首页|Haploids can be induced in knockout mutants of OsPLA1,but not OsDMP3 or OsDMP6,in rice
Haploids can be induced in knockout mutants of OsPLA1,but not OsDMP3 or OsDMP6,in rice
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
万方数据
维普
Doubled haploid(DH)technology is an important tool in crop breeding because it can significantly accel-erate the breeding process.ZmPLA1/MATL/NLD and ZmDMP are two key genes controlling haploid induc-tion(HI)in maize,exhibiting a synergistic effect.However,it is unknown whether knock out of ZmDMP orthologs can stimulate HI in rice.In this study,a ZmPLA1 ortholog(OsPLA1)and two ZmDMP orthologs(OsDMP3 and OsDMP6)were identified in rice.All three genes encode plasma membrane-localized pro-teins and were highly expressed in mature anthers.Knockout of OsPLA1 in both Minghui 63 and Nipponbare resulted in reduced seed setting rate(SSR)and caused HI.The osdmp3,osdmp6 and the dou-ble mutant failed to trigger HI independently,nor increased the haploid induction rate(HIR)when com-bined with ospla1.Repeated pollinations operations of QX654A with the ospla1 mutant significantly improve SSR,while reducing HIR.RNA-seq profiling of mature ospla1 mutant anthers indicated that a large number of differentially expressed genes(DEGs)were enriched in redox homeostasis and lipid metabolic GO terms,plant hormone signal transduction,and MAPK signaling pathways.These findings provide important insights towards construction of an efficient DH breeding technology and study of the molecular mechanism of HI in rice.
National Maize Improvement Center,Engineering Research Center of Ministry of Education,China Agricultural University,Beijing 100193,China
National Center for Evaluation of Agricultural Wild Plants(Rice),Department of Plant Genetics and Breeding,China Agricultural University,Beijing 100193,China
National Key Research and Development Program of ChinaChina Agriculture Research SystemBeijing Nova ProgramYunnan Province Science and Technology Department
万方数据
维普
