黑龙江省农业科学院机构知识库

Genetic overlap of QTL associated with low-temperature tolerance at germination and seedling stage using BILs in soybean

收藏
分享
全文链接

文献类型：外文期刊

作者： Zhang, Wen-Bo ¹ ; Jiang, Hong-wei ¹ ; Qiu, Peng-Cheng ⁶ ; Liu, Chun-Yan ¹ ; Chen, Fei-Long ⁷ ; Xin, Da-Wei ² ; Li, Can ¹ ;

作者机构： 1.Land Reclamat Res & Breeding Ctr Heilongjiang, Harbin 150090, Peoples R China

2.NE Agr Univ, Coll Agr, Harbin 150030, Peoples R China

3.Natl Res Ctr Soybean Engn & Technol, Harbin 150050, Peoples R China

4.Heilongjiang Acad Agr Sci, Jiamusi Branch, Jiamusi 150030, Peoples R China

5.NE Forestry Univ, State Key Lab Tree Genet & Breeding, Harbin 150040, Peoples R China

6.Erdos Acad Agr & Anim Husb Sci, Erdos 017000, Peoples R China

7.NE Forestry Univ, Coll Landscape Architecture, Harbin 150040, Peoples R China

关键词： Soybean;backcross introgression lines;low-temperature tolerance;germination and seedling stage;genetic overlap

期刊名称：CANADIAN JOURNAL OF PLANT SCIENCE （影响因子：1.018；五年影响因子：1.242 ）

ISSN： 0008-4220

年卷期： 2012 年 92 卷 7 期

页码：

收录情况： SCI

摘要： Zhang, W.-B., Jiang, H.-W., Qiu, P.-C., Liu, C.-Y., Chen, F.-L., Xin, D.-W., Li, C.-D., Hu, G.-H. and Chen, Q.-S. 2012. Genetic overlap of QTL associated with low-temperature tolerance at germination and seedling stage using BILs in soybean. Can. J. Plant Sci. 92: 1381-1388. Low temperature is one of the critical environmental factors that limit agricultural production worldwide. In northeast China soybean frequently suffers low temperature stress, especially at germination stage and seedling stage. The most effective way to solve this problem is to breed cultivars with low-temperature tolerance. A set of advanced backcross introgression lines was constructed with Hongfeng 11 as recurrent parent, which was a local variety in Heilongjiang province, and Harosoy as donor parent, which was introduced from Canada. Their BC2F4 lines were screened in low-temperature condition at the two stages, and 41 transgressive lines were selected out at germination stage and 45 lines at seedling stage. Sixty-four and fifty-one pairs of simple sequence repeat primers with fine polymorphism were used for genotyping the selected population and random population at the two stages, respectively. Related quantitative trait loci (QTL) were obtained by chi-test and ANOVA analysis with genotypic and phenotypic data. Finally, 25 QTL at germination stage and 13 QTL at seedling stage were mapped. Among them, 10 QTL overlapped between two stages, which showed a partial genetic crossover on low-temperature tolerance stages in soybean. This would play an important role in marker-assisted selection for breeding elite variety with low-temperature tolerance at both stages.

相关文献

[1]Dissection of genetic overlap of drought and low-temperature tolerance QTLs at the germination stage using backcross introgression lines in soybean. Zhang, Wen Bo,Xin, Da Wei,Chen, Qing Shan,Zhang, Wen Bo,Jiang, Hong Wei,Liu, Chun Yan,Hu, Guo Hua,Zhang, Wen Bo,Qiu, Peng Cheng,Li, Can Dong,Hu, Guo Hua.

[2]Study on the Appraisal Methods and Indexes of Low-temperature Tolerance at Seed Germination Stage in Cucumber. LIU Jian-hui. 2005

[3]Study on the Appraisal Methods and Indexes of Low-temperature Tolerance at Seed Germination Stage in Cucumber. LIU Jian-hui,中国科学院文献情报中心; 中国生物技术发展中心; 中国生物工程学会;. 2005

[4]Cloning and Analyzing of Disease Resistance Gene Analogs from Soybean. LIU Jie,LIU Li-jun,WU Jun-jiang,CHEN Yi-li,LI Kang,ZHANG Cheng-liang. 2005

[5]Cloning and Analyzing of Disease Resistance Gene Analogs from Soybean. LIU Jie,LIU Li-jun,WU Jun-jiang,CHEN Yi-li,LI Kang,ZHANG Cheng-liang,中国科学院文献情报中心; 中国生物技术发展中心; 中国生物工程学会;. 2005

[6]Geographical distribution of GmTfl1 alleles in Chinese soybean varieties. Liu, Guifeng,Zhao, Lin,Qiu, Lijuan,Liu, Ying,Chang, Ruzhen,Guan, Rongxia,Qiu, Lijuan,Averitt, Benjamin J.,Zhang, Bo,Ma, Yansong,Luan, Xiaoyan. 2015

[7]Stability of growth periods traits for soybean cultivars across multiple locations. Liu Zhang-xiong,Chang Ru-zhen,Qiu Li-juan,Wang Xiao-bo,Yang Chun-yan,Xu Ran,Zhang Li-feng,Lu Wei-guo,Wang Qian,Wei Su-hong,Yang Chun-ming,Wang Hui-cai,Wang Rui-zhen,Zhou Rong,Chen Huai-zhu. 2016

[8]Flavor characteristic analysis of soymilk prepared by different soybean cultivars and establishment of evaluation method of soybean cultivars suitable for soymilk processing. Shi Xiaodi,Li Jingyan,Guo Shuntang,Wang Shuming,Zhang Lei,Qiu Lijuan,Han Tianfu,Wang Qianyu,Chang Sam Kow-Ching.

[9]QTL effects and epistatic interaction for flowering time and branch number in a soybean mapping population of JapanesexChinese cultivars. Yang Guang,Xie Fu-ti,Zhai Hong,Wu Hong-yan,Zhang Xing-zheng,Wang Ya-ying,Li Yu-qiu,Hu Bo,Wang Lu,Xia Zheng-jun,Zhang Xing-zheng,Wang Ya-ying,Li Yu-qiu,Wang Lu,Yang Guang,Lu Shi-xiang,Wen Zi-xiang,Wang De-chun,Wang Shao-dong,Harada, Kyuya. 2017

[10]GmFW1 expression decreased in GmSymRK knockdown transgenic soybean roots. Wang, Lijun,Deng, Lingwei,Jiao, Yongqing.

[11]The relation between C-4 pathway enzymes and PSII photochemical function in soybean. Li, WH,Lu, QT,Hao, NB,Ge, QY,Zhang, QD,Jiang, GM,Du, WG,Kuang, TY. 2000

[12]MICROBIAL ACTIVITY AND COMMUNITY DIVERSITY IN TOBACCO RHIZOSPHERIC SOIL AFFECTED BY DIFFERENT PRE-CROPS. Li, X.,Zhang, X.,Yue, B.,Sun, G.,Li, X.,Zhang, H.,He, G.,Xu, N.,Sun, M.,Zhao, Y.. 2017

[13]Pathogenicity of Pythium species causing seed rot and damping-off in soybean under controlled conditions. Xue, Allen G.,Cober, Elroy R.,Babcock, Carolyn,Zhang, Jinxiu,Wei, Lai,Zhang, Shuzhen,Li, Wenbin,Wu, Junjiang,Liu, Lijun. 2010

[14]Temporospatial Characterization of Nutritional and Bioactive Components of Soybean Cultivars in China. Wu, Tingting,Yao, Yang,Sun, Shi,Wang, Caijie,Song, Wenwen,Wu, Cunxiang,Jiang, Bingjun,Hou, Wensheng,Ren, Guixing,Han, Tianfu,Jia, Hongchang,Man, Weiqun,Fu, Lianshun.

[15]Differential expression of a WRKY gene between wild and cultivated soybeans correlates to seed size. Gu, Yongzhe,Wang, Yan,Gao, Huihui,He, Chaoying,Gu, Yongzhe,Gao, Huihui,He, Chaoying,Li, Wei,Liu, Miao,Lai, Yongcai,Jiang, Hongwei,Chen, Qingshan.

[16]Detecting SNPs underlying domestication-related traits in soybean. Li, Ying-Hui,Ma, Yan-Song,Chang, Ru-Zhen,Qiu, Li-Juan,Reif, Jochen C.,Jackson, Scott A.,Ma, Yan-Song. 2014

[17]Fine Mapping and Identification of a Novel Phytophthora Root Rot Resistance Locus RpsZS18 on Chromosome 2 in Soybean. Zhong, Chao,Sun, Suli,Duan, Canxing,Zhu, Zhendong,Yao, Liangliang,Ding, Junjie. 2018

[18]QTL analysis of soybean oil content under 17 environments. Qi, Zhaoming,Hou, Meng,Xin, Dawei,Wang, Zhongyu,Zhu, Rongsheng,Hu, Zhenbang,Chen, Qingshan,Han, Xue,Jiang, Hongwei,Liu, Chunyan,Hu, Guohua,Li, Candong. 2014

[19]Ectopic expression of Arabidopsis thaliana Na+(K+)/H+ antiporter gene, AtNHX5, enhances soybean salt tolerance. Wu, X. X.,Li, J.,Wu, X. D.,Wang, Z. K.,Liu, S. S.,Li, S. N.,Ma, Y. L.,Zhao, L.,Li, H. Y.,Li, D. M.,Li, W. B.,Liu, Q.,Su, A. Y.,Sun, J.. 2016

[20]GmACP expression is decreased in GmNORK knockdown transgenic soybean roots. Wang, Lijun,Deng, Lingwei. 2016

Genetic overlap of QTL associated with low-temperature tolerance at germination and seedling stage using BILs in soybean

作者其他论文更多>>

意见箱

Genetic overlap of QTL associated with low-temperature tolerance at germination and seedling stage using BILs in soybean

作者其他论文 更多>>

意 见 箱

作者其他论文更多>>

意见箱