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Development and application of a set of breeder-friendly SNP markers for genetic analyses and molecular breeding of rice (Oryza sativa L.)
- Chen, Haodong, He, Hang, Zou, Yanjiao, Chen, Wei, Yu, Renbo, Liu, Xia, Yang, Yang, Gao, Yong-Ming, Xu, Jian-Long, Fan, Liu-Min, Li, Yi, Li, Zhi-Kang, Deng, Xing Wang
- Theoretical and applied genetics 2011 v.123 no.6 pp. 869-879
- Oryza sativa, chromosomes, crossing, domestication, evolution, genetic markers, genetic variation, genome, genotyping, inbred lines, polymerase chain reaction, rice, single nucleotide polymorphism
- Single nucleotide polymorphisms (SNPs) are the most abundant DNA markers in plant genomes. In this study, based on 54,465 SNPs between the genomes of two Indica varieties, Minghui 63 (MH63) and Zhenshan 97 (ZS97) and additional 20,705 SNPs between the MH63 and Nipponbare genomes, we identified and confirmed 1,633 well-distributed SNPs by PCR and Sanger sequencing. From these, a set of 372 SNPs were further selected to analyze the patterns of genetic diversity in 300 representative rice inbred lines from 22 rice growing countries worldwide. Using this set of SNPs, we were able to uncover the well-known Indica–Japonica subspecific differentiation and geographic differentiations within Indica and Japonica. Furthermore, our SNP results revealed some common and contrasting patterns of the haplotype diversity along different rice chromosomes in the Indica and Japonica accessions, which suggest different evolutionary forces possibly acting in specific regions of the rice genome during domestication and evolution of rice. Our results demonstrated that this set of SNPs can be used as anchor SNPs for large scale genotyping in rice molecular breeding research involving Indica–Japonica and Indica–Indica crosses.