PT  - JOURNAL ARTICLE
AU  - Angad Kumar
AU  - Anurag Daware
AU  - Arvind Kumar
AU  - Vinay Kumar
AU  - Gopala Krishnan S
AU  - Subhasish Mondal
AU  - Bhaskar Chandra Patra
AU  - Ashok. K. Singh
AU  - Akhilesh K. Tyagi
AU  - Swarup K. Parida
AU  - Jitendra K. Thakur
TI  - Genome-wide analysis of polymorphisms identified domestication-associated polymorphism desert carrying important rice grain size/weight QTL
AID  - 10.1101/725242
DP  - 2019 Jan 01
TA  - bioRxiv
PG  - 725242
4099  - http://biorxiv.org/content/early/2019/08/05/725242.short
4100  - http://biorxiv.org/content/early/2019/08/05/725242.full
AB  - Rice grain size and weight are major determinant of grain quality and yield and so have been under rigorous selection since domestication. However, genetic basis for contrasting grain size/weight trait among indian germplasm, and their association with domestication shaped evolutionary region is not studied before. To identify genetic basis of grain size/weight two long (LGG) and two short grain genotypes (SGG) were resequenced. LGG (LGR and Pusa Basmati 1121) differentiated from SGG (Sonasal and Bindli) by 504439 SNPs and 78166 InDels. The LRK gene cluster was significantly affected and a truncation mutation in the LRK8 kinase domain was uniquely associated with LGG. Phylogeny with 3000 diverse rice accessions revealed four sequenced genotypes belonged to japonica group and were at the edge of clades indicating source of genetic diversity available in Asian rice population. Five SNPs significantly were associated with grain size/weight and top three SNPs were validated in RIL mapping populations, suggesting this study as a valuable resource for high-throughput genotyping. A contiguous ∼6 Mb polymorphism desert region carrying a major grain weight QTL was identified on chromosome 5 in four sequenced genotypes. Further, among 3000, this region was identified as evolutionary important site with significant positive selection, elevated LD, and multiple selection sweeps, stabilising many domestication-related traits including grain size/weight. The aus group genotype retained more allelic variations in the desert region than japonica and indica, and likely to be one of the differentiation point for aus group. We suggest this desert region as an important evolutionary node that can be selected in breeding programs for improvement of grain yield and quality. All data and analysis can be accessed from RiceSzWtBase database.Significance statement Being an important trait, rice grain size/weight has been under rigorous selection since domestication. However, a link between this trait and domestication is not so directly established. In addition to characterization of novel grain size/weight-associated SNPs, in this study, ∼ 6 Mb polymorphism desert region harboring major grain weight QTL was identified on chromosome 5, which turned out to be an evolutionary important site with multiple selection sweeps and introgression events, significantly correlated with domestication-related traits.