生物
微卫星
遗传学
基因组
索引
连锁不平衡
基因间区
选择性扫描
比较基因组学
基因
基因组学
计算生物学
进化生物学
等位基因
单核苷酸多态性
基因型
单倍型
作者
Umesh K. Reddy,Lavanya Abburi,Venkata Lakshmi Abburi,Thangasamy Saminathan,Ronald P. Cantrell,Venkata Gopinath Vajja,Rita Reddy,Yan R. Tomason,Amnon Levi,Todd C. Wehner,Padmavathi Nimmakayala
标识
DOI:10.1093/jhered/esu077
摘要
Our genetic diversity study uses microsatellites of known map position to estimate genome level population structure and linkage disequilibrium, and to identify genomic regions that have undergone selection during watermelon domestication and improvement. Thirty regions that showed evidence of selective sweep were scanned for the presence of candidate genes using the watermelon genome browser (www.icugi.org). We localized selective sweeps in intergenic regions, close to the promoters, and within the exons and introns of various genes. This study provided an evidence of convergent evolution for the presence of diverse ecotypes with special reference to American and European ecotypes. Our search for location of linked markers in the whole-genome draft sequence revealed that BVWS00358, a GA repeat microsatellite, is the GAGA type transcription factor located in the 5′ untranslated regions of a structure and insertion element that expresses a Cys2His2 Zinc finger motif, with presumed biological processes related to chitin response and transcriptional regulation. In addition, BVWS01708, an ATT repeat microsatellite, located in the promoter of a DTW domain-containing protein (Cla002761); and 2 other simple sequence repeats that association mapping link to fruit length and rind thickness.
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