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水稻窄叶突变体nal10的鉴定与基因精细定位
引用本文:方云霞,朱丽,潘江杰,余海平,薛大伟,饶玉春,王小虎,石珍源,张栋,祝阳舟,董国军,曾大力,张光恒,郭龙彪,胡江,钱前.水稻窄叶突变体nal10的鉴定与基因精细定位[J].中国水稻科学,2015,29(6):587-594.
作者姓名:方云霞  朱丽  潘江杰  余海平  薛大伟  饶玉春  王小虎  石珍源  张栋  祝阳舟  董国军  曾大力  张光恒  郭龙彪  胡江  钱前
作者单位:1.浙江大学 农业与生物技术学院, 杭州310058;2.中国水稻研究所 水稻生物学国家重点实验室, 杭州310006江西省农业科学院 水稻研究所, 南昌 330200;3.江西省农业科学院 水稻研究所, 南昌 330200;4.杭州师范大学 生命与环境学院,杭州310036
基金项目:国家自然科学基金资助项目(31201194,91335105)
摘    要:利用EMS诱变粳稻品种武运粳7号获得一个新窄叶突变体nal10,该突变体在苗期表现出极窄叶和弱小的特征,在生殖期表现出矮化、窄叶、畸颖和不育的表型。组织解剖学分析表明,nal10的叶片窄化可能是由于叶片大脉和小脉数量减少造成的。遗传分析表明,该窄叶表型受一对隐性核基因控制。利用nal10与台中本地一号(TN1)构建的F2群体,通过混合分离法,在第1染色体上找到3个紧密连锁的SSR标记(RM1287、RM562和RM5638)。进一步利用新发展的分子标记,最终将该基因定位在STS标记PK83和PK78之间的55.2 kb范围内,该区间共有8个开放阅读框。RT-PCR分析表明,NAL10的突变能够造成生长素生物合成、信号转导和运输基因转录水平的下降,因此NAL10是一个与生长素相关的窄叶新基因。这些结果为进一步克隆该基因、丰富水稻叶发育的遗传调控网络打下了基础。

关 键 词:水稻  窄叶  NAL10  基因定位  
收稿时间:2015-01-30
修稿时间:2015-03-17

Identification and Fine Mapping of a Narrow Leaf Mutant nal10 in Rice
Yun-xia FANG,Li ZHU,Jiang-jie PAN,Hai-ping YU,Da-wei XUE,Yu-chun RAO,Xiao-hu WANG,Zhen-yuan SHI,Dong ZHANG,yang-zhou ZHU,Guo-jun DONG,Da-li ZENG,Guang-heng ZHANG,Long-biao GUO,Jiang HU,Qian QIAN.Identification and Fine Mapping of a Narrow Leaf Mutant nal10 in Rice[J].Chinese Journal of Rice Science,2015,29(6):587-594.
Authors:Yun-xia FANG  Li ZHU  Jiang-jie PAN  Hai-ping YU  Da-wei XUE  Yu-chun RAO  Xiao-hu WANG  Zhen-yuan SHI  Dong ZHANG  yang-zhou ZHU  Guo-jun DONG  Da-li ZENG  Guang-heng ZHANG  Long-biao GUO  Jiang HU  Qian QIAN
Institution:1.College of Agriculture and Biotechnology, Zhejiang University, Hangzhou 310058, ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, ChinaRice Research Institute, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, ChinaCollege of Life and Environmental Sciences, Hangzhou Normal University, Hangzhou 310036, China
Abstract:A novel rice mutant narrow leaf 10 (nal10) was identified from an EMS (ethyl methane sulphonate) mutagenized population of Wuyunjing 7. The mutant was characterized by narrow leaves and smaller architecture phenotype at the seedling stage, and dwarf, narrow leaves, deformed flowers and male sterility at the reproduction stage. Cyto-anatomical analysis indicated that the mutant had fewer large and small veins compared with the wild-type, which may account for the narrow leaf phenotype. The genetic analysis indicated the narrow leaf trait was controlled by a recessive nuclear gene. Using F2 population derived from the cross of nal10 and Taizhongbendi 1, three closely linked SSR markers RM1287, RM562 and RM5638 on chromosome 1 were obtained by the bulked segregant analysis method. With the developed new markers, the gene was finally fine-mapped to an interval of 55.2 kb between the STS markers PK83 and PK78, where a total of eight ORFs were found. RT-PCR analysis indicated the expression levels of auxin biosynthesis, signal transduction and transport related genes were all down-regulated, suggesting NAL10 is a new narrow leaf gene involving in the auxin metabolism. These results laid a foundation for further cloning of the gene and enrich the genetic regulation network of leaf development in rice.
Keywords:rice  narrow leaf  NAL10  gene mapping  
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