摘要
本文利用^(60)Co γ射线诱变光温敏感型核不育系广占63S(GZ63S),在后代中获得一个稳定遗传的黄绿化叶色突变体黄广占63S,突变体从苗期至成熟期均显示叶片黄化特征.遗传分析表明该性状受一对隐性核基因控制,命名为yglosh.利用BSA方法分析突变体黄广占63S与正常绿叶对照蜀恢881构建的F2群体,将该黄化基因定位于水稻2号染色体分子标记RM279和Pm6之间,物理距离约68kb.定位区间的cDNA测序分析发现,突变体中LOC_Os02g05890基因发生单碱基突变,形成终止子提前终止该基因的翻译.转基因互补实验确定LOC_Os02g05890为目标基因,可能参与叶绿体发育或者叶绿素生物合成途径.
A leaf color mutant Huang guangzhan 63 S was obtained by 60 Co Gamma ray treating seeds of photoperiod and temperature sensitive genetic male sterility line guangzhan 63 S,this mutation showed yellowgreen leaves during the whole life,and the genetic analysis of F2 populations confirmed that this mutational character was controlled by a single recessive karyogene named yglosh.Analysis the F2 population builded by Huang guangzhan 63 Sand Shuhui 881 with BSA method,the gene was mapped between two microsatellite makers RM279 and Pm6 with physical distances about 68 kb.Through sequencing analysis of cDNA in this interval we found the LOS_Os02 g05890 which had been confirmed as target gene by transgenic complementary experiment has single base mutation and generate a terminator to terminate the gene translation.The gene may participate in chloroplast development or chlorophyll biosynthetic pathway.
出处
《复旦学报(自然科学版)》
CAS
CSCD
北大核心
2017年第6期645-652,共8页
Journal of Fudan University:Natural Science
基金
农业种质资源创新基础研究[沪农科攻字(2014)第7-1-2号]
山东省农业良种工程项目:农业生物资源创新利用
上海市自然科学基金[13ZR1402800]
