R<223> 02_011_R

<400> 30<400> 30

cttatctcca atagatcagt gaagaaacag g 31cttatctcca atagatcagt gaagaaacag g 31

<210> 31<210> 31

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_036_F<223> 02_036_F

<400> 31<400> 31

gccatagaat ttctctcatg gctctac 27gccatagaat ttctctcatg gctctac 27

<210> 32<210> 32

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_036_R<223> 02_036_R

<400> 32<400> 32

gtgaaattca gctataagga gatgaagcc 29gtgaaattca gctataagga gatgaagcc 29

<210> 33<210> 33

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_042_F<223> 02_042_F

<400> 33<400> 33

agaggagaat gaatgttgga gtaagc 26agaggagaat gaatgttgga gtaagc 26

<210> 34<210> 34

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_042_R<223> 02_042_R

<400> 34<400> 34

cagagtgaca ggtcaacact taccc 25cagagtgaca ggtcaacact taccc 25

<210> 35<210> 35

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_061_F<223> 02_061_F

<400> 35<400> 35

aggcctgtaa tggattacaa aatggccaca 30aggcctgtaa tggattacaa aatggccaca 30

<210> 36<210> 36

<211> 40<211> 40

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_061_R<223> 02_061_R

<400> 36<400> 36

agcaaagtca cattgcaaat tcttgtacat ataatgatgg 40agcaaagtca cattgcaaat tcttgtacat ataatgatgg 40

<210> 37<210> 37

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_080_F<223> 02_080_F

<400> 37<400> 37

cagctctaag accacacatt ctgc 24cagctctaag accacacatt ctgc 24

<210> 38<210> 38

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_080_R<223> 02_080_R

<400> 38<400> 38

actggccatg caggtattct agg 23actggccatg caggtattct agg 23

<210> 39<210> 39

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_101_F<223> 02_101_F

<400> 39<400> 39

tcagggttga ccagcagttt aagtg 25tcagggttga ccagcagttt aagtg 25

<210> 40<210> 40

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_101_R<223> 02_101_R

<400> 40<400> 40

gaattcagtt ttcactcatg agtttagctg 30gaattcagtt ttcactcatg agtttagctg 30

<210> 41<210> 41

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_113_F<223> 02_113_F

<400> 41<400> 41

aggcggaaat aagtgaccca gagaaaaacg ct 32aggcggaaat aagtgaccca gagaaaaacg ct 32

<210> 42<210> 42

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_113_R<223> 02_113_R

<400> 42<400> 42

tgccgcctcc tgcaactcct tca 23tgccgcctcc tgcaactcct tca 23

<210> 43<210> 43

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_150_F<223> 02_150_F

<400> 43<400> 43

aggcaccttg tgagaaaaga ttgg 24aggcaccttg tgagaaaaga ttgg 24

<210> 44<210> 44

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_150_R<223> 02_150_R

<400> 44<400> 44

cctaggcttg ctgggaagtc ctc 23cctaggcttg ctgggaagtc ctc 23

<210> 45<210> 45

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_215_F<223> 02_215_F

<400> 45<400> 45

acccaagaat atgaaggacc aactg 25acccaagaat atgaaggacc aactg 25

<210> 46<210> 46

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_215_R<223> 02_215_R

<400> 46<400> 46

tcatcacatt ctgcactcat aatcagc 27tcatcacatt ctgcactcat aatcagc 27

<210> 47<210> 47

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_231_F<223> 02_231_F

<400> 47<400> 47

aggagaccac tcaaagaatc ctactc 26aggagaccac tcaaagaatc ctactc 26

<210> 48<210> 48

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_231_R<223> 02_231_R

<400> 48<400> 48

tcagtttagg tgcacagaat aagtcac 27tcagtttagg tgcacagaat aagtcac 27

<210> 49<210> 49

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_016_F<223> 03_016_F

<400> 49<400> 49

aggaccaagg ctgcagagaa agg 23aggaccaagg ctgcagagaa agg 23

<210> 50<210> 50

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_016_R<223> 03_016_R

<400> 50<400> 50

cggctctcct tccaagtcag gac 23cggctctcct tccaagtcag gac 23

<210> 51<210> 51

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_030_F<223> 03_030_F

<400> 51<400> 51

tgatgtaatt taaagtgagc cagccagacr ta 32tgatgtaatt taaagtgagc cagccagacr ta 32

<210> 52<210> 52

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_030_R<223> 03_030_R

<400> 52<400> 52

tgactcttct cccacctaac tcaagtttga 30tgactcttct cccacctaac tcaagtttga 30

<210> 53<210> 53

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_063_F<223> 03_063_F

<400> 53<400> 53

gttaggaaat ratcccagga aataggaatg 30gttaggaaat ratcccagga aataggaatg 30

<210> 54<210> 54

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_063_R<223> 03_063_R

<400> 54<400> 54

ctactccatc ataggctctt gtattgg 27ctactccatc ataggctctt gtattgg 27

<210> 55<210> 55

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_082_F<223> 03_082_F

<400> 55<400> 55

ctgtgttgta ttctgttatt gctacttgc 29ctgtgttgta ttctgttatt gctacttgc 29

<210> 56<210> 56

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_082_R<223> 03_082_R

<400> 56<400> 56

ttgccattct aagatttctc tcttcctg 28ttgccattct aagatttctc tcttcctg 28

<210> 57<210> 57

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_100_F<223> 03_100_F

<400> 57<400> 57

cgttcacatg tcaggtacta actctc 26cgttcacatg tcaggtacta actctc 26

<210> 58<210> 58

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_100_R<223> 03_100_R

<400> 58<400> 58

tggtggggat gaggtacaga ctg 23tggtggggat gaggtacaga ctg 23

<210> 59<210> 59

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_107_F<223> 03_107_F

<400> 59<400> 59

caatctaagt tgtcttaccc tgtggc 26caatctaagt tgtcttaccc tgtggc 26

<210> 60<210> 60

<211> 35<211> 35

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_107_R<223> 03_107_R

<400> 60<400> 60

tttctagttc tcatattcca tgattgtatt ttgag 35tttctagttc tcatattcca tgattgtatt ttgag 35

<210> 61<210> 61

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_124_F<223> 03_124_F

<400> 61<400> 61

aggaatgaca ggaaagtctt aatgagc 27aggaatgaca ggaaagtctt aatgagc 27

<210> 62<210> 62

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_124_R<223> 03_124_R

<400> 62<400> 62

acatcatgca ttgtttgaat catctctg 28acatcatgca ttgtttgaat catctctg 28

<210> 63<210> 63

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_162_F<223> 03_162_F

<400> 63<400> 63

ctctgtcacc taggctggag tgc 23ctctgtcacc taggctggag tgc 23

<210> 64<210> 64

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_162_R<223> 03_162_R

<400> 64<400> 64

agaatcactt gaacccggga ggcagtg 27agaatcactt gaacccggga ggcagtg 27

<210> 65<210> 65

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_182_F<223> 03_182_F

<400> 65<400> 65

gagtccctct ctttctactg twtggaatag t 31gagtccctct ctttctactg twtggaatag t 31

<210> 66<210> 66

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_182_R<223> 03_182_R

<400> 66<400> 66

agaggtacaa agagaagctg gtacca 26agaggtacaa agagaagctg gtacca 26

<210> 67<210> 67

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_194_F<223> 03_194_F

<400> 67<400> 67

ttcctggacg tgtgaattga tgc 23ttcctggacg tgtgaattga tgc 23

<210> 68<210> 68

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_194_R<223> 03_194_R

<400> 68<400> 68

gaagacagac agaacactcc tgc 23gaagacagac agaacactcc tgc 23

<210> 69<210> 69

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_008_F<223> 04_008_F

<400> 69<400> 69

aggatctgga cttgctctgg ggcag 25aggatctgga cttgctctgg ggcag 25

<210> 70<210> 70

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_008_R<223> 04_008_R

<400> 70<400> 70

gcagggctct gggaaatttg ggtgc 25gcagggctct gggaaatttg ggtgc 25

<210> 71<210> 71

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_027_F<223> 04_027_F

<400> 71<400> 71

tattcactat ggttaccatg cagtacaag 29tattcactat ggttaccatg cagtacaag 29

<210> 72<210> 72

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_027_R<223> 04_027_R

<400> 72<400> 72

tgttgaacaa acagtacaaa gtttcagac 29tgttgaacaa acagtacaaa gtttcagac 29

<210> 73<210> 73

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_045_F<223> 04_045_F

<400> 73<400> 73

cagatcgctg ggctattagg tg 22cagatcgctg ggctattagg tg 22

<210> 74<210> 74

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_045_R<223> 04_045_R

<400> 74<400> 74

tactggccag ctgcagcctc tac 23tactggccag ctgcagcctc tac 23

<210> 75<210> 75

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_056_F<223> 04_056_F

<400> 75<400> 75

gctgtggagt ataatttgta gggagac 27gctgtggagt ataatttgta gggagac 27

<210> 76<210> 76

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_056_R<223> 04_056_R

<400> 76<400> 76

catactgtat cttacttgag tgtttcatct c 31catactgtat cttacttgag tgtttcatct c 31

<210> 77<210> 77

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_065_F<223> 04_065_F

<400> 77<400> 77

tgggaatact agggaagcat tgggaagtga ct 32tgggaatact agggaagcat tgggaagtga ct 32

<210> 78<210> 78

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_065_R<223> 04_065_R

<400> 78<400> 78

rgctattggt accagacata aacrtatatg ca 32rgctattggt accagacata aacrtatatg ca 32

<210> 79<210> 79

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_085_F<223> 04_085_F

<400> 79<400> 79

gttcaagcaa taatcattga tctgtgcc 28gttcaagcaa taatcattga tctgtgcc 28

<210> 80<210> 80

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_085_R<223> 04_085_R

<400> 80<400> 80

gtgagtctta ttttttccct gtgtctgt 28gtgagtctta ttttttccct gtgtctgt 28

<210> 81<210> 81

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_112_F<223> 04_112_F

<400> 81<400> 81

agtaacttct ccatgcatca cattattc 28agtaacttct ccatgcatca cattattc 28

<210> 82<210> 82

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_112_R<223> 04_112_R

<400> 82<400> 82

cacaaacaga ggccaggtaa 20cacaaacaga ggccaggtaa 20

<210> 83<210> 83

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_137_F<223> 04_137_F

<400> 83<400> 83

acctgccctg actatatctg ta 22acctgccctg actatatctg ta 22

<210> 84<210> 84

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_137_R<223> 04_137_R

<400> 84<400> 84

catatcagct ttttcctcct ccttca 26catatcagct ttttcctcct ccttca 26

<210> 85<210> 85

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_154_F<223> 04_154_F

<400> 85<400> 85

tctcacaaaa tatacatgta gcagtggata 30tctcacaaaa tatacatgta gcagtggata 30

<210> 86<210> 86

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_154_R<223> 04_154_R

<400> 86<400> 86

gttactgaag gtagtatagc tctaggca 28gttactgaag gtagtatagc tctaggca 28

<210> 87<210> 87

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_177_F<223> 04_177_F

<400> 87<400> 87

ccttcccttc cattttgtat atctg 25ccttcccttc cattttgtat atctg 25

<210> 88<210> 88

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_177_R<223> 04_177_R

<400> 88<400> 88

cctagtcaga ggaacatttt gaag 24cctagtcaga ggaacatttt gaag 24

<210> 89<210> 89

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_003_F<223> 05_003_F

<400> 89<400> 89

ctctgttcct ttgctgaaaa atgac 25ctctgttcct ttgctgaaaa atgac 25

<210> 90<210> 90

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_003_R<223> 05_003_R

<400> 90<400> 90

agatgttttc aggtgggagg aata 24agatgttttc aggtgggagg aata 24

<210> 91<210> 91

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_013_F<223> 05_013_F

<400> 91<400> 91

ggaagatgat gtgaatgtac acaag 25ggaagatgat gtgaatgtac acaag 25

<210> 92<210> 92

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_013_R<223> 05_013_R

<400> 92<400> 92

tgtggcagtc ctagtccagt ctc 23tgtggcagtc ctagtccagt ctc 23

<210> 93<210> 93

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_065_F<223> 05_065_F

<400> 93<400> 93

cccatatatt ttccttcctg gtgca 25cccatatatt ttccttcctg gtgca 25

<210> 94<210> 94

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_065_R<223> 05_065_R

<400> 94<400> 94

ccctaccctg acaaatacat gaacta 26ccctaccctg acaaatacat gaacta 26

<210> 95<210> 95

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_074_F<223> 05_074_F

<400> 95<400> 95

tgttccttat ttctggaaga gccc 24tgttccttat ttctggaaga gccc 24

<210> 96<210> 96

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_074_R<223> 05_074_R

<400> 96<400> 96

tgccagacct atgcataaaa aagg 24tgccagacct atgcataaaa aagg 24

<210> 97<210> 97

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_087_F<223> 05_087_F

<400> 97<400> 97

gctaaacatt gagcacacat gga 23gctaaacatt gagcacacat gga 23

<210> 98<210> 98

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_087_R<223> 05_087_R

<400> 98<400> 98

gattgttttt taacccatgc cctttc 26gattgttttt taacccatgc cctttc 26

<210> 99<210> 99

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_096_F<223> 05_096_F

<400> 99<400> 99

ctagcaaggg tgagaattag tgact 25ctagcaaggg tgagaattag tgact 25

<210> 100<210> 100

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_096_R<223> 05_096_R

<400> 100<400> 100

gaacacatct tggtaagcag cact 24gaacacatct tggtaagcag cact 24

<210> 101<210> 101

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_115_F<223> 05_115_F

<400> 101<400> 101

tgcagttcag ctgacttcac 20tgcagttcag ctgacttcac 20

<210> 102<210> 102

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_115_R<223> 05_115_R

<400> 102<400> 102

ggggttaaga gtttcagcat g 21ggggttaaga gtttcagcat g 21

<210> 103<210> 103

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_119_F<223> 05_119_F

<400> 103<400> 103

cctaactacc tgtttacaag gcaattca 28cctaactacc tgtttacaag gcaattca 28

<210> 104<210> 104

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_119_R<223> 05_119_R

<400> 104<400> 104

cacagtttgg aaatggttaa ttgtattct 29cacagtttgg aaatggttaa ttgtattct 29

<210> 105<210> 105

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_132_F<223> 05_132_F

<400> 105<400> 105

ggaactccag gacccaacag a 21ggaactccag gacccaacag a 21

<210> 106<210> 106

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_132_R<223> 05_132_R

<400> 106<400> 106

agccatgttt ctgtctcagc a 21agccatgttt ctgtctcagc a 21

<210> 107<210> 107

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_141_F<223> 05_141_F

<400> 107<400> 107

aggcttctaa ttggtttccg ca 22aggcttctaa ttggtttccg ca 22

<210> 108<210> 108

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_141_R<223> 05_141_R

<400> 108<400> 108

caagatataa taacaaatca gagtgga 27caagatataa taacaaatca gagtgga 27

<210> 109<210> 109

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_151_F<223> 05_151_F

<400> 109<400> 109

tgctgctgtg aagatgagaa gg 22tgctgctgtg aagatgagaa gg 22

<210> 110<210> 110

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_151_R<223> 05_151_R

<400> 110<400> 110

gtaggggctt tggtaaatat agtca 25gtaggggctt tggtaaatat agtca 25

<210> 111<210> 111

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_180_F<223> 05_180_F

<400> 111<400> 111

agccatgcgt tgctttaagc ca 22agccatgcgt tgctttaagc ca 22

<210> 112<210> 112

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_180_R<223> 05_180_R

<400> 112<400> 112

cccagcctgt agtatgtttc aatatcat 28cccagcctgt agtatgtttc aatatcat 28

<210> 113<210> 113

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_007_F<223> 06_007_F

<400> 113<400> 113

ctcactacca agtcaaaccc a 21ctcactacca agtcaaaccc a 21

<210> 114<210> 114

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_007_R<223> 06_007_R

<400> 114<400> 114

tgagggaata ggcgcagtat a 21tgagggaata ggcgcagtat a 21

<210> 115<210> 115

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_016_F<223> 06_016_F

<400> 115<400> 115

catggtccca aagccatcac agc 23catggtccca aagccatcac agc 23

<210> 116<210> 116

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_016_R<223> 06_016_R

<400> 116<400> 116

acacattgct ccttcttcat catc 24acacattgct ccttcttcat catc 24

<210> 117<210> 117

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_031_F<223> 06_031_F

<400> 117<400> 117

agcctctttg crtggctctt tctggc 26agcctctttg crtggctctt tctggc 26

<210> 118<210> 118

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_031_R<223> 06_031_R

<400> 118<400> 118

agtgtgtacg atttcatttc tgatgtctct 30agtgtgtacg atttcatttc tgatgtctct 30

<210> 119<210> 119

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_057_F<223> 06_057_F

<400> 119<400> 119

agatcctcgc taatcaatta gagcaca 27agatcctcgc taatcaatta gagcaca 27

<210> 120<210> 120

<211> 34<211> 34

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_057_R<223> 06_057_R

<400> 120<400> 120

agtattcaca tatttgcaat taggatatat tcct 34agtattcaca tatttgcaat taggatatat tcct 34

<210> 121<210> 121

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_071_F<223> 06_071_F

<400> 121<400> 121

ccaaggtaaa catcgttagt ttctcca 27ccaaggtaaa catcgttagt ttctcca 27

<210> 122<210> 122

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_071_R<223> 06_071_R

<400> 122<400> 122

gaagcccaaa cagaaaagca ag 22gaagcccaaa cagaaaagca ag 22

<210> 123<210> 123

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_077_F<223> 06_077_F

<400> 123<400> 123

ttctcaatga atacagcctg tgact 25ttctcaatga atacagcctg tgact 25

<210> 124<210> 124

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_077_R<223> 06_077_R

<400> 124<400> 124

cttagtaaat agcctaagcg attttgtca 29cttagtaaat agcctaagcg attttgtca 29

<210> 125<210> 125

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_087_F<223> 06_087_F

<400> 125<400> 125

cagttcccac ctgtatgctg tg 22cagttcccac ctgtatgctg tg 22

<210> 126<210> 126

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_087_R<223> 06_087_R

<400> 126<400> 126

aggagggagg tggatctcag c 21aggagggagg tggatctcag c 21

<210> 127<210> 127

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_096_F<223> 06_096_F

<400> 127<400> 127

ttgcctccaa agtctctgac ac 22ttgcctccaa agtctctgac ac 22

<210> 128<210> 128

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_096_R<223> 06_096_R

<400> 128<400> 128

acaaatgact ctggcagagg tg 22acaaatgact ctggcagagg tg 22

<210> 129<210> 129

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_113_F<223> 06_113_F

<400> 129<400> 129

actttttaat gatcaccatt ctaactggtg 30actttttaat gatcaccatt ctaactggtg 30

<210> 130<210> 130

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_113_R<223> 06_113_R

<400> 130<400> 130

tcagagaaat gcaaatcaaa accacaatg 29tcagagaaat gcaaatcaaa accacaatg 29

<210> 131<210> 131

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_125_F<223> 06_125_F

<400> 131<400> 131

ataggcagct gtggtatggg a 21ataggcagct gtggtatggg a 21

<210> 132<210> 132

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_125_R<223> 06_125_R

<400> 132<400> 132

gtacctggct cccctgctgt 20gtacctggct cccctgctgt 20

<210> 133<210> 133

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_135_F<223> 06_135_F

<400> 133<400> 133

agggaaatga aagacaatta gagaagt 27agggaaatga aagacaatta gagaagt 27

<210> 134<210> 134

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_135_R<223> 06_135_R

<400> 134<400> 134

tgtccctgat ctgtgttcac ac 22tgtccctgat ctgtgttcac ac 22

<210> 135<210> 135

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_143_F<223> 06_143_F

<400> 135<400> 135

atcttaaaat gctagacact gttttagag 29atcttaaaat gctagacact gttttagag 29

<210> 136<210> 136

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_143_R<223> 06_143_R

<400> 136<400> 136

tttcttccac tagaatgtaa gcc 23tttcttccac tagaatgtaa gcc 23

<210> 137<210> 137

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_153_F<223> 06_153_F

<400> 137<400> 137

gtgcacatgc atgtttgaat ag 22gtgcacatgc atgtttgaat ag 22

<210> 138<210> 138

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_153_R<223> 06_153_R

<400> 138<400> 138

gtatattcaa aacaagagtc gaagcca 27gtatattcaa aacaagagtc gaagcca 27

<210> 139<210> 139

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_158_F<223> 06_158_F

<400> 139<400> 139

gtgtgacgtt tcagttaata gtggtgg 27gtgtgacgtt tcagttaata gtggtgg 27

<210> 140<210> 140

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_158_R<223> 06_158_R

<400> 140<400> 140

tctcctgcat aaagtatgaa ttttcgt 27tctcctgcat aaagtatgaa ttttcgt 27

<210> 141<210> 141

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_167_F<223> 06_167_F

<400> 141<400> 141

ccttgagcct ggctgtaatc 20ccttgagcct ggctgtaatc 20

<210> 142<210> 142

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_167_R<223> 06_167_R

<400> 142<400> 142

catggtaggc ccacaggaaa ta 22catggtaggc ccacaggaaa ta 22

<210> 143<210> 143

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_010_F<223> 07_010_F

<400> 143<400> 143

agaagagaaa agtgaggtag ttgcta 26agaagagaaa agtgaggtag ttgcta 26

<210> 144<210> 144

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_010_R<223> 07_010_R

<400> 144<400> 144

atggttgcat attaatgcct aagcttg 27atggttgcat attaatgcct aagcttg 27

<210> 145<210> 145

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_023_F<223> 07_023_F

<400> 145<400> 145

cccaagcact tttctatatt ctatcacctc tg 32cccaagcact tttctatatt ctatcacctc tg 32

<210> 146<210> 146

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_023_R<223> 07_023_R

<400> 146<400> 146

ttgggttaat gtgtgttgta ttcagc 26ttgggttaat gtgtgttgta ttcagc 26

<210> 147<210> 147

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_040_F<223> 07_040_F

<400> 147<400> 147

gcataattga tagatcagct ctagaagaat yac 33gcataattga tagatcagct ctagaagaat yac 33

<210> 148<210> 148

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_040_R<223> 07_040_R

<400> 148<400> 148

actgctttcc tcacagattt gtacattca 29actgctttcc tcacagattt gtacattca 29

<210> 149<210> 149

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_062_F<223> 07_062_F

<400> 149<400> 149

ggatgattcc acttgaatcc attcaaaga 29ggatgattcc acttgaatcc attcaaaga 29

<210> 150<210> 150

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_062_R<223> 07_062_R

<400> 150<400> 150

cctttggaac cattgaatag aaaggaatg 29cctttggaac cattgaatag aaaggaatg 29

<210> 151<210> 151

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_082_F<223> 07_082_F

<400> 151<400> 151

ccagtagaca caatgatatt gacaaatag 29ccagtagaca caatgatatt gacaaatag 29

<210> 152<210> 152

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_082_R<223> 07_082_R

<400> 152<400> 152

gcaggatatt ttgatattga gagtttg 27gcaggatatt ttgatattga gagtttg 27

<210> 153<210> 153

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_097_F<223> 07_097_F

<400> 153<400> 153

cagagactat cttaaatatg catttctatg 30cagagactat cttaaatatg catttctatg 30

<210> 154<210> 154

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_097_R<223> 07_097_R

<400> 154<400> 154

cctaacagct cgacaaatat tgcag 25cctaacagct cgacaaatat tgcag 25

<210> 155<210> 155

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_112_F<223> 07_112_F

<400> 155<400> 155

ctgtaatccc agctactcag gaggctg 27ctgtaatccc agctactcag gaggctg 27

<210> 156<210> 156

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_112_R<223> 07_112_R

<400> 156<400> 156

tctgcttccc gggttcaagt gattc 25tctgcttccc gggttcaagt gattc 25

<210> 157<210> 157

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_126_F<223> 07_126_F

<400> 157<400> 157

ccaagttcat acaaagttca caacca 26ccaagttcat acaaagttca caacca 26

<210> 158<210> 158

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_126_R<223> 07_126_R

<400> 158<400> 158

caacaatgaa aaaaacatct atagtagcac t 31caacaatgaa aaaaacatct atagtagcac t 31

<210> 159<210> 159

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_140_F<223> 07_140_F

<400> 159<400> 159

ttccacattg tgctggtggt tct 23ttccacattg tgctggtggt tct 23

<210> 160<210> 160

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_140_R<223> 07_140_R

<400> 160<400> 160

ctcaacactg gcaggtatag ca 22ctcaacactg gcaggtatag ca 22

<210> 161<210> 161

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_153_F<223> 07_153_F

<400> 161<400> 161

tgcggttcca tcaaagccac arccctg 27tgcggttcca tcaaagccac arccctg 27

<210> 162<210> 162

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_153_R<223> 07_153_R

<400> 162<400> 162

aacaagacat agggtgaccg tagtg 25aacaagacat agggtgaccg tagtg 25

<210> 163<210> 163

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_002_F<223> 08_002_F

<400> 163<400> 163

gactgtccat tgtttgctgc acttgtc 27gactgtccat tgtttgctgc acttgtc 27

<210> 164<210> 164

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_002_R<223> 08_002_R

<400> 164<400> 164

agggaatgac gctcatggga gg 22agggaatgac gctcatggga gg 22

<210> 165<210> 165

<211> 36<211> 36

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_013_F<223> 08_013_F

<400> 165<400> 165

tccatgagaa taactatagt atgctaagta atacat 36tccatgagaa taactatagt atgctaagta atacat 36

<210> 166<210> 166

<211> 34<211> 34

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_013_R<223> 08_013_R

<400> 166<400> 166

tccactgaga atacatgatc tattaagtaa aatg 34tccactgaga atacatgatc tattaagtaa aatg 34

<210> 167<210> 167

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_033_F<223> 08_033_F

<400> 167<400> 167

tggacccaat aaaacttggt gaaataaaat g 31tggacccaat aaaacttggt gaaataaaat g 31

<210> 168<210> 168

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_033_R<223> 08_033_R

<400> 168<400> 168

tcaagtcttg tcctatcatg tttctgatga 30tcaagtcttg tcctatcatg tttctgatga 30

<210> 169<210> 169

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_058_F<223> 08_058_F

<400> 169<400> 169

tgctctctga acagacgtca tgg 23tgctctctga acagacgtca tgg 23

<210> 170<210> 170

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_058_R<223> 08_058_R

<400> 170<400> 170

gctatacagt gctggagaaa tactctg 27gctatacagt gctggagaaa tactctg 27

<210> 171<210> 171

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_064_F<223> 08_064_F

<400> 171<400> 171

acccctcacc ctttactttg tagg 24acccctcacc ctttactttg tagg 24

<210> 172<210> 172

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_064_R<223> 08_064_R

<400> 172<400> 172

caaagaggca tattttgggg tgg 23caaagaggca tattttgggg tgg 23

<210> 173<210> 173

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_082_F<223> 08_082_F

<400> 173<400> 173

cagggtttgt gaatgcacca atc 23cagggtttgt gaatgcacca atc 23

<210> 174<210> 174

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_082_R<223> 08_082_R

<400> 174<400> 174

tttccaagtc cccaccagag gag 23tttccaagtc cccaccagag gag 23

<210> 175<210> 175

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_103_F<223> 08_103_F

<400> 175<400> 175

taagctcagg gaagcactgc ctgaca 26taagctcagg gaagcactgc ctgaca 26

<210> 176<210> 176

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_103_R<223> 08_103_R

<400> 176<400> 176

agagcaacca tcccccaccc cc 22agagcaacca tcccccaccc cc 22

<210> 177<210> 177

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_125_F<223> 08_125_F

<400> 177<400> 177

tccacggcac cacattcaag gcctctg 27tccacggcac cacattcaag gcctctg 27

<210> 178<210> 178

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_125_R<223> 08_125_R

<400> 178<400> 178

agcagaggcg aagtgtgaga cctgt 25agcagaggcg aagtgtgaga cctgt 25

<210> 179<210> 179

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_139_F<223> 08_139_F

<400> 179<400> 179

ggagtaaaaa cttcctgagg cctc 24ggagtaaaaa cttcctgagg cctc 24

<210> 180<210> 180

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_139_R<223> 08_139_R

<400> 180<400> 180

gcaaaccatt caggaagcgt gga 23gcaaaccatt caggaagcgt gga 23

<210> 181<210> 181

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_000_F<223> 09_000_F

<400> 181<400> 181

acactcactg atcaaggatt tctaaaacca 30acactcactg atcaaggatt tctaaaacca 30

<210> 182<210> 182

<211> 37<211> 37

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_000_R<223> 09_000_R

<400> 182<400> 182

agcctataag acattccttt atgagtgata caaagtc 37agcctataag acattccttt atgagtgata caaagtc 37

<210> 183<210> 183

<211> 40<211> 40

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_021_F<223> 09_021_F

<400> 183<400> 183

gggttatttc tatataaaaa cgagcataaa attatagcag 40gggttatttc tatataaaaa cgagcataaa attatagcag 40

<210> 184<210> 184

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_021_R<223> 09_021_R

<400> 184<400> 184

taacaccatg ttttttcttc aaaaatgtgc atc 33taacaccatg ttttttcttc aaaaatgtgc atc 33

<210> 185<210> 185

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_064_F<223> 09_064_F

<400> 185<400> 185

gtactgacag aaggctcatg agtta 25gtactgacag aaggctcatg agtta 25

<210> 186<210> 186

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_064_R<223> 09_064_R

<400> 186<400> 186

attaccacac cactctttac tacag 25attaccacac cactctttac tacag 25

<210> 187<210> 187

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_072_F<223> 09_072_F

<400> 187<400> 187

attcctcttg acatccagcc accc 24attcctcttg acatccagcc accc 24

<210> 188<210> 188

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_072_R<223> 09_072_R

<400> 188<400> 188

ctagcaagac agacatacaa gctg 24ctagcaagac agacatacaa gctg 24

<210> 189<210> 189

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_084_F<223> 09_084_F

<400> 189<400> 189

cctcgaggtg gcttgtttgr gtgc 24cctcgaggtg gcttgtttgr gtgc 24

<210> 190<210> 190

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_084_R<223> 09_084_R

<400> 190<400> 190

acctgcccac caacctgacc ca 22acctgcccac caacctgacc ca 22

<210> 191<210> 191

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_109_F<223> 09_109_F

<400> 191<400> 191

agaccagaaa ttggaaaatg ttacagtggt c 31agaccagaaa ttggaaaatg ttacagtggt c 31

<210> 192<210> 192

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_109_R<223> 09_109_R

<400> 192<400> 192

accaaggaca catagctgac aaatgga 27accaaggaca catagctgac aaatgga 27

<210> 193<210> 193

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_117_F<223> 09_117_F

<400> 193<400> 193

aatttatttt ctccataaac tacctagtct ca 32aatttatttt ctccataaac tacctagtct ca 32

<210> 194<210> 194

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_117_R<223> 09_117_R

<400> 194<400> 194

gcaatgttat tgttccattg tgtcttagtc t 31gcaatgttat tgttccattg tgtcttagtc t 31

<210> 195<210> 195

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_132_F<223> 09_132_F

<400> 195<400> 195

ttactgagat gcccaacctg cgt 23ttactgagat gcccaacctg cgt 23

<210> 196<210> 196

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_132_R<223> 09_132_R

<400> 196<400> 196

ccgtttcctc cgcacttatg ctgc 24ccgtttcctc cgcacttatg ctgc 24

<210> 197<210> 197

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_001_F<223> 10_001_F

<400> 197<400> 197

gctataccat ttctcctatt gtata 25gctataccat ttctcctatt gtata 25

<210> 198<210> 198

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_001_R<223> 10_001_R

<400> 198<400> 198

aggtagcrta gagtagaaga aacagtgtaa c 31aggtagcrta gagtagaaga aacagtgtaa c 31

<210> 199<210> 199

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_026_F<223> 10_026_F

<400> 199<400> 199

ccaggctggt ctcaaactcc tgggc 25ccaggctggt ctcaaactcc tgggc 25

<210> 200<210> 200

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_026_R<223> 10_026_R

<400> 200<400> 200

taggaggccg aagcgggagg 20taggaggccg aagcgggagg 20

<210> 201<210> 201

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_035_F<223> 10_035_F

<400> 201<400> 201

tactcaggag gctgaggcag gag 23tactcaggag gctgaggcag gag 23

<210> 202<210> 202

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_035_R<223> 10_035_R

<400> 202<400> 202

tgcggtggca cgatctgggc tc 22tgcggtggca cgatctgggc tc 22

<210> 203<210> 203

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_047_F<223> 10_047_F

<400> 203<400> 203

gagtcatgat tcacragcag ttgtaagcaa tg 32gagtcatgat tcacragcag ttgtaagcaa tg 32

<210> 204<210> 204

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_047_R<223> 10_047_R

<400> 204<400> 204

tggggaaaac tgggtacagg gtacagt 27tggggaaaac tgggtacagg gtacagt 27

<210> 205<210> 205

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_071_F<223> 10_071_F

<400> 205<400> 205

gagtcaccca gagggatttt gacaat 26gagtcaccca gagggatttt gacaat 26

<210> 206<210> 206

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_071_R<223> 10_071_R

<400> 206<400> 206

cccacttaga aaaatccaat gagaatctca 30cccacttaga aaaatccaat gagaatctca 30

<210> 207<210> 207

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_085_F<223> 10_085_F

<400> 207<400> 207

tcagccacag aggaacagcc ag 22tcagccacag aggaacagcc ag 22

<210> 208<210> 208

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_085_R<223> 10_085_R

<400> 208<400> 208

gctttgccca actcacagaa ttac 24gctttgccca actcacagaa ttac 24

<210> 209<210> 209

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_117_F<223> 10_117_F

<400> 209<400> 209

aggaattcat ggcttaggtt ggaac 25aggaattcat ggcttaggtt ggaac 25

<210> 210<210> 210

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_117_R<223> 10_117_R

<400> 210<400> 210

ccgatctata ttcctgttct gatgtc 26ccgatctata ttcctgttct gatgtc 26

<210> 211<210> 211

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_128_F<223> 10_128_F

<400> 211<400> 211

cagcactgaa atttaaaatc ctggtcct 28cagcactgaa atttaaaatc ctggtcct 28

<210> 212<210> 212

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_128_R<223> 10_128_R

<400> 212<400> 212

ccgccaggga aaacaagcca catg 24ccgccaggga aaacaagcca catg 24

<210> 213<210> 213

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_006_F<223> 11_006_F

<400> 213<400> 213

acttcctgta tcattaattc cacctag 27acttcctgta tcattaattc cacctag 27

<210> 214<210> 214

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_006_R<223> 11_006_R

<400> 214<400> 214

gcagcactct gaacttttta ttgtctc 27gcagcactct gaacttttta ttgtctc 27

<210> 215<210> 215

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_020_F<223> 11_020_F

<400> 215<400> 215

taggagttct gactcagttc tggtg 25taggagttct gactcagttc tggtg 25

<210> 216<210> 216

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_020_R<223> 11_020_R

<400> 216<400> 216

ctgaccaaaa ctcaatggcc tttc 24ctgaccaaaa ctcaatggcc tttc 24

<210> 217<210> 217

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_034_F<223> 11_034_F

<400> 217<400> 217

atgggcgtat aaatattgcc tttctca 27atgggcgtat aaatattgcc tttctca 27

<210> 218<210> 218

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_034_R<223> 11_034_R

<400> 218<400> 218

agacacactc cctaaggtgt tatatg 26agacacactc cctaaggtgt tatatg 26

<210> 219<210> 219

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_059_F<223> 11_059_F

<400> 219<400> 219

tggtgggagt gtaaattagt tcaacca 27tggtgggagt gtaaattagt tcaacca 27

<210> 220<210> 220

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_059_R<223> 11_059_R

<400> 220<400> 220

tggttctaga tccttgagga atcaccac 28tggttctaga tccttgagga atcaccac 28

<210> 221<210> 221

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_084_F<223> 11_084_F

<400> 221<400> 221

ctaccagctc tttgtgtgtc ctaga 25ctaccagctc tttgtgtgtc ctaga 25

<210> 222<210> 222

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_084_R<223> 11_084_R

<400> 222<400> 222

ttcttagaac tttccatatg gccattg 27ttcttagaac tttccatatg gccattg 27

<210> 223<210> 223

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_094_F<223> 11_094_F

<400> 223<400> 223

ttatgctata aattagcaaa cccaacacat c 31ttatgctata aattagcaaa cccaacacat c 31

<210> 224<210> 224

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_094_R<223> 11_094_R

<400> 224<400> 224

gcagttcacc ctctaaaacc attcactc 28gcagttcacc ctctaaaacc attcactc 28

<210> 225<210> 225

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_111_F<223> 11_111_F

<400> 225<400> 225

agagggagga gtcgtgattg tct 23agagggagga gtcgtgattg tct 23

<210> 226<210> 226

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_111_R<223> 11_111_R

<400> 226<400> 226

ctgagcaggc tgccggaaac 20ctgagcaggc tgccggaaac 20

<210> 227<210> 227

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_135_F<223> 11_135_F

<400> 227<400> 227

aagcccttgg ccatacataa ggctc 25aagcccttgg ccatacataa ggctc 25

<210> 228<210> 228

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_135_R<223> 11_135_R

<400> 228<400> 228

gggagtggga gaatgagctc tcc 23gggagtggga gaatgagctc tcc 23

<210> 229<210> 229

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_013_F<223> 12_013_F

<400> 229<400> 229

gccttctctg ctctcttttg tg 22gccttctctg ctctcttttg tg 22

<210> 230<210> 230

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_013_R<223> 12_013_R

<400> 230<400> 230

gctattatcc actcttgcag atgaag 26gctattatcc actcttgcag atgaag 26

<210> 231<210> 231

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_024_F<223> 12_024_F

<400> 231<400> 231

ttcactgctt gtgtggtctt atataatcaa aac 33ttcactgctt gtgtggtctt atataatcaa aac 33

<210> 232<210> 232

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_024_R<223> 12_024_R

<400> 232<400> 232

agtgtagtct actctgttca ttttacacc 29agtgtagtct actctgttca ttttacacc 29

<210> 233<210> 233

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_074_F<223> 12_074_F

<400> 233<400> 233

tcaagaggta atctgaarac aggtctttc 29tcaagaggta atctgaarac aggtctttc 29

<210> 234<210> 234

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_074_R<223> 12_074_R

<400> 234<400> 234

actcagyagg cctaggttgc tc 22actcagyagg cctaggttgc tc 22

<210> 235<210> 235

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_090_F<223> 12_090_F

<400> 235<400> 235

cccatttata agccaatgtt tcattgtc 28cccatttata agccaatgtt tcattgtc 28

<210> 236<210> 236

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_090_R<223> 12_090_R

<400> 236<400> 236

acatcattta aatggagaga gtagctg 27acatcattta aatggagaga gtagctg 27

<210> 237<210> 237

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_100_F<223> 12_100_F

<400> 237<400> 237

attgcttttt atgacactac ycctcatgc 29attgcttttt atgacactac ycctcatgc 29

<210> 238<210> 238

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_100_R<223> 12_100_R

<400> 238<400> 238

tgggtccaga caaatcacaa gggttc 26tgggtccaga caaatcacaa gggttc 26

<210> 239<210> 239

<211> 40<211> 40

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_128_F<223> 12_128_F

<400> 239<400> 239

acctgaaatt gattcaaatg tgtcatgtga tctttcaaac 40acctgaaatt gattcaaatg tgtcatgtga tctttcaaac 40

<210> 240<210> 240

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_128_R<223> 12_128_R

<400> 240<400> 240

tgtcatataa cagaatgtga ctttgac 27tgtcatataa cagaatgtga ctttgac 27

<210> 241<210> 241

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_039_F<223> 13_039_F

<400> 241<400> 241

ggacttccta agatacactt cgattg 26ggacttccta agatacactt cgattg 26

<210> 242<210> 242

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_039_R<223> 13_039_R

<400> 242<400> 242

actgggttgg aacatccaaa acaatc 26actgggttgg aacatccaaa acaatc 26

<210> 243<210> 243

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_053_F<223> 13_053_F

<400> 243<400> 243

tcagatatat ggctcggtag cctcccyga 29tcagatatat ggctcggtag cctcccyga 29

<210> 244<210> 244

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_053_R<223> 13_053_R

<400> 244<400> 244

tcaaacctaa tgcctgtcta agtagac 27tcaaacctaa tgcctgtcta agtagac 27

<210> 245<210> 245

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_069_F<223> 13_069_F

<400> 245<400> 245

accatctcay cccadttaga atggcgatc 29accatctcay cccadttaga atggcgatc 29

<210> 246<210> 246

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_069_R<223> 13_069_R

<400> 246<400> 246

ttcctatttc tccacatcct ctccag 26ttcctatttc tccacatcct ctccag 26

<210> 247<210> 247

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_087_F<223> 13_087_F

<400> 247<400> 247

gtgacatttc cttgtcaaaa gaacattata g 31gtgacatttc cttgtcaaaa gaacattata g 31

<210> 248<210> 248

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_087_R<223> 13_087_R

<400> 248<400> 248

cattaggtca tggtaatttt ccctgag 27cattaggtca tggtaatttt ccctgag 27

<210> 249<210> 249

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_056_F<223> 14_056_F

<400> 249<400> 249

acctagggat ggaactttgg cttatg 26acctagggat ggaactttgg cttatg 26

<210> 250<210> 250

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_056_R<223> 14_056_R

<400> 250<400> 250

cactatagaa aacaggcttg tggttc 26cactatagaa aacaggcttg tggttc 26

<210> 251<210> 251

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_091_F<223> 14_091_F

<400> 251<400> 251

ggaattacaa tttataaatg taggtccaca tg 32ggaattacaa tttataaatg taggtccaca tg 32

<210> 252<210> 252

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_091_R<223> 14_091_R

<400> 252<400> 252

ccacactcat ttgtgtattt ctacactg 28ccacactcat ttgtgtattt ctacactg 28

<210> 253<210> 253

<211> 35<211> 35

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_046_F<223> 15_046_F

<400> 253<400> 253

taytgtgaaa ttgaagttta gagtcagttt cvaag 35taytgtgaaa ttgaagttta gagtcagttt cvaag 35

<210> 254<210> 254

<211> 40<211> 40

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_046_R<223> 15_046_R

<400> 254<400> 254

tctgcttgat aactgtacaa ctttatagta aaatgtgaac 40tctgcttgat aactgtacaa ctttatagta aaatgtgaac 40

<210> 255<210> 255

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_067_F<223> 15_067_F

<400> 255<400> 255

tcatctcctt gggaaatggc c 21tcatctcctt gggaaatggc c 21

<210> 256<210> 256

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_067_R<223> 15_067_R

<400> 256<400> 256

gcaccaggct catcctattc ttattac 27gcaccaggct catcctattc ttattac 27

<210> 257<210> 257

<211> 35<211> 35

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_087_F<223> 15_087_F

<400> 257<400> 257

gcagcaccag ttctgtctcc tactagtacc ttcag 35gcagcaccag ttctgtctcc tactagtacc ttcag 35

<210> 258<210> 258

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_087_R<223> 15_087_R

<400> 258<400> 258

tttgcaccag cctaatagtt ggtcttacag 30tttgcaccag cctaatagtt ggtcttacag 30

<210> 259<210> 259

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_097_F<223> 15_097_F

<400> 259<400> 259

agaacaccat gctttctgac agc 23agaacaccat gctttctgac agc 23

<210> 260<210> 260

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_097_R<223> 15_097_R

<400> 260<400> 260

ccagctatga aaagccaatt gctg 24ccagctatga aaagccaatt gctg 24

<210> 261<210> 261

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_000_F<223> 16_000_F

<400> 261<400> 261

actatgggtt tatcaagaat tccaagttg 29actatgggtt tatcaagaat tccaagttg 29

<210> 262<210> 262

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_000_R<223> 16_000_R

<400> 262<400> 262

gtcaaaggaa gtttcactgt aggg 24gtcaaaggaa gtttcactgt aggg 24

<210> 263<210> 263

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_012_F<223> 16_012_F

<400> 263<400> 263

cttagagtca tagtttacaa acataaaacc atg 33cttagagtca tagtttacaa acataaaacc atg 33

<210> 264<210> 264

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_012_R<223> 16_012_R

<400> 264<400> 264

ggcttagata tctcagacct accaatatc 29ggcttagata tctcagacct accaatatc 29

<210> 265<210> 265

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_024_F<223> 16_024_F

<400> 265<400> 265

ccttagcttg tatcaccctt tatcatctg 29ccttagcttg tatcaccctt tatcatctg 29

<210> 266<210> 266

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_024_R<223> 16_024_R

<400> 266<400> 266

agaaagaaga aaggaagtca cacag 25agaaagaaga aaggaagtca cacag 25

<210> 267<210> 267

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_064_F<223> 16_064_F

<400> 267<400> 267

agtgacskac atttggcaag aagccatg 28agtgacskac atttggcaag aagccatg 28

<210> 268<210> 268

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_064_R<223> 16_064_R

<400> 268<400> 268

agagaattta ttgtcaygct tgtgccaaag c 31agagaattta ttgtcaygct tgtgccaaag c 31

<210> 269<210> 269

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_076_F<223> 16_076_F

<400> 269<400> 269

agtgagtctg ttcagggtgc tacattgctg 30agtgagtctg ttcagggtgc tacattgctg 30

<210> 270<210> 270

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_076_R<223> 16_076_R

<400> 270<400> 270

gcatacagaa gccactcrga atacaatttc aag 33gcatacagaa gccactcrga atacaatttc aag 33

<210> 271<210> 271

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_001_F<223> 17_001_F

<400> 271<400> 271

gtaccccaca tagatagccg gaagg 25gtaccccaca tagatagccg gaagg 25

<210> 272<210> 272

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_001_R<223> 17_001_R

<400> 272<400> 272

tccttccagc ggtctctgtg g 21tccttccagc ggtctctgtg g 21

<210> 273<210> 273

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_057_F<223> 17_057_F

<400> 273<400> 273

tcccaaagga acccctatga ct 22tcccaaagga acccctatga ct 22

<210> 274<210> 274

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_057_R<223> 17_057_R

<400> 274<400> 274

ctcaggagct agcagtggga g 21ctcaggagct agcagtggga g 21

<210> 275<210> 275

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_083_F<223> 17_083_F

<400> 275<400> 275

ctccactttc cactgatgca g 21ctccactttc cactgatgca g 21

<210> 276<210> 276

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_083_R<223> 17_083_R

<400> 276<400> 276

gggagggagg ggtgctcggg at 22gggagggagg ggtgctcggg at 22

<210> 277<210> 277

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_001_F<223> 18_001_F

<400> 277<400> 277

cttcatgaat ggtttggcac chgttccttg 30cttcatgaat ggtttggcac chgttccttg 30

<210> 278<210> 278

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_001_R<223> 18_001_R

<400> 278<400> 278

acacactttt aaacaacaga tcttgtgata ac 32acacactttt aaacaacaga tcttgtgata ac 32

<210> 279<210> 279

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_030_F<223> 18_030_F

<400> 279<400> 279

agcttgacta aagtttagtc aacacagcaa ag 32agcttgacta aagtttagtc aacacagcaa ag 32

<210> 280<210> 280

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_030_R<223> 18_030_R

<400> 280<400> 280

ttgtgattgb ccaagtgttc acaact 26ttgtgattgb ccaagtgttc acaact 26

<210> 281<210> 281

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_051_F<223> 18_051_F

<400> 281<400> 281

acattcctcc tgtggrctct gctgcatc 28acattcctcc tgtggrctct gctgcatc 28

<210> 282<210> 282

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_051_R<223> 18_051_R

<400> 282<400> 282

aattgtgata gacaaatgcc tggc 24aattgtgata gacaaatgcc tggc 24

<210> 283<210> 283

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_065_F<223> 18_065_F

<400> 283<400> 283

gccactcaat ttctagccat tgccttagg 29gccactcaat ttctagccat tgccttagg 29

<210> 284<210> 284

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_065_R<223> 18_065_R

<400> 284<400> 284

cctgagacat ttgggtgaag gtttgtgtct ac 32cctgagacat ttgggtgaag gtttgtgtct ac 32

<210> 285<210> 285

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_075_F<223> 18_075_F

<400> 285<400> 285

acagcaaaga ggagagaaag agctgaac 28acagcaaaga ggagagaaag agctgaac 28

<210> 286<210> 286

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_075_R<223> 18_075_R

<400> 286<400> 286

aactaccctg ttctagtccc gcatcc 26aactaccctg ttctagtccc gcatcc 26

<210> 287<210> 287

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_002_F<223> 19_002_F

<400> 287<400> 287

ggctctgtca bcaggctgga gtgcaatgg 29ggctctgtca bcaggctgga gtgcaatgg 29

<210> 288<210> 288

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_002_R<223> 19_002_R

<400> 288<400> 288

cttgaaccct ggagacagag gtcgcag 27cttgaaccct ggagacagag gtcgcag 27

<210> 289<210> 289

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_015_F<223> 19_015_F

<400> 289<400> 289

gattttgtta tatgcagggt gtcctgaaac ca 32gattttgtta tatgcagggt gtcctgaaac ca 32

<210> 290<210> 290

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_015_R<223> 19_015_R

<400> 290<400> 290

ctctcacttt tcttctttat agtaagtcat tc 32ctctcacttt tcttctttat agtaagtcat tc 32

<210> 291<210> 291

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_029_F<223> 19_029_F

<400> 291<400> 291

ctachgcagg gaaaagggac ttagccgtag g 31ctachgcagg gaaaagggac ttagccgtag g 31

<210> 292<210> 292

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_029_R<223> 19_029_R

<400> 292<400> 292

agacatctgc aagaamtttc cagcaggc 28agacatctgc aagaamtttc cagcaggc 28

<210> 293<210> 293

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_044_F<223> 19_044_F

<400> 293<400> 293

gtagtggcta tttygtcygt cagctcctgt 30gtagtggcta tttygtcygt cagctcctgt 30

<210> 294<210> 294

<211> 33<211> 33

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_044_R<223> 19_044_R

<400> 294<400> 294

acattgaaac ccaatccaaa gaagctaaga atc 33acattgaaac ccaatccaaa gaagctaaga atc 33

<210> 295<210> 295

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_005_F<223> 20_005_F

<400> 295<400> 295

aagacacaaa gtktggcttc agataaagag ca 32aagacacaaa gtktggcttc agataaagag ca 32

<210> 296<210> 296

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_005_R<223> 20_005_R

<400> 296<400> 296

tgccaagcta tcttgtaaga aataactaca c 31tgccaagcta tcttgtaaga aataactaca c 31

<210> 297<210> 297

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_020_F<223> 20_020_F

<400> 297<400> 297

ggattttatt gtctcatatt cttgaagtg 29ggattttatt gtctcatatt cttgaagtg 29

<210> 298<210> 298

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_020_R<223> 20_020_R

<400> 298<400> 298

cagtagacaa tgccgagaaa gaatag 26cagtagacaa tgccgagaaa gaatag 26

<210> 299<210> 299

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_039_F<223> 20_039_F

<400> 299<400> 299

tctgattcca atctaatacc atagggct 28tctgattcca atctaatacc atagggct 28

<210> 300<210> 300

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_039_R<223> 20_039_R

<400> 300<400> 300

ggactaagct tctcattgtt gcagag 26ggactaagct tctcattgtt gcagag 26

<210> 301<210> 301

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_058_F<223> 20_058_F

<400> 301<400> 301

tattatgcct tttgtacccg atgtttg 27tattatgcct tttgtacccg atgtttg 27

<210> 302<210> 302

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_058_R<223> 20_058_R

<400> 302<400> 302

ccagttggca gctgggagag caaag 25ccagttggca gctgggagag caaag 25

<210> 303<210> 303

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_010_F<223> 21_010_F

<400> 303<400> 303

tggggtggag gtggggcaca gccttgttac 30tggggtggag gtggggcaca gccttgttac 30

<210> 304<210> 304

<211> 32<211> 32

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_010_R<223> 21_010_R

<400> 304<400> 304

aggcctacta tgaaactgga atcttcacat ac 32aggcctacta tgaaactgga atcttcacat ac 32

<210> 305<210> 305

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_038_F<223> 21_038_F

<400> 305<400> 305

gctgaatcta ctgtttggag cttacaataa g 31gctgaatcta ctgtttggag cttacaataa g 31

<210> 306<210> 306

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_038_R<223> 21_038_R

<400> 306<400> 306

accatgttat tccagctaca attctgtg 28accatgttat tccagctaca attctgtg 28

<210> 307<210> 307

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_042_F<223> 21_042_F

<400> 307<400> 307

cagaaatgca tgcacaaggc actc 24cagaaatgca tgcacaaggc actc 24

<210> 308<210> 308

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_042_R<223> 21_042_R

<400> 308<400> 308

ttgctattgt aactaatgtt gctgaggac 29ttgctattgt aactaatgtt gctgaggac 29

<210> 309<210> 309

<211> 34<211> 34

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_033_F<223> 22_033_F

<400> 309<400> 309

ttcctcttcc gtagatgggg ataagaagat ctac 34ttcctcttcc gtagatgggg ataagaagat ctac 34

<210> 310<210> 310

<211> 31<211> 31

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_033_R<223> 22_033_R

<400> 310<400> 310

ttaaatctgt gtcttcatat aatcctgttg a 31ttaaatctgt gtcttcatat aatcctgttg a 31

<210> 311<210> 311

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_046_F<223> 22_046_F

<400> 311<400> 311

tttgagacag agtcttgctc tgtcaca 27tttgagacag agtcttgctc tgtcaca 27

<210> 312<210> 312

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_046_R<223> 22_046_R

<400> 312<400> 312

tgcactgaga ttgcaccact acac 24tgcactgaga ttgcaccact acac 24

<210> 313<210> 313

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_004_F<223> X_004_F

<400> 313<400> 313

gccataaaaa agaaagaaat gctgcca 27gccataaaaa agaaagaaat gctgcca 27

<210> 314<210> 314

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_004_R<223> X_004_R

<400> 314<400> 314

cttagtccag tgttctctag gttcacg 27cttagtccag tgttctctag gttcacg 27

<210> 315<210> 315

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_029_F<223> X_029_F

<400> 315<400> 315

ggaagttgtc attggaactt ctgctg 26ggaagttgtc attggaactt ctgctg 26

<210> 316<210> 316

<211> 29<211> 29

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_029_R<223> X_029_R

<400> 316<400> 316

gggttgagag taaggtatga aaattctgg 29gggttgagag taaggtatga aaattctgg 29

<210> 317<210> 317

<211> 34<211> 34

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_083_F<223> X_083_F

<400> 317<400> 317

gcaatttcca atgtcaaatt aaaattcttc taac 34gcaatttcca atgtcaaatt aaaattcttc taac 34

<210> 318<210> 318

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_083_R<223> X_083_R

<400> 318<400> 318

ctgtaaataa ggagtttcat tatttagtgg 30ctgtaaataa ggagtttcat tatttagtgg 30

<210> 319<210> 319

<211> 30<211> 30

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_095_F<223> X_095_F

<400> 319<400> 319

agtatgtttt caaatcagga attgtgatgt 30agtatgtttt caaatcagga attgtgatgt 30

<210> 320<210> 320

<211> 26<211> 26

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_095_R<223> X_095_R

<400> 320<400> 320

gcacaaaaga cctggtcaag acaaac 26gcacaaaaga cctggtcaag acaaac 26

<210> 321<210> 321

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_138_F<223> X_138_F

<400> 321<400> 321

gagttttgca gaaggtacag caact 25gagttttgca gaaggtacag caact 25

<210> 322<210> 322

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_138_R<223> X_138_R

<400> 322<400> 322

tcagtcttgc atttgagaga caatc 25tcagtcttgc atttgagaga caatc 25

<210> 323<210> 323

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_141_F<223> X_141_F

<400> 323<400> 323

gaccaaattc agtatgctgg gagt 24gaccaaattc agtatgctgg gagt 24

<210> 324<210> 324

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_141_R<223> X_141_R

<400> 324<400> 324

gtagcctcca ttttaccctg ttcc 24gtagcctcca ttttaccctg ttcc 24

<210> 325<210> 325

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_007_I<223> 01_007_I

<400> 325<400> 325

caaaactaaa tgaaagataa tc 22caaaactaaa tgaaagataa tc 22

<210> 326<210> 326

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_007_D<223> 01_007_D

<400> 326<400> 326

gcaaaactaa aaaagataat ct 22gcaaaactaa aaaagataat ct 22

<210> 327<210> 327

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_031_I<223> 01_031_I

<400> 327<400> 327

gttaggacgt gtgrtcttg 19gttaggacgt gtgrtcttg 19

<210> 328<210> 328

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_031_D<223> 01_031_D

<400> 328<400> 328

gttaggactg tgrtcttgtg 20gttaggactg tgrtcttgtg 20

<210> 329<210> 329

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_041_I<223> 01_041_I

<400> 329<400> 329

ccttcatttc ctcaactgtg 20ccttcatttc ctcaactgtg 20

<210> 330<210> 330

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_041_D<223> 01_041_D

<400> 330<400> 330

ccttcatttc aactgtgca 19ccttcatttc aactgtgca 19

<210> 331<210> 331

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_059_I<223> 01_059_I

<400> 331<400> 331

ctaagcaaat acttagttcc c 21ctaagcaaat acttagttcc c 21

<210> 332<210> 332

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_059_D<223> 01_059_D

<400> 332<400> 332

actaagcaaa tagttccctt c 21actaagcaaa tagttccctt c 21

<210> 333<210> 333

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_083_I<223> 01_083_I

<400> 333<400> 333

tcacttgtca cactatgtg 19tcacttgtca cactatgtg 19

<210> 334<210> 334

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_083_D<223> 01_083_D

<400> 334<400> 334

tttcacttgt cactatgtg 19tttcacttgt cactatgtg 19

<210> 335<210> 335

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_101_I<223> 01_101_I

<400> 335<400> 335

catttctcta agtaatcag 19catttctcta agtaatcag 19

<210> 336<210> 336

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_101_D<223> 01_101_D

<400> 336<400> 336

gacatttctc taatcagaa 19gacatttctc taatcagaa 19

<210> 337<210> 337

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_119_I<223> 01_119_I

<400> 337<400> 337

tcaatcatgg ggtaaatgga 20tcaatcatgg ggtaaatgga 20

<210> 338<210> 338

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_119_D<223> 01_119_D

<400> 338<400> 338

atcaatcatg ggtaaatgga 20atcaatcatg ggtaaatgga 20

<210> 339<210> 339

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_154_I<223> 01_154_I

<400> 339<400> 339

gtgggattgt aagtaagagc 20gtgggattgt aagtaagagc 20

<210> 340<210> 340

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_154_D<223> 01_154_D

<400> 340<400> 340

agtgggattg taagagctg 19agtgggattg taagagctg 19

<210> 341<210> 341

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_170_I<223> 01_170_I

<400> 341<400> 341

gagactcaga gatgtta 17gagactcaga gatgtta 17

<210> 342<210> 342

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_170_D<223> 01_170_D

<400> 342<400> 342

ctgagactca gatgttaa 18ctgagactca gatgttaa 18

<210> 343<210> 343

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_192_I<223> 01_192_I

<400> 343<400> 343

gtggttcaaa taatctattc c 21gtggttcaaa taatctattc c 21

<210> 344<210> 344

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_192_D<223> 01_192_D

<400> 344<400> 344

gtggttcaaa tctattcctg 20gtggttcaaa tctattcctg 20

<210> 345<210> 345

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_208_I<223> 01_208_I

<400> 345<400> 345

atttcagttt tcttcgagat c 21atttcagttt tcttcgagat c 21

<210> 346<210> 346

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_208_D<223> 01_208_D

<400> 346<400> 346

ttttcctctt atcaaatctg g 21ttttcctctt atcaaatctg g 21

<210> 347<210> 347

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_223_I<223> 01_223_I

<400> 347<400> 347

gaaagacact gtgaaggag 19gaaagacact gtgaaggag 19

<210> 348<210> 348

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_223_D<223> 01_223_D

<400> 348<400> 348

ggaaagacac tgaaggagg 19ggaaagacac tgaaggagg 19

<210> 349<210> 349

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_233_I<223> 01_233_I

<400> 349<400> 349

attgtacttc tttatttcca g 21attgtacttc tttatttcca g 21

<210> 350<210> 350

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_233_D<223> 01_233_D

<400> 350<400> 350

gaaattgtac ttatttccag a 21gaaattgtac ttatttccag a 21

<210> 351<210> 351

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_240_I<223> 01_240_I

<400> 351<400> 351

catatttaaa ttggttggtt aag 23catatttaaa ttggttggtt aag 23

<210> 352<210> 352

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 01_240_D<223> 01_240_D

<400> 352<400> 352

gcatatttaa attggttaag agc 23gcatatttaa attggttaag agc 23

<210> 353<210> 353

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_011_I<223> 02_011_I

<400> 353<400> 353

accaggaact ctggccct 18accaggaact ctggccct 18

<210> 354<210> 354

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_011_D<223> 02_011_D

<400> 354<400> 354

caccaggatg gccctgtt 18caccaggatg gccctgtt 18

<210> 355<210> 355

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_036_I<223> 02_036_I

<400> 355<400> 355

ttcagaactg tctctggca 19ttcagaactg tctctggca 19

<210> 356<210> 356

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_036_D<223> 02_036_D

<400> 356<400> 356

ctttcagaac tctggcaat 19ctttcagaac tctggcaat 19

<210> 357<210> 357

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_042_I<223> 02_042_I

<400> 357<400> 357

acacatgcat aataaccct 19acacatgcat aataaccct 19

<210> 358<210> 358

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_042_D<223> 02_042_D

<400> 358<400> 358

caacacatgc ataaccctt 19caacacatgc ataaccctt 19

<210> 359<210> 359

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_061_I<223> 02_061_I

<400> 359<400> 359

caaattcctc cccatca 17caaattcctc cccatca 17

<210> 360<210> 360

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_061_D<223> 02_061_D

<400> 360<400> 360

caaattcctc ccatcat 17caaattcctc ccatcat 17

<210> 361<210> 361

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_080_I<223> 02_080_I

<400> 361<400> 361

ctgcagacag agcatgtc 18ctgcagacag agcatgtc 18

<210> 362<210> 362

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_080_D<223> 02_080_D

<400> 362<400> 362

ctgcagacag catgtcct 18ctgcagacag catgtcct 18

<210> 363<210> 363

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_101_I<223> 02_101_I

<400> 363<400> 363

gctaattagg gaaccttgc 19gctaattagg gaaccttgc 19

<210> 364<210> 364

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_101_D<223> 02_101_D

<400> 364<400> 364

agctaattag gaaccttgc 19agctaattag gaaccttgc 19

<210> 365<210> 365

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_113_I<223> 02_113_I

<400> 365<400> 365

tatgaagtag gtgaagga 18tatgaagtag gtgaagga 18

<210> 366<210> 366

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_113_D<223> 02_113_D

<400> 366<400> 366

ctatgaagta gtgaaggag 19ctatgaagta gtgaaggag 19

<210> 367<210> 367

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_150_I<223> 02_150_I

<400> 367<400> 367

aagcaccgcc agagctct 18aagcaccgcc agagctct 18

<210> 368<210> 368

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_150_D<223> 02_150_D

<400> 368<400> 368

gattggaagt ctgaggact 19gattggaagt ctgaggact 19

<210> 369<210> 369

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_215_I<223> 02_215_I

<400> 369<400> 369

gtatcataaa gagaaagggc 20gtatcataaa gagaaagggc 20

<210> 370<210> 370

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_215_D<223> 02_215_D

<400> 370<400> 370

tgtatcataa aaagggcatg 20tgtatcataa aaagggcatg 20

<210> 371<210> 371

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_231_I<223> 02_231_I

<400> 371<400> 371

caaagaaagc ctgttccta 19caaagaaagc ctgttccta 19

<210> 372<210> 372

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 02_231_D<223> 02_231_D

<400> 372<400> 372

acaaagaaag ctgttcctag 20acaaagaaag ctgttcctag 20

<210> 373<210> 373

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_016_I<223> 03_016_I

<400> 373<400> 373

tgagtcttgc gctgacc 17tgagtcttgc gctgacc 17

<210> 374<210> 374

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_016_D<223> 03_016_D

<400> 374<400> 374

gtgagtcttg ctgaccc 17gtgagtcttg ctgaccc 17

<210> 375<210> 375

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_030_I<223> 03_030_I

<400> 375<400> 375

ctgcacataa gccataat 18ctgcacataa gccataat 18

<210> 376<210> 376

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_030_D<223> 03_030_D

<400> 376<400> 376

tacctgcaca taatttca 18tacctgcaca taatttca 18

<210> 377<210> 377

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_063_I<223> 03_063_I

<400> 377<400> 377

gaaccagcgt gatgtaatag 20gaaccagcgt gatgtaatag 20

<210> 378<210> 378

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_063_D<223> 03_063_D

<400> 378<400> 378

gaatgaagaa agggaatgag 20gaatgaagaa agggaatgag 20

<210> 379<210> 379

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_082_I<223> 03_082_I

<400> 379<400> 379

ataggtactg gattcacagc 20ataggtactg gattcacagc 20

<210> 380<210> 380

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_082_D<223> 03_082_D

<400> 380<400> 380

cataggtact gattcacagc 20cataggtact gattcacagc 20

<210> 381<210> 381

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_100_I<223> 03_100_I

<400> 381<400> 381

agatccccct gttttcag 18agatccccct gttttcag 18

<210> 382<210> 382

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_100_D<223> 03_100_D

<400> 382<400> 382

agatccccgt tttcagtc 18agatccccgt tttcagtc 18

<210> 383<210> 383

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_107_I<223> 03_107_I

<400> 383<400> 383

taaacttcac caagtactct t 21taaacttcac caagtactct t 21

<210> 384<210> 384

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_107_D<223> 03_107_D

<400> 384<400> 384

cataaacttc aagtactctt tc 22cataaacttc aagtactctt tc 22

<210> 385<210> 385

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_124_I<223> 03_124_I

<400> 385<400> 385

ctgtggaaac acagagtaa 19ctgtggaaac acagagtaa 19

<210> 386<210> 386

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_124_D<223> 03_124_D

<400> 386<400> 386

tctgtggaaa cagagtaat 19tctgtggaaa cagagtaat 19

<210> 387<210> 387

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_162_I<223> 03_162_I

<400> 387<400> 387

tggtgtgatc tcggctca 18tggtgtgatc tcggctca 18

<210> 388<210> 388

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_162_D<223> 03_162_D

<400> 388<400> 388

tggtgtgatc ggctcact 18tggtgtgatc ggctcact 18

<210> 389<210> 389

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_182_I<223> 03_182_I

<400> 389<400> 389

agtttcagac aggaatggt 19agtttcagac aggaatggt 19

<210> 390<210> 390

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_182_D<223> 03_182_D

<400> 390<400> 390

tagtttcaga aggaatggt 19tagtttcaga aggaatggt 19

<210> 391<210> 391

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_194_I<223> 03_194_I

<400> 391<400> 391

atgcctcctt cttctgtaac 20atgcctcctt cttctgtaac 20

<210> 392<210> 392

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 03_194_D<223> 03_194_D

<400> 392<400> 392

gatgcctcct tctgtaaca 19gatgcctcct tctgtaaca 19

<210> 393<210> 393

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_008_I<223> 04_008_I

<400> 393<400> 393

ccccagctag gtaggact 18ccccagctag gtaggact 18

<210> 394<210> 394

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_008_D<223> 04_008_D

<400> 394<400> 394

cccagctagg actagcac 18cccagctagg actagcac 18

<210> 395<210> 395

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_027_I<223> 04_027_I

<400> 395<400> 395

tcactaaaac ttattcttg 19tcactaaaac ttattcttg 19

<210> 396<210> 396

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_027_D<223> 04_027_D

<400> 396<400> 396

tcactaaaat tattcttgc 19tcactaaaat tattcttgc 19

<210> 397<210> 397

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_045_I<223> 04_045_I

<400> 397<400> 397

ggccatgggg cattctt 17ggccatgggg cattctt 17

<210> 398<210> 398

<211> 17<211> 17

<212> DNA<212> DNA

<213> 04_045_D<213> 04_045_D

<400> 398<400> 398

ggccatgggc attcttg 17ggccatgggc attcttg 17

<210> 399<210> 399

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_056_I<223> 04_056_I

<400> 399<400> 399

attgcacact ctgggtaag 19attgcacact ctgggtaag 19

<210> 400<210> 400

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_056_D<223> 04_056_D

<400> 400<400> 400

attgcacact gggtaagag 19attgcacact gggtaagag 19

<210> 401<210> 401

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_065_I<223> 04_065_I

<400> 401<400> 401

tgactactca attgcat 17tgactactca attgcat 17

<210> 402<210> 402

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_065_D<223> 04_065_D

<400> 402<400> 402

gtgactacta attgcat 17gtgactacta attgcat 17

<210> 403<210> 403

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_085_I<223> 04_085_I

<400> 403<400> 403

ccagtcactc tgtaccag 18ccagtcactc tgtaccag 18

<210> 404<210> 404

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_085_D<223> 04_085_D

<400> 404<400> 404

cccagtcact gtaccagg 18cccagtcact gtaccagg 18

<210> 405<210> 405

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_112_I<223> 04_112_I

<400> 405<400> 405

tatacatctg cattgattgg a 21tatacatctg cattgattgg a 21

<210> 406<210> 406

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_112_D<223> 04_112_D

<400> 406<400> 406

gcacaaatat acattggata ttc 23gcacaaatat acattggata ttc 23

<210> 407<210> 407

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_137_I<223> 04_137_I

<400> 407<400> 407

ccctaccttg tagctgac 18ccctaccttg tagctgac 18

<210> 408<210> 408

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_137_D<223> 04_137_D

<400> 408<400> 408

gtacctatcc gacaacctg 19gtacctatcc gacaacctg 19

<210> 409<210> 409

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_154_I<223> 04_154_I

<400> 409<400> 409

gtgacttcct ataaaaact 19gtgacttcct ataaaaact 19

<210> 410<210> 410

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_154_D<223> 04_154_D

<400> 410<400> 410

agtgacttcc taaaaactc 19agtgacttcc taaaaactc 19

<210> 411<210> 411

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_177_I<223> 04_177_I

<400> 411<400> 411

ttcaacttga cttgtgtaac 20ttcaacttga cttgtgtaac 20

<210> 412<210> 412

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 04_177_D<223> 04_177_D

<400> 412<400> 412

gaatttcaac ttgtgtaact t 21gaatttcaac ttgtgtaact t 21

<210> 413<210> 413

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_003_I<223> 05_003_I

<400> 413<400> 413

tcttgcctcc tttatttcc 19tcttgcctcc tttatttcc 19

<210> 414<210> 414

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_003_D<223> 05_003_D

<400> 414<400> 414

gtcttgcctc tttatttcct 20gtcttgcctc tttatttcct 20

<210> 415<210> 415

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_013_I<223> 05_013_I

<400> 415<400> 415

catatcttca caagacaaag g 21catatcttca caagacaaag g 21

<210> 416<210> 416

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_013_D<223> 05_013_D

<400> 416<400> 416

gaaaatcata tcaaagggag a 21gaaaatcata tcaaagggag a 21

<210> 417<210> 417

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_065_I<223> 05_065_I

<400> 417<400> 417

catgtaatga aaggaataaa tcc 23catgtaatga aaggaataaa tcc 23

<210> 418<210> 418

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_065_D<223> 05_065_D

<400> 418<400> 418

aaaacatgta atgaataaat ccat 24aaaacatgta atgaataaat ccat 24

<210> 419<210> 419

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_074_I<223> 05_074_I

<400> 419<400> 419

ccaccttccc ctcccct 17ccaccttccc ctcccct 17

<210> 420<210> 420

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_074_D<223> 05_074_D

<400> 420<400> 420

tttccacctt cccctttttt 20tttccacctt cccctttttt 20

<210> 421<210> 421

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_087_I<223> 05_087_I

<400> 421<400> 421

atagacactg cagactacta g 21atagacactg cagactacta g 21

<210> 422<210> 422

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_087_D<223> 05_087_D

<400> 422<400> 422

gaaaaaaata gagaggggag a 21gaaaaaaata gagaggggag a 21

<210> 423<210> 423

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_096_I<223> 05_096_I

<400> 423<400> 423

cagcagcatc atgagattt 19cagcagcatc atgagattt 19

<210> 424<210> 424

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_096_D<223> 05_096_D

<400> 424<400> 424

gcagcagcat gagatttc 18gcagcagcat gagatttc 18

<210> 425<210> 425

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_115_I<223> 05_115_I

<400> 425<400> 425

tgagacccta aacagagga 19tgagacccta aacagagga 19

<210> 426<210> 426

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_115_D<223> 05_115_D

<400> 426<400> 426

cttgtgagac ccagttaag 19cttgtgagac ccagttaag 19

<210> 427<210> 427

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_119_I<223> 05_119_I

<400> 427<400> 427

ataggggaac atctagataa c 21ataggggaac atctagataa c 21

<210> 428<210> 428

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_119_D<223> 05_119_D

<400> 428<400> 428

gctcataggg gatctagata aca 23gctcataggg gatctagata aca 23

<210> 429<210> 429

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_132_I<223> 05_132_I

<400> 429<400> 429

agcagaacag gagactagg 19agcagaacag gagactagg 19

<210> 430<210> 430

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_132_D<223> 05_132_D

<400> 430<400> 430

agcagaacag actaggttg 19agcagaacag actaggttg 19

<210> 431<210> 431

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_141_I<223> 05_141_I

<400> 431<400> 431

ccactctgat tggtttccg 19ccactctgat tggtttccg 19

<210> 432<210> 432

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_141_D<223> 05_141_D

<400> 432<400> 432

cttccactct ggtttccg 18cttccactct ggtttccg 18

<210> 433<210> 433

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_151_I<223> 05_151_I

<400> 433<400> 433

gtgctcttac tcagttaatg a 21gtgctcttac tcagttaatg a 21

<210> 434<210> 434

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_151_D<223> 05_151_D

<400> 434<400> 434

aggtgctctt agttaatgat g 21aggtgctctt agttaatgat g 21

<210> 435<210> 435

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_180_I<223> 05_180_I

<400> 435<400> 435

cactaggtca atgataactt ag 22cactaggtca atgataactt ag 22

<210> 436<210> 436

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 05_180_D<223> 05_180_D

<400> 436<400> 436

cactaggtca ataacttagt ac 22cactaggtca ataacttagt ac 22

<210> 437<210> 437

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_007_I<223> 06_007_I

<400> 437<400> 437

cattgtaact cagttttccc 20cattgtaact cagttttccc 20

<210> 438<210> 438

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_007_D<223> 06_007_D

<400> 438<400> 438

cattgtaact gttttccctc 20cattgtaact gttttccctc 20

<210> 439<210> 439

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_016_I<223> 06_016_I

<400> 439<400> 439

tcaggtagca gagaaggg 18tcaggtagca gagaaggg 18

<210> 440<210> 440

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_016_D<223> 06_016_D

<400> 440<400> 440

ttcaggtaga gagaaggga 19ttcaggtaga gagaaggga 19

<210> 441<210> 441

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_031_I<223> 06_031_I

<400> 441<400> 441

tcraaagcac agccagaga 19tcraaagcac agccagaga 19

<210> 442<210> 442

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_031_D<223> 06_031_D

<400> 442<400> 442

tttcraaagc gccagagac 19tttcraaagc gccagagac 19

<210> 443<210> 443

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_057_I<223> 06_057_I

<400> 443<400> 443

tataaatcat tattttaaca gg 22tataaatcat tattttaaca gg 22

<210> 444<210> 444

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_057_D<223> 06_057_D

<400> 444<400> 444

gattataaat catttaacag g 21gattataaat catttaacag g 21

<210> 445<210> 445

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_071_I<223> 06_071_I

<400> 445<400> 445

gttcctcatc tttcatggt 19gttcctcatc tttcatggt 19

<210> 446<210> 446

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_071_D<223> 06_071_D

<400> 446<400> 446

ctgttcctca ttcatggtt 19ctgttcctca ttcatggtt 19

<210> 447<210> 447

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_077_I<223> 06_077_I

<400> 447<400> 447

cagactcagt tcatgaactc 20cagactcagt tcatgaactc 20

<210> 448<210> 448

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_077_D<223> 06_077_D

<400> 448<400> 448

tcagttcaga ctccactgac 20tcagttcaga ctccactgac 20

<210> 449<210> 449

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_087_I<223> 06_087_I

<400> 449<400> 449

gcagttagaa ggaacactc 19gcagttagaa ggaacactc 19

<210> 450<210> 450

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_087_D<223> 06_087_D

<400> 450<400> 450

tgctgtatgc tgctatttg 19tgctgtatgc tgctatttg 19

<210> 451<210> 451

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_096_I<223> 06_096_I

<400> 451<400> 451

tgaatgcccg cccactc 17tgaatgcccg cccactc 17

<210> 452<210> 452

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_096_D<223> 06_096_D

<400> 452<400> 452

cactgaatgc ccactca 17cactgaatgc ccactca 17

<210> 453<210> 453

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_113_I<223> 06_113_I

<400> 453<400> 453

gtgtgagatg ggtatctca 19gtgtgagatg ggtatctca 19

<210> 454<210> 454

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_113_D<223> 06_113_D

<400> 454<400> 454

gtgtgagatg gtatctcat 19gtgtgagatg gtatctcat 19

<210> 455<210> 455

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_125_I<223> 06_125_I

<400> 455<400> 455

acatgtcagt tgtttcttaa at 22acatgtcagt tgtttcttaa at 22

<210> 456<210> 456

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_125_D<223> 06_125_D

<400> 456<400> 456

attacatgtc agtttcttaa ataa 24attacatgtc agtttcttaa ataa 24

<210> 457<210> 457

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_135_I<223> 06_135_I

<400> 457<400> 457

caggggaatg aatgattttg 20caggggaatg aatgattttg 20

<210> 458<210> 458

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_135_D<223> 06_135_D

<400> 458<400> 458

gtcaggggaa tgattttga 19gtcaggggaa tgattttga 19

<210> 459<210> 459

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_143_I<223> 06_143_I

<400> 459<400> 459

caacattgaa caaagtcctt g 21caacattgaa caaagtcctt g 21

<210> 460<210> 460

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_143_D<223> 06_143_D

<400> 460<400> 460

tatacaacat tgtcctcatg g 21tatacaacat tgtcctcatg g 21

<210> 461<210> 461

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_153_I<223> 06_153_I

<400> 461<400> 461

atttccccaa tttgataatt ttt 23atttccccaa tttgataatt ttt 23

<210> 462<210> 462

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_153_D<223> 06_153_D

<400> 462<400> 462

ttgaatattt cttttttgtt cag 23ttgaatattt cttttttgtt cag 23

<210> 463<210> 463

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_158_I<223> 06_158_I

<400> 463<400> 463

gctttcattc agtcagtctc 20gctttcattc agtcagtctc 20

<210> 464<210> 464

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_158_D<223> 06_158_D

<400> 464<400> 464

aactatgctt tcagtctctg 20aactatgctt tcagtctctg 20

<210> 465<210> 465

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_167_I<223> 06_167_I

<400> 465<400> 465

gctgataaca ttcattcatt c 21gctgataaca ttcattcatt c 21

<210> 466<210> 466

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 06_167_D<223> 06_167_D

<400> 466<400> 466

ggctgataac atattcattc a 21ggctgataac atattcattc a 21

<210> 467<210> 467

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_010_I<223> 07_010_I

<400> 467<400> 467

caatcaatgg gtggaactg 19caatcaatgg gtggaactg 19

<210> 468<210> 468

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_010_D<223> 07_010_D

<400> 468<400> 468

caatcaatgg tggaactgg 19caatcaatgg tggaactgg 19

<210> 469<210> 469

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_023_I<223> 07_023_I

<400> 469<400> 469

gattttgcct gataaccttc 20gattttgcct gataaccttc 20

<210> 470<210> 470

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_023_D<223> 07_023_D

<400> 470<400> 470

tgctgctgat ttcttctctt 20tgctgctgat ttcttctctt 20

<210> 471<210> 471

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_040_I<223> 07_040_I

<400> 471<400> 471

tgagaaaagc ccgtgaatg 19tgagaaaagc ccgtgaatg 19

<210> 472<210> 472

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_040_D<223> 07_040_D

<400> 472<400> 472

tgagaaaagc cgtgaatgt 19tgagaaaagc cgtgaatgt 19

<210> 473<210> 473

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_062_I<223> 07_062_I

<400> 473<400> 473

ccattcgatg acgattcca 19ccattcgatg acgattcca 19

<210> 474<210> 474

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_062_D<223> 07_062_D

<400> 474<400> 474

cattcaattc catccgataa ta 22cattcaattc catccgataa ta 22

<210> 475<210> 475

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_082_I<223> 07_082_I

<400> 475<400> 475

catgatggta ttatgatcta gt 22catgatggta ttatgatcta gt 22

<210> 476<210> 476

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_082_D<223> 07_082_D

<400> 476<400> 476

catgatggta tgatctagta tg 22catgatggta tgatctagta tg 22

<210> 477<210> 477

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_097_I<223> 07_097_I

<400> 477<400> 477

cagttaatgt atttggtttc ac 22cagttaatgt atttggtttc ac 22

<210> 478<210> 478

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_097_D<223> 07_097_D

<400> 478<400> 478

cagttaatgt ttcacctgc 19cagttaatgt ttcacctgc 19

<210> 479<210> 479

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_112_I<223> 07_112_I

<400> 479<400> 479

ctgaggcagg agaatcac 18ctgaggcagg agaatcac 18

<210> 480<210> 480

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_112_D<223> 07_112_D

<400> 480<400> 480

gctgaggcag agaatcac 18gctgaggcag agaatcac 18

<210> 481<210> 481

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_126_I<223> 07_126_I

<400> 481<400> 481

attaactcag atagccctaa g 21attaactcag atagccctaa g 21

<210> 482<210> 482

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_126_D<223> 07_126_D

<400> 482<400> 482

attaactcag ccctaagaag 20attaactcag ccctaagaag 20

<210> 483<210> 483

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_140_I<223> 07_140_I

<400> 483<400> 483

tatttggcag agtcttttgt 20tatttggcag agtcttttgt 20

<210> 484<210> 484

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_140_D<223> 07_140_D

<400> 484<400> 484

atatttggca gtcttttgtt t 21atatttggca gtcttttgtt t 21

<210> 485<210> 485

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_153_I<223> 07_153_I

<400> 485<400> 485

cttattttct gtacagtgtt ttcac 25cttattttct gtacagtgtt ttcac 25

<210> 486<210> 486

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 07_153_D<223> 07_153_D

<400> 486<400> 486

cttattttca ctacggtcac 20cttattttca ctacggtcac 20

<210> 487<210> 487

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_002_I<223> 08_002_I

<400> 487<400> 487

tgtctttgag gtttcctcc 19tgtctttgag gtttcctcc 19

<210> 488<210> 488

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_002_D<223> 08_002_D

<400> 488<400> 488

tgtctttgag tttcctccc 19tgtctttgag tttcctccc 19

<210> 489<210> 489

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_013_I<223> 08_013_I

<400> 489<400> 489

cattagtttt ccccatttta ct 22cattagtttt ccccatttta ct 22

<210> 490<210> 490

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_013_D<223> 08_013_D

<400> 490<400> 490

acattagttt tcccatttta ctt 23acattagttt tcccatttta ctt 23

<210> 491<210> 491

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_033_I<223> 08_033_I

<400> 491<400> 491

agcttcctca ggtaaaatat tt 22agcttcctca ggtaaaatat tt 22

<210> 492<210> 492

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_033_D<223> 08_033_D

<400> 492<400> 492

ggaaagcttc ctcagtaaaa tatt 24ggaaagcttc ctcagtaaaa tatt 24

<210> 493<210> 493

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_058_I<223> 08_058_I

<400> 493<400> 493

tcgtacaaag tgtctacact aca 23tcgtacaaag tgtctacact aca 23

<210> 494<210> 494

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_058_D<223> 08_058_D

<400> 494<400> 494

tctcgtacaa agtctacact aca 23tctcgtacaa agtctacact aca 23

<210> 495<210> 495

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_064_I<223> 08_064_I

<400> 495<400> 495

gctaaaccca aaatatgagt g 21gctaaaccca aaatatgagt g 21

<210> 496<210> 496

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_064_D<223> 08_064_D

<400> 496<400> 496

gctaaaccca atatgagtgt 20gctaaaccca atatgagtgt 20

<210> 497<210> 497

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_082_I<223> 08_082_I

<400> 497<400> 497

gacactctgt gtatctagct 20gacactctgt gtatctagct 20

<210> 498<210> 498

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_082_D<223> 08_082_D

<400> 498<400> 498

cgacactctg tatctagct 19cgacactctg tatctagct 19

<210> 499<210> 499

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_103_I<223> 08_103_I

<400> 499<400> 499

acagtggact gtgggggt 18acagtggact gtgggggt 18

<210> 500<210> 500

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_103_D<223> 08_103_D

<400> 500<400> 500

acagtggatg tgggggtg 18acagtggatg tgggggtg 18

<210> 501<210> 501

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_125_I<223> 08_125_I

<400> 501<400> 501

ctctgtgcag gcacaggt 18ctctgtgcag gcacaggt 18

<210> 502<210> 502

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_125_D<223> 08_125_D

<400> 502<400> 502

cctctgtgca gcacaggt 18cctctgtgca gcacaggt 18

<210> 503<210> 503

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_139_I<223> 08_139_I

<400> 503<400> 503

caaaggctga gcagatgc 18caaaggctga gcagatgc 18

<210> 504<210> 504

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 08_139_D<223> 08_139_D

<400> 504<400> 504

cctcgcaaat gccggct 17cctcgcaaat gccggct 17

<210> 505<210> 505

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_000_I<223> 09_000_I

<400> 505<400> 505

acttttcttt tctctgaatt tatatag 27acttttcttt tctctgaatt tatatag 27

<210> 506<210> 506

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_000_D<223> 09_000_D

<400> 506<400> 506

cacttttctt ttcttgaatt tatatag 27cacttttctt ttcttgaatt tatatag 27

<210> 507<210> 507

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_021_I<223> 09_021_I

<400> 507<400> 507

cagaaaatga tcatgatgca ca 22cagaaaatga tcatgatgca ca 22

<210> 508<210> 508

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_021_D<223> 09_021_D

<400> 508<400> 508

tagcagaaaa tgatgcacat tt 22tagcagaaaa tgatgcacat tt 22

<210> 509<210> 509

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_064_I<223> 09_064_I

<400> 509<400> 509

agtctattgg aaatgtgcta c 21agtctattgg aaatgtgcta c 21

<210> 510<210> 510

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_064_D<223> 09_064_D

<400> 510<400> 510

ctaagtctat tctgtgctac tg 22ctaagtctat tctgtgctac tg 22

<210> 511<210> 511

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_072_I<223> 09_072_I

<400> 511<400> 511

atgtgctcct ctcaacatc 19atgtgctcct ctcaacatc 19

<210> 512<210> 512

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_072_D<223> 09_072_D

<400> 512<400> 512

catctatgtg ctcaacatcc 20catctatgtg ctcaacatcc 20

<210> 513<210> 513

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_084_I<223> 09_084_I

<400> 513<400> 513

caaaaatggc agtagtgggt ca 22caaaaatggc agtagtgggt ca 22

<210> 514<210> 514

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_084_D<223> 09_084_D

<400> 514<400> 514

aaaatggcat agtgggtcag g 21aaaatggcat agtgggtcag g 21

<210> 515<210> 515

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_109_I<223> 09_109_I

<400> 515<400> 515

gtctcagctc ctccatttgt 20gtctcagctc ctccatttgt 20

<210> 516<210> 516

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_109_D<223> 09_109_D

<400> 516<400> 516

gtctcagctc tccatttgt 19gtctcagctc tccatttgt 19

<210> 517<210> 517

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_117_I<223> 09_117_I

<400> 517<400> 517

attcagttat agcaacagaa a 21attcagttat agcaacagaa a 21

<210> 518<210> 518

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_117_D<223> 09_117_D

<400> 518<400> 518

tattcagtta aacagaaaac ag 22tattcagtta aacagaaaac ag 22

<210> 519<210> 519

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_132_I<223> 09_132_I

<400> 519<400> 519

aagcctccac ccaccttg 18aagcctccac ccaccttg 18

<210> 520<210> 520

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 09_132_D<223> 09_132_D

<400> 520<400> 520

aaagcctcca ccttgcag 18aaagcctcca ccttgcag 18

<210> 521<210> 521

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_001_I<223> 10_001_I

<400> 521<400> 521

actatactat ataatgttac ac 22actatactat ataatgttac ac 22

<210> 522<210> 522

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_001_D<223> 10_001_D

<400> 522<400> 522

actatactat atgttacact g 21actatactat atgttacact g 21

<210> 523<210> 523

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_026_I<223> 10_026_I

<400> 523<400> 523

gggctcaagt gatcctccc 19gggctcaagt gatcctccc 19

<210> 524<210> 524

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_026_D<223> 10_026_D

<400> 524<400> 524

gggctcaagt atcctcccg 19gggctcaagt atcctcccg 19

<210> 525<210> 525

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_035_I<223> 10_035_I

<400> 525<400> 525

tgcttgaacc tgggaggtt 19tgcttgaacc tgggaggtt 19

<210> 526<210> 526

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_035_D<223> 10_035_D

<400> 526<400> 526

tgcttgaact gggaggttg 19tgcttgaact gggaggttg 19

<210> 527<210> 527

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_047_I<223> 10_047_I

<400> 527<400> 527

atgatacaga gaggcccact 20atgatacaga gaggcccact 20

<210> 528<210> 528

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_047_D<223> 10_047_D

<400> 528<400> 528

aatgatacag aggcccactg 20aatgatacag aggcccactg 20

<210> 529<210> 529

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_071_I<223> 10_071_I

<400> 529<400> 529

tgcccaggct acaccct 17tgcccaggct acaccct 17

<210> 530<210> 530

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_071_D<223> 10_071_D

<400> 530<400> 530

gatgcccagt acaccctg 18gatgcccagt acaccctg 18

<210> 531<210> 531

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_085_I<223> 10_085_I

<400> 531<400> 531

tggctcttat gccttgcc 18tggctcttat gccttgcc 18

<210> 532<210> 532

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_085_D<223> 10_085_D

<400> 532<400> 532

tggctcttgc cttgccta 18tggctcttgc cttgccta 18

<210> 533<210> 533

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_117_I<223> 10_117_I

<400> 533<400> 533

gttgccgata ttccagga 18gttgccgata ttccagga 18

<210> 534<210> 534

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_117_D<223> 10_117_D

<400> 534<400> 534

aaatgttgcc aggaggtg 18aaatgttgcc aggaggtg 18

<210> 535<210> 535

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_128_I<223> 10_128_I

<400> 535<400> 535

ttcaatgtta tactcgtcca t 21ttcaatgtta tactcgtcca t 21

<210> 536<210> 536

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 10_128_D<223> 10_128_D

<400> 536<400> 536

ttcaatgtta ctcgtccatg 20ttcaatgtta ctcgtccatg 20

<210> 537<210> 537

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_006_I<223> 11_006_I

<400> 537<400> 537

gggaataact gagcattctg 20gggaataact gagcattctg 20

<210> 538<210> 538

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_006_D<223> 11_006_D

<400> 538<400> 538

tgggaataac agcattctg 19tgggaataac agcattctg 19

<210> 539<210> 539

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_020_I<223> 11_020_I

<400> 539<400> 539

cattagcata gctggatttc 20cattagcata gctggatttc 20

<210> 540<210> 540

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_020_D<223> 11_020_D

<400> 540<400> 540

gcattagcat ggatttcct 19gcattagcat ggatttcct 19

<210> 541<210> 541

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_034_I<223> 11_034_I

<400> 541<400> 541

ggggagcaaa tgaattacca t 21ggggagcaaa tgaattacca t 21

<210> 542<210> 542

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_034_D<223> 11_034_D

<400> 542<400> 542

ttatggggat accatataac 20ttatggggat accatataac 20

<210> 543<210> 543

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_059_I<223> 11_059_I

<400> 543<400> 543

cattgtggaa gactatgtg 19cattgtggaa gactatgtg 19

<210> 544<210> 544

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_059_D<223> 11_059_D

<400> 544<400> 544

cattgtggaa actatgtgg 19cattgtggaa actatgtgg 19

<210> 545<210> 545

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_084_I<223> 11_084_I

<400> 545<400> 545

atgagtctca gtttcttcat 20atgagtctca gtttcttcat 20

<210> 546<210> 546

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_084_D<223> 11_084_D

<400> 546<400> 546

aaatgagtct gtttcttcat t 21aaatgagtct gtttcttcat t 21

<210> 547<210> 547

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_094_I<223> 11_094_I

<400> 547<400> 547

atccagagtc catagagtga 20atccagagtc catagagtga 20

<210> 548<210> 548

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_094_D<223> 11_094_D

<400> 548<400> 548

catccagagt catagagtga 20catccagagt catagagtga 20

<210> 549<210> 549

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_111_I<223> 11_111_I

<400> 549<400> 549

ctaacaaaaa gaagaccatc t 21ctaacaaaaa gaagaccatc t 21

<210> 550<210> 550

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_111_D<223> 11_111_D

<400> 550<400> 550

tctaacaaaa agaccatctg t 21tctaacaaaa agaccatctg t 21

<210> 551<210> 551

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_135_I<223> 11_135_I

<400> 551<400> 551

tccgcagtgg caggagag 18tccgcagtgg caggagag 18

<210> 552<210> 552

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 11_135_D<223> 11_135_D

<400> 552<400> 552

ttccgcagtg caggagagc 19ttccgcagtg caggagagc 19

<210> 553<210> 553

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_013_I<223> 12_013_I

<400> 553<400> 553

acactcagtt ctctatttca g 21acactcagtt ctctatttca g 21

<210> 554<210> 554

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_013_D<223> 12_013_D

<400> 554<400> 554

acactcagtt ctatttcaga g 21acactcagtt ctatttcaga g 21

<210> 555<210> 555

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_024_I<223> 12_024_I

<400> 555<400> 555

tgcmtcctat atattttcag g 21tgcmtcctat atattttcag g 21

<210> 556<210> 556

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_024_D<223> 12_024_D

<400> 556<400> 556

ttgcmtccta tattttcagg tg 22ttgcmtccta tattttcagg tg 22

<210> 557<210> 557

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_074_I<223> 12_074_I

<400> 557<400> 557

aatgtgcaga gtttgagca 19aatgtgcaga gtttgagca 19

<210> 558<210> 558

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_074_D<223> 12_074_D

<400> 558<400> 558

gaaatgtgca gtttgagcaa 20gaaatgtgca gtttgagcaa 20

<210> 559<210> 559

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_090_I<223> 12_090_I

<400> 559<400> 559

gtttccaaaa ctcttagtat ca 22gtttccaaaa ctcttagtat ca 22

<210> 560<210> 560

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_090_D<223> 12_090_D

<400> 560<400> 560

agtttccaaa ttagtatcaa ac 22agtttccaaa ttagtatcaa ac 22

<210> 561<210> 561

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_100_I<223> 12_100_I

<400> 561<400> 561

gccttcttct cataagaacc c 21gccttcttct cataagaacc c 21

<210> 562<210> 562

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_100_D<223> 12_100_D

<400> 562<400> 562

catgccttct taagaaccct 20catgccttct taagaaccct 20

<210> 563<210> 563

<211> 25<211> 25

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_128_I<223> 12_128_I

<400> 563<400> 563

tcaaactctt ttggaaacgt caaag 25tcaaactctt ttggaaacgt caaag 25

<210> 564<210> 564

<211> 27<211> 27

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 12_128_D<223> 12_128_D

<400> 564<400> 564

tcaaactctt ttgaaacgtc aaagtca 27tcaaactctt ttgaaacgtc aaagtca 27

<210> 565<210> 565

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_039_I<223> 13_039_I

<400> 565<400> 565

aggcaaatgc aattgatttc 20aggcaaatgc aattgatttc 20

<210> 566<210> 566

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_039_D<223> 13_039_D

<400> 566<400> 566

ccctaggcaa attgatttca 20ccctaggcaa attgatttca 20

<210> 567<210> 567

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_053_I<223> 13_053_I

<400> 567<400> 567

aagcattagc tttgtctact 20aagcattagc tttgtctact 20

<210> 568<210> 568

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_053_D<223> 13_053_D

<400> 568<400> 568

aagcattagt ttgtctactt 20aagcattagt ttgtctactt 20

<210> 569<210> 569

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_069_I<223> 13_069_I

<400> 569<400> 569

agtcagcaaa caacagatgc tgg 23agtcagcaaa caacagatgc tgg 23

<210> 570<210> 570

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_069_D<223> 13_069_D

<400> 570<400> 570

agtcagcaaa cagatgctgg aga 23agtcagcaaa cagatgctgg aga 23

<210> 571<210> 571

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_087_I<223> 13_087_I

<400> 571<400> 571

cattatcatt gtctgcataa tctg 24cattatcatt gtctgcataa tctg 24

<210> 572<210> 572

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 13_087_D<223> 13_087_D

<400> 572<400> 572

gtcattatca ttgcataatc tgc 23gtcattatca ttgcataatc tgc 23

<210> 573<210> 573

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_056_I<223> 14_056_I

<400> 573<400> 573

gaatatatac atgttccatt ttac 24gaatatatac atgttccatt ttac 24

<210> 574<210> 574

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_056_D<223> 14_056_D

<400> 574<400> 574

ggaatatatt tttactagga acc 23ggaatatatt tttactagga acc 23

<210> 575<210> 575

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_091_I<223> 14_091_I

<400> 575<400> 575

taataagtag tgagtgaaat acc 23taataagtag tgagtgaaat acc 23

<210> 576<210> 576

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 14_091_D<223> 14_091_D

<400> 576<400> 576

cttaataagt agtgaaatac cag 23cttaataagt agtgaaatac cag 23

<210> 577<210> 577

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_046_I<223> 15_046_I

<400> 577<400> 577

gttggaggac tgacagttca ca 22gttggaggac tgacagttca ca 22

<210> 578<210> 578

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_046_D<223> 15_046_D

<400> 578<400> 578

aagttggagg acagttcaca tt 22aagttggagg acagttcaca tt 22

<210> 579<210> 579

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_067_I<223> 15_067_I

<400> 579<400> 579

ctcagtaaga gtttgtcaaa tg 22ctcagtaaga gtttgtcaaa tg 22

<210> 580<210> 580

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_067_D<223> 15_067_D

<400> 580<400> 580

gaactcagta agtcaaatgg g 21gaactcagta agtcaaatgg g 21

<210> 581<210> 581

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_087_I<223> 15_087_I

<400> 581<400> 581

agttattaaa acattatttt ctgtaaga 28agttattaaa acattatttt ctgtaaga 28

<210> 582<210> 582

<211> 28<211> 28

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_087_D<223> 15_087_D

<400> 582<400> 582

cagttattaa aacattttct gtaagacc 28cagttattaa aacattttct gtaagacc 28

<210> 583<210> 583

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_097_I<223> 15_097_I

<400> 583<400> 583

cctagctttt acttaagtgc ag 22cctagctttt acttaagtgc ag 22

<210> 584<210> 584

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 15_097_D<223> 15_097_D

<400> 584<400> 584

agcctagctt ttaagtgcag 20agcctagctt ttaagtgcag 20

<210> 585<210> 585

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_000_I<223> 16_000_I

<400> 585<400> 585

tgcatcctat gaaaataccc 20tgcatcctat gaaaataccc 20

<210> 586<210> 586

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_000_D<223> 16_000_D

<400> 586<400> 586

gtgcatccta taaaataccc t 21gtgcatccta taaaataccc t 21

<210> 587<210> 587

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_012 _I<223> 16_012 _I

<400> 587<400> 587

aatgattagc gcaatgtgat 20aatgattagc gcaatgtgat 20

<210> 588<210> 588

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_012 _D<223> 16_012 _D

<400> 588<400> 588

ttaatgatta gcaatgtgat at 22ttaatgatta gcaatgtgat at 22

<210> 589<210> 589

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_024_I<223> 16_024_I

<400> 589<400> 589

catctggccc ttgttctc 18catctggccc ttgttctc 18

<210> 590<210> 590

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_024_D<223> 16_024_D

<400> 590<400> 590

atcatctggc ttgttctct 19atcatctggc ttgttctct 19

<210> 591<210> 591

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_064_I<223> 16_064_I

<400> 591<400> 591

gttgtatagg gacaggagc 19gttgtatagg gacaggagc 19

<210> 592<210> 592

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_064_D<223> 16_064_D

<400> 592<400> 592

tgttgtatag gacaggagct 20tgttgtatag gacaggagct 20

<210> 593<210> 593

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_076_I<223> 16_076_I

<400> 593<400> 593

gacttcatgt ccctcttgaa a 21gacttcatgt ccctcttgaa a 21

<210> 594<210> 594

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 16_076_D<223> 16_076_D

<400> 594<400> 594

tgacttcatg tcctcttgaa a 21tgacttcatg tcctcttgaa a 21

<210> 595<210> 595

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_001_I<223> 17_001_I

<400> 595<400> 595

ggactctgag ccagtacccc 20ggactctgag ccagtacccc 20

<210> 596<210> 596

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_001_D<223> 17_001_D

<400> 596<400> 596

ggactctgag cagtacccc 19ggactctgag cagtacccc 19

<210> 597<210> 597

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_057_I<223> 17_057_I

<400> 597<400> 597

tgactgttac tcaggagagt 20tgactgttac tcaggagagt 20

<210> 598<210> 598

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_057_D<223> 17_057_D

<400> 598<400> 598

ctatgactgt taggagagta at 22ctatgactgt taggagagta at 22

<210> 599<210> 599

<211> 17<211> 17

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_083_I<223> 17_083_I

<400> 599<400> 599

acacctgtgc agcgcct 17acacctgtgc agcgcct 17

<210> 600<210> 600

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 17_083_D<223> 17_083_D

<400> 600<400> 600

agcacacctt ccatgaga 18agcacacctt ccatgaga 18

<210> 601<210> 601

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_001_I<223> 18_001_I

<400> 601<400> 601

ggtgctgttc tcgagatagt 20ggtgctgttc tcgagatagt 20

<210> 602<210> 602

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_001_D<223> 18_001_D

<400> 602<400> 602

tggtgctgtt cgagatagt 19tggtgctgtt cgagatagt 19

<210> 603<210> 603

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_030_I<223> 18_030_I

<400> 603<400> 603

aggggaaaca tgagcagttg 20aggggaaaca tgagcagttg 20

<210> 604<210> 604

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_030_D<223> 18_030_D

<400> 604<400> 604

aaggggaaac gagcagttgt g 21aaggggaaac gagcagttgt g 21

<210> 605<210> 605

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_051_I<223> 18_051_I

<400> 605<400> 605

tcactcaatg gtgccaggca 20tcactcaatg gtgccaggca 20

<210> 606<210> 606

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_051_D<223> 18_051_D

<400> 606<400> 606

catcactcaa tgtgccaggc a 21catcactcaa tgtgccaggc a 21

<210> 607<210> 607

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_065_I<223> 18_065_I

<400> 607<400> 607

agtgatggcc cccacacttg 20agtgatggcc cccacacttg 20

<210> 608<210> 608

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_065_D<223> 18_065_D

<400> 608<400> 608

acagtgatgg cccacacttg 20acagtgatgg cccacacttg 20

<210> 609<210> 609

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_075_I<223> 18_075_I

<400> 609<400> 609

ctgagacmct gtggctcctc 20ctgagacmct gtggctcctc 20

<210> 610<210> 610

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 18_075_D<223> 18_075_D

<400> 610<400> 610

gaactgagac mctggctcct c 21gaactgagac mctggctcct c 21

<210> 611<210> 611

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_002_I<223> 19_002_I

<400> 611<400> 611

tgatctcggc taactgcgac 20tgatctcggc taactgcgac 20

<210> 612<210> 612

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_002_D<223> 19_002_D

<400> 612<400> 612

tgatctcggt aactgcgacc 20tgatctcggt aactgcgacc 20

<210> 613<210> 613

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_015_I<223> 19_015_I

<400> 613<400> 613

cccctgcaaa taataagga 19cccctgcaaa taataagga 19

<210> 614<210> 614

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_015_D<223> 19_015_D

<400> 614<400> 614

atcccctgca aataaggaat g 21atcccctgca aataaggaat g 21

<210> 615<210> 615

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_029_I<223> 19_029_I

<400> 615<400> 615

gaagccagca gcctgctg 18gaagccagca gcctgctg 18

<210> 616<210> 616

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_029_D<223> 19_029_D

<400> 616<400> 616

ggaagccaga gcctgctg 18ggaagccaga gcctgctg 18

<210> 617<210> 617

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_044_I<223> 19_044_I

<400> 617<400> 617

atcattttat tgtgattctt agc 23atcattttat tgtgattctt agc 23

<210> 618<210> 618

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 19_044_D<223> 19_044_D

<400> 618<400> 618

gtatcatttt attgattctt agct 24gtatcatttt attgattctt agct 24

<210> 619<210> 619

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_005_I<223> 20_005_I

<400> 619<400> 619

tatctactca tgtgtgtagt ta 22tatctactca tgtgtgtagt ta 22

<210> 620<210> 620

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_005_D<223> 20_005_D

<400> 620<400> 620

ttatctactc gtgtgtagtt at 22ttatctactc gtgtgtagtt at 22

<210> 621<210> 621

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_020_I<223> 20_020_I

<400> 621<400> 621

cacaaaatag aatagggttt tc 22cacaaaatag aatagggttt tc 22

<210> 622<210> 622

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_020_D<223> 20_020_D

<400> 622<400> 622

ggccacaaaa tagggttttc c 21ggccacaaaa tagggttttc c 21

<210> 623<210> 623

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_039_I<223> 20_039_I

<400> 623<400> 623

gcctttcttt atttataact tctc 24gcctttcttt atttataact tctc 24

<210> 624<210> 624

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_039_D<223> 20_039_D

<400> 624<400> 624

gagcctttct ttataacttc tct 23gagcctttct ttataacttc tct 23

<210> 625<210> 625

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_058_I<223> 20_058_I

<400> 625<400> 625

tttccatgtg gtggacagg 19tttccatgtg gtggacagg 19

<210> 626<210> 626

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 20_058_D<223> 20_058_D

<400> 626<400> 626

atttccatgt ggacaggtg 19atttccatgt ggacaggtg 19

<210> 627<210> 627

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_010_I<223> 21_010_I

<400> 627<400> 627

actactccca ggtgtatgt 19actactccca ggtgtatgt 19

<210> 628<210> 628

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_010_D<223> 21_010_D

<400> 628<400> 628

tactactcca ggtgtatgtg 20tactactcca ggtgtatgtg 20

<210> 629<210> 629

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_038_I<223> 21_038_I

<400> 629<400> 629

aatatgcaga gactctgaaa 20aatatgcaga gactctgaaa 20

<210> 630<210> 630

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_038_D<223> 21_038_D

<400> 630<400> 630

gaaatatgca gactctgaaa t 21gaaatatgca gactctgaaa t 21

<210> 631<210> 631

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_042_I<223> 21_042_I

<400> 631<400> 631

aagacacata caagaacgtc 20aagacacata caagaacgtc 20

<210> 632<210> 632

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 21_042_D<223> 21_042_D

<400> 632<400> 632

caaagacaca agaacgtcc 19caaagacaca agaacgtcc 19

<210> 633<210> 633

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_033_I<223> 22_033_I

<400> 633<400> 633

tactcacatg gttgtcaaca 20tactcacatg gttgtcaaca 20

<210> 634<210> 634

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_033_D<223> 22_033_D

<400> 634<400> 634

ctactcacat gttgtcaaca 20ctactcacat gttgtcaaca 20

<210> 635<210> 635

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_046_I<223> 22_046_I

<400> 635<400> 635

acacaggctg ggagtgtagt 20acacaggctg ggagtgtagt 20

<210> 636<210> 636

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> 22_046_D<223> 22_046_D

<400> 636<400> 636

cacacaggct ggagtgtagt g 21cacacaggct ggagtgtagt g 21

<210> 637<210> 637

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_004_I<223> X_004_I

<400> 637<400> 637

catcttcaac aacatgcg 18catcttcaac aacatgcg 18

<210> 638<210> 638

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_004_D<223> X_004_D

<400> 638<400> 638

ccatcttcaa aacatgcg 18ccatcttcaa aacatgcg 18

<210> 639<210> 639

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_029_I<223> X_029_I

<400> 639<400> 639

ttcctacttc ctagggaac 19ttcctacttc ctagggaac 19

<210> 640<210> 640

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_029_D<223> X_029_D

<400> 640<400> 640

ttcctacttc tagggaacc 19ttcctacttc tagggaacc 19

<210> 641<210> 641

<211> 24<211> 24

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_083_I<223> X_083_I

<400> 641<400> 641

ctttcatctt aacttaagtt actg 24ctttcatctt aacttaagtt actg 24

<210> 642<210> 642

<211> 22<211> 22

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_083_D<223> X_083_D

<400> 642<400> 642

acactttcat cttaagttac tg 22acactttcat cttaagttac tg 22

<210> 643<210> 643

<211> 18<211> 18

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_095_I<223> X_095_I

<400> 643<400> 643

gtgatgttgc catccttg 18gtgatgttgc catccttg 18

<210> 644<210> 644

<211> 19<211> 19

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_095_D<223> X_095_D

<400> 644<400> 644

gtgatgttgc atccttgat 19gtgatgttgc atccttgat 19

<210> 645<210> 645

<211> 23<211> 23

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_138_I<223> X_138_I

<400> 645<400> 645

cagcaactct atttaaataa atg 23cagcaactct atttaaataa atg 23

<210> 646<210> 646

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_138_D<223> X_138_D

<400> 646<400> 646

cagcaactct aaataaatgg a 21cagcaactct aaataaatgg a 21

<210> 647<210> 647

<211> 21<211> 21

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_141_I<223> X_141_I

<400> 647<400> 647

aaattatttc acatgagtgc t 21aaattatttc acatgagtgc t 21

<210> 648<210> 648

<211> 20<211> 20

<212> DNA<212> DNA

<213> artificial sequence<213> artificial sequence

<220><220>

<223> X_141_D<223> X_141_D

<400> 648<400> 648

gaaattattt cacgagtgct 20gaaattattt cacgagtgct 20

<---<---

Claims (8)

1. Набор для генотипирования 162 инсерционно-делеционных полиморфизмов: rs3059749, rs34338895, rs67091803, rs5774423, rs113565562, rs111706466, rs11394524, rs72082809, rs35379245, rs71107464, rs66944170, rs35126101, rs35994297, rs34450453, rs10693974, rs66610049, rs68130608, rs11424237, rs72339906, rs5832955, rs5833488, rs77093320, rs111665673, rs57993635, rs35926392, rs139738417, rs66976303, rs57495895, rs35291341, rs35464243, rs10540628, rs35588182, rs150470881, rs75445531, rs3834231, rs59170274, rs34184705, rs56281469, rs10707593, rs35932180, rs72273695, rs70938781, rs34581182, rs3067059, rs61235135, rs113132739, rs142490175, rs572636473, rs138124389, rs34990478, rs6149192, rs145918302, rs66881681, rs10701589, rs3832355, rs10560231, rs35948562, rs56071028, rs10529292, rs376539574, rs68133212, rs139823267, rs144273778, rs56343259, rs573860910, rs141141409, rs71675135, rs140327598, rs68078431, rs11278298, rs566489451, rs35345873, rs71552214, rs34786735, rs377131771, rs1610906, rs112677752, rs35830730, rs3216282, rs35575707, rs71520104, rs35146459, rs36048750, rs34168882, rs35604660, rs34067160, rs138172268, rs35679778, rs11323264, rs6150855, rs147918543, rs66509579, rs371766957, rs71493646, rs34499887, rs59923204, rs55952736, rs71953876, rs368278029, rs71281575, rs202245860, rs34948479, rs10552811, rs10555357, rs140576359, rs10544160, rs10583916, rs113764748, rs57958958, rs138278630, rs74933486, rs35847449, rs143339028, rs11394480, rs10533848, rs35955982, rs10571534, rs10689649, rs150767158, rs10706208, rs142669819, rs5803618, rs371764729, rs67650090, rs55812371, rs141061555, rs144457716, rs112548522, rs112792286, rs112880243, rs35379530, rs34436424, rs3841767, rs35709162, rs34816330, rs11330085, rs5821134, rs141730340, rs35023498, rs35452393, rs33990768, rs66933419, rs66502030, rs60503836, rs112906660, rs112877961, rs34242584, rs79282333, rs35894782, rs73622051, rs66555516, rs138066060, rs10583984, rs112408318, rs60228580, rs67057410, rs35997669, rs57522085, rs202172626, rs34991528, rs35020323 и rs10689407, состоящий из композиции праймеров SEQ ID NO: 1 - SEQ ID NO: 324 для амплификации указанных полиморфизмов и аллельспецифичных олигонуклеотидных зондов SEQ ID NO: 325-SEQ ID NO: 648 для генотипирования соответствующих полиморфизмов методом гибридизации.1. Kit for genotyping 162 insertion-deletion polymorphisms: rs3059749, rs34338895, rs67091803, rs5774423, rs113565562, rs111706466, rs11394524, rs72082809, rs35379245, rs71107464, rs66944170, rs35126101, rs35994297, rs34450453, rs10693974, rs66610049, rs68130608, rs11424237, rs72339906, rs5832955 , rs5833488, rs77093320, rs111665673, rs57993635, rs35926392, rs139738417, rs66976303, rs57495895, rs35291341, rs35464243, rs10540628, rs35588182, rs150470881, rs75445531, rs3834231, rs59170274, rs34184705, rs56281469, rs10707593, rs35932180, rs72273695, rs70938781, rs34581182, rs3067059, rs61235135 , rs113132739, rs142490175, rs572636473, rs138124389, rs34990478, rs6149192, rs145918302, rs66881681, rs10701589, rs3832355, rs10560231, rs35948562, rs56071028, rs10529292, rs376539574, rs68133212, rs139823267, rs144273778, rs56343259, rs573860910, rs141141409, rs71675135, rs140327598, rs68078431, rs11278298 , rs566489451, rs35345873, rs71552214, rs34786735, rs377131771, rs1610906, rs11267 7752, rs35830730, rs3216282, rs35575707, rs71520104, rs35146459, rs36048750, rs34168882, rs35604660, rs34067160, rs138172268, rs35679778, rs11323264, rs6150855, rs147918543, rs66509579, rs371766957, rs71493646, rs34499887, rs59923204, rs55952736, rs71953876, rs368278029, rs71281575, rs202245860, rs34948479, rs10552811, rs10555357, rs140576359, rs10544160, rs10583916, rs113764748, rs57958958, rs138278630, rs74933486, rs35847449, rs143339028, rs11394480, rs10533848, rs35955982, rs10571534, rs10689649, rs150767158, rs10706208, rs142669819, rs5803618, rs371764729, rs67650090, rs55812371, rs141061555, rs144457716, rs112548522, rs112792286, rs112880243, rs35379530, rs34436424, rs3841767, rs35709162, rs34816330, rs11330085, rs5821134, rs141730340, rs35023498, rs35452393, rs33990768, rs66933419, rs66502030, rs60503836, rs112906660, rs112877961, rs34242584, rs79282333, rs35894782, rs73622051, rs66555516, rs138066060, rs10583984, rs112408318, rs60228580, rs67057410, rs35997669, rs57522085, rs202 172626, rs34991528, rs35020323 and rs10689407, consisting of the primer composition SEQ ID NO: 1 - SEQ ID NO: 324 for amplification of the indicated polymorphisms and allele-specific oligonucleotide probes SEQ ID NO: 325-SEQ ID NO: 648 for genotyping the corresponding polymorphisms. 2. Набор по п. 1, отличающийся тем, что может быть составлен в сокращенном виде путем исключения части праймеров и соответствующих олигонуклеотидных зондов.2. The kit according to claim 1, characterized in that it can be compiled in an abbreviated form by excluding a part of the primers and corresponding oligonucleotide probes. 3. Набор по п. 1, отличающийся тем, что мечение ПЦР-продукта осуществляется с использованием флуорофора.3. The kit according to claim 1, characterized in that the labeling of the PCR product is carried out using a fluorophore. 4. Набор по п. 3, отличающийся тем, что флуоресцентное мечение ПЦР-продукта осуществляется с помощью праймера, имеющего соответствующую флуоресцентную метку по 5'-концу.4. The kit according to claim 3, characterized in that the fluorescent labeling of the PCR product is carried out using a primer having a corresponding fluorescent label at the 5'-end. 5. Набор по п. 3, отличающийся тем, что флуоресцентное мечение ПЦР-продукта осуществляется с помощью флуоресцентно-меченного дезоксинуклеотидтрифосфата, встраивающегося в растущую цепь ДНК в ходе ПЦР.5. The kit according to claim 3, characterized in that the fluorescent labeling of the PCR product is carried out with the help of fluorescently labeled deoxynucleotide triphosphate, which is inserted into the growing DNA strand during PCR. 6. Набор по п. 3, отличающийся тем, что каждый локусспецифичный обратный праймер с четным номером «Seq ID» (Seq ID NO: 2, Seq ID NO: 4 … Seq ID NO: 324) имеет со стороны 5'-конца универсальную олигонуклеотидную вставку с последовательностью 5'-TCATTGGATCTCATTA-3', и универсальный ПЦР-праймер также имеет последовательность 5'-TCATTGGATCTCATTA-3'.6. The set according to claim 3, characterized in that each locus-specific reverse primer with an even number "Seq ID" (Seq ID NO: 2, Seq ID NO: 4 ... Seq ID NO: 324) has a universal an oligonucleotide insert with the sequence 5'-TCATTGGATCTCATTA-3 ', and the universal PCR primer also has the sequence 5'-TCATTGGATCTCATTA-3'. 7. Набор по п. 6, отличающийся тем, что аллельспецифичные олигонуклеотидные зонды иммобилизованы на поверхности подложки.7. The kit according to claim 6, characterized in that the allele-specific oligonucleotide probes are immobilized on the surface of the support. 8. Набор по п. 6, отличающийся тем, что аллельспецифичные олигонуклеотидные зонды иммобилизованы в объеме полимерного носителя.8. The set according to claim 6, characterized in that the allele-specific oligonucleotide probes are immobilized in the volume of the polymer carrier.
RU2020105692A 2020-02-06 2020-02-06 Method of identifying person and establishing affinity using indel polymorphisms and set of synthetic oligonucleotides for genotyping thereof RU2738752C1 (en)

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Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
Xie T. et al., A set of autosomal multiple InDel markers for forensic application and population genetic analysis in the Chinese Xinjiang Hui group, Forensic Science International: Genetics, 2018, Т. 35, pp. 1-8. Liu B. et al. Development of InDel markers for Brassica rapa based on whole-genome re-sequencing, Theoretical and Applied Genetics, 2013, Т. 126, No. 1, pp. 231-239. Romanini C. et al., Typing short amplicon binary polymorphisms: supplementary SNP and Indel genetic information in the analysis of highly degraded skeletal remains, Forensic Science International: Genetics, 2012, Т. 6, No. 4, pp. 469-476. Чемерис Д. А. и др. Эволюция подходов к ДНК-идентификации личности, Биомика, 2018, Т. 10, номер 1, стр. 85-140. *

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