De novo Development and Characterization of Tetranucleotide Microsatellite Loci Markers from a Southeastern Population of the House Finch (Haemorhous mexicanus)

Edgar Sanchez, J. Maddox, D. G. Barron
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Abstract

Microsatellites are short tandem repeats (e.g. TAGATAGA) of base pairs in a species’ genome. High mutation rates in these regions produce variation in the number of repeats across individuals that can be utilized to study patterns of population-and landscape-level genetics and to determine parentage genetically. In this project our objective was to develop microsatellite markers for the House Finch, Haemorhous mexicanus . This species has become one of the most well-studied species of songbirds due to its unique geographical, evolutionary, and epidemiological history. Using mist-nets we captured birds on the Arkansas Tech University campus and collected blood samples to obtain genomic DNA. Samples were processed in The Field Museum’s Pritzker Laboratory for Molecular Systematics and Evolution, where we fragmented genomic DNA and isolated fragments that contained potential microsatellites using specially designed biotin labelled probes. These DNA fragments were transformed into competent E. coli cells which were then PCR-amplified and Sanger sequenced. After sequencing DNA fragments from approximately 500 E. coli colonies, we designed and characterized a set of 13 tetranucleotide microsatellite loci. The average number of alleles and heterozygosity found in 12 individuals from Arkansas was 8.69 and 0.80, respectively. This finalized set of microsatellites can be utilized by researchers to determine parentage and characterize genetic differences across
墨西哥黑鱼东南种群四核苷酸微卫星位点标记的从头开发和鉴定
微卫星是物种基因组中碱基对的短串联重复序列(如TAGATAGA)。这些区域的高突变率产生了个体间重复次数的变化,这可以用于研究群体和景观水平的遗传模式,并从遗传上确定亲本关系。在这个项目中,我们的目标是为家雀(Haemorhous mexicanus)开发微卫星标记。由于其独特的地理、进化和流行病学历史,该物种已成为研究最多的鸣禽物种之一。我们用雾网捕捉了阿肯色理工大学校园里的鸟类,并收集了血液样本以获得基因组DNA。样品在菲尔德博物馆的普利兹克分子系统学和进化实验室进行处理,在那里我们使用专门设计的生物素标记探针对基因组DNA进行片段化,并分离出含有潜在微卫星的片段。这些DNA片段被转化为大肠杆菌细胞,然后进行pcr扩增和Sanger测序。在对大约500个大肠杆菌菌落的DNA片段进行测序后,我们设计并鉴定了一组13个四核苷酸微卫星位点。来自阿肯色州的12个个体平均等位基因数为8.69个,杂合度为0.80个。这组最终确定的微卫星可以被研究人员用来确定亲子关系和表征遗传差异
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