湖北农业科学2026,Vol.65Issue(4):16-19,4.DOI:10.14088/j.cnki.issn0439-8114.2026.04.003
籼粳杂交后代育性调控位点基因分型与广亲和材料筛选
Genotyping of fertility regulatory loci in indica-japonica hybrids and screening of wide compatibility germplasms
摘要
Abstract
To screen wide-compatibility rice(Oryza sativa L.)germplasm and breed novel inter-subspecific hybrid rice germplasm between indica and japonica accessions,a total of 498 rice lines collected from domestic and international sources were used in this study.Genotyping was performed for genes controlling the fertility of female and male gametes in hybrids derived from indica-japonica crosses.The results showed that in indica rice materials,the frequency of indica-type haplotypes exceeded 90%.In japonica rice mate-rials,the japonica-type genotypes of the three genes Sa,Sb,and S5-ORF3 generally accounted for more than 70%,whereas the three genes Sc,Sd,and Se were predominantly indica-type with the frequencies 87.04%,79.63%and 79.44%,respectively.Geo-graphically,fertility-related genes in most rice-growing regions of China were primarily indica-type.In Northeast China,the frequen-cy of indica-type fertility genotypes was significantly lower than in other regions,all remaining below 70%.Among foreign resources,Sc and S5-ORF3 exhibited the highest proportion of indica-type,reaching approximately 90%.Additionally,a total of 27 wide-com-patibility materials carrying S5n were detected,most of which had not been reported previously.These materials could be used for indi-ca-japonica hybrid breeding,and provided important material support for making full use of inter-subspecific heterosis.关键词
水稻(Oryza sativa L.)/籼粳杂交/育性调控位点/基因分型/广亲和基因Key words
rice(Oryza sativa L.)/indica-japonica cross/fertility regulatory loci/genotyping/wide compatibility genes分类
农业科技引用本文复制引用
何永刚,焦春海,徐延浩,蔡海亚,卞耀樯,邹梦玉,何琴,艾德骏,张硕,查中萍,杨晓龙,李博..籼粳杂交后代育性调控位点基因分型与广亲和材料筛选[J].湖北农业科学,2026,65(4):16-19,4.基金项目
湖北省博士后先锋人才跟踪支持项目(2024HBBHXF020) (2024HBBHXF020)
湖北省中央引导地方科技发展专项(2025CFC013) (2025CFC013)
杂交水稻全国重点实验室(武汉大学)开放课题基金项目 (武汉大学)
湖北省农业科学院青年科学基金项目(2025NKYJJ02) (2025NKYJJ02)
