QTL Analysis of Cold Resistance and Ratooning Ability by Using indicajaponica RIL Populations in Rice

doi:10.3969/j.issn.10017216.2012.06.015

Chinese Journal of Rice Science ›› 2012, Vol. 26 ›› Issue (6): 741-745.DOI: 10.3969/j.issn.10017216.2012.06.015

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QTL Analysis of Cold Resistance and Ratooning Ability by Using indicajaponica RIL Populations in Rice

YANG Chuanhang ^1,2, WANG Yuping ¹, TU Bin ¹, ZENGYuqing ², LI Shigui ^1,*

¹ Rice Research Institute, Sichuan Agricultural University, Wenjiang 611130， China; ² Zigong Agricultural Research Institute, Zigong 643000， China;

Received:2011-11-08 Revised:2012-01-14 Online:2012-11-10 Published:2012-11-10
Contact: LI Shigui1,*

利用籼粳交RIL群体对水稻耐寒性及再生力的QTL分析

杨川航^1,2,王玉平¹,涂斌¹,曾玉清²,李仕贵^1,*

¹四川农业大学水稻研究所, 四川温江 611130； ²四川省自贡市农业科学研究所，四川自贡 643000；

通讯作者: 李仕贵1,*
基金资助:
国家科技支撑计划资助项目（2006BAD为A011）；自贡市科委重大专项（2008N04）。

Abstract

Abstract: A molecular linkage map containing 105 SSR markers was constructed by using a RIL population which was derived from the F7 descent of a cross between japonica glutinous rice variety Nuo 891 and an indica variety Shuhui 527. The cold resistance of bud for both the parents and the RIL was investigated at 5℃ low temperature, and their survival and ratooning ability were evaluated under natural temperature conditions in winter. QTL analysis showed that the cold resistance of rice was controlled by QTLs and followed a continuous distribution in RIL population. Two QTL, qCtg3 and qCtg5， controlling cold resistance at bud stage were located on chromosome 3 and 5, explaining 7557% and 79.04% phenotypic variation, respectively. A major QTL, qCtr5， controlling the survival and ratooning ability in rice was mapped on chromosome 5. Two QTLs(qRa4, qRa5) conferning ratooning capacity were detected on chromosome 4 and 5, explaining 8.17% and 7.09% phenotypic variation, respectively. qCtg5， qCtr5 and qRa5 locus were simultaneously linked to RM153 on chromosome 5, which indicated the relationship of those traits.

Key words: rice, recombinant inbred lines, cold tolerance, ratooning ability, QTL

摘要： 以粳糯稻糯891与籼稻蜀恢527构建的籼粳交F7代RIL群体169个家系为作图群体，构建了一张含105个微卫星（SSR）标记的分子连锁图谱。在5℃低温条件下，对亲本及RIL群体进行芽期耐寒性鉴定；在冬季自然低温条件下，对亲本及RIL群体进行再生稻桩越冬耐寒性鉴定；对亲本及RIL群体进行再生力鉴定。利用SSR标记对水稻耐寒性、再生力进行QTL检测。结果表明，水稻耐寒性和再生力在RIL群体呈连续分布，表现为数量性状遗传特征。共检测到控制芽期耐寒性的QTL 2个(qCtg3、qCtg5)，分布在第3和第5染色体上，对表型变异的贡献率分别为75.57%和79.04%；检测到控制再生稻桩越冬耐寒性的主效QTL 1个（qCtr5），在第5染色体上；检测到控制再生力的QTL 2个（qRa4、qRa5），分布在第4和第5染色体上，对表型变异的贡献率分别为8.17%和7.09%。qCtg5、qCtr5和qRa5同时与第5染色体上标记RM153连锁，在分子水平上表明水稻芽期、越冬耐寒性与再生力具有相关性。

关键词: 水稻, 重组自交系, 耐寒性, 再生力, 数量性状基因座

CLC Number:

YANG Chuanhang1,2, WANG Yuping1, TU Bin1, ZENGYuqing2, LI Shigui1,*. QTL Analysis of Cold Resistance and Ratooning Ability by Using indicajaponica RIL Populations in Rice[J]. Chinese Journal of Rice Science, 2012, 26(6): 741-745.

杨川航1,2,王玉平1,涂斌1,曾玉清2,李仕贵1,*. 利用籼粳交RIL群体对水稻耐寒性及再生力的QTL分析[J]. 中国水稻科学, 2012, 26(6): 741-745.

References

\[1\]张露霞, 王松凤, 江玲, 等. 利用重组自交系群体检测水稻芽期耐寒性QTL. 南京农业大学学报, 2007, 30(4): 15.

\[2\]陈玮, 李炜. 水稻RIL群体芽期耐冷性基因的分子标记定位. 武汉植物学研究, 2005, 23(2): 116120.

\[3\]严长杰, 李欣. 利用分子标记定位水稻芽期耐冷性基因. 中国水稻科学, 1999, 13(3): 134138.

\[4\]乔永利, 韩龙直, 安永平, 等. 水稻芽期耐冷性QTL定位的分子定位. 中国农业科学, 2005, 38(2): 217221.

\[5\]丁彦, 周清明. 水稻再生力利用研究及展望. 湖南农业科学, 2005(2): 1113.

\[6\] 郑景生, 李义珍, 林文雄. 应用SSR标记定位水稻再生力和再生产量及其构成的QTL. 分子植物育种, 2004, 2(3): 342347.

\[7\]谭震波, 沈利爽, 袁祚廉, 等. 水稻再生能力和头季稻产量性状的QTL定位及其遗传效应分析. 作物学报, 1997, 23(3): 289295.

\[8\]李太贵. 在低温下筛选水稻不同生长期耐寒品种的室内方法. 国外农业科技, 1981(4): 1821.

\[9\]Wang S C, Basten C J, Zeng Z B. Windows QTL cartographer v2.5: Program in Statistical Genetics.Raleigh, NC: North Carolina State University, 2011\[20100510\]. Http://statgen.ncsu.edu/qtlcart/WQTLCart.htm.

\[10\]McCouch S R. Gene nomenclature system for rice. Rice, 2008, 1: 7284.

\[11\]Andayal V C, Mackill D J. Mapping of QTLs associated with cold tolerance during the vegetative stage in rice. J Exp Bot, 2003, 54: 25792585.

\[12\]Andayal V C, Mackill D J. QTLs conferring cold tolerance at the booting stage of rice using recombinant inbred lines from a japonica×lindica cross . Theor Appl Genet, 2003, 106: 10841090.

\[13\]胡莹, 王奕众. 水稻RIL群体苗期耐冷性QTL分析. 武汉植物学研究, 2005, 23(3): 211215.

\[14\]韩龙植, 乔永利, 曹桂兰, 等. 水稻生长早期耐寒性QTL分析. 中国水稻科学, 2005, 19(2): 122126.

\[15\]韩龙植, 乔永利, 张缓缓, 等. 水稻孕穗期耐寒性QTLs分析. 作物学报, 2005, 31(5): 653657.

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QTL Analysis of Cold Resistance and Ratooning Ability by Using indicajaponica RIL Populations in Rice

利用籼粳交RIL群体对水稻耐寒性及再生力的QTL分析

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