LAUSR

Identification of grain shape genes can facilitate breeding of rice cultivars with optimal grain shape and appearance quality. In this study, we selected two rice germplasms, namely Longliheinuo-dwarf (LH) and N643, with different grain shape, to construct a genetic population for quantitative trait locus (QTL) analysis. A major QTL (qGS7), controlling the ratio of grain length to grain width, was mapped on the chromosome 7 in a BC1F4 line. By high-resolution linkage analysis, qGS7 was delimited to a 52.8 kb region including eight predicted genes. Through sequence alignment and real-time PCR expression analysis of these ORFs, ORF3 (LOC_Os07g42410) was selected as the candidate gene for further analysis. Single nucleotide polymorphisms (SNP) diversity analysis of ORF3 revealed that a single nucleotide deletion in the 7th exon resulted in a frameshift in parent LH and the parent in which a premature stop codon was identified. It was a rare mutation that caused grain shape difference. Real-time PCR analyses showed that the expression characteristics of ORF3 was in accordance with the development of spikelets. Of the 18 agronomic traits investigation in qGS7 near isogenic lines (NILs) showed that qGS7 not only changed grain shape but also affected plant height, panicle curvature, panicle length, the length of second leaf from the top, and chalkiness.