qSE7 is a major quantitative trait locus (QTL) influencing stigma exsertion rate in rice (Oryza sativa L.)
文献类型: 外文期刊
第一作者: Zhang, Keqin
作者: Zhang, Keqin;Cheng, Shihua;Zhang, Keqin;Zhang, Yingxin;Wu, Weixun;Zhan, Xiaodeng;Anis, Galal Bakr;Rahman, Md Habibur;Hong, Yongbo;Riaz, Aamir;Zhu, Aike;Cao, Yongrun;Sun, Lianping;Yang, Zhengfu;Yang, Qinqin;Cao, Liyong;Cheng, Shihua;Anis, Galal Bakr;Rahman, Md Habibur
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:4.379; 五年影响因子:5.133 )
ISSN: 2045-2322
年卷期: 2018 年 8 卷
页码:
收录情况: SCI
摘要: Stigma exsertion is a key determinant to increase the efficiency of commercial hybrid rice seed production. The major quantitative trait locus (QTL) qSE7 for stigma exsertion rate was previously detected on the chromosome 7 using 75 Chromosome Segment Substitution Lines (CSSLs) derived from a cross between the high stigma exsertion indica maintainer XieqingzaoB (XQZB) and low stigma exsertion indica restorer Zhonghui9308 (ZH9308). The C51 line, a CSSL population with an introgression from XQZB, was backcrossed with ZH9308 to produce the secondary F-2 (BC5F2) and F-2:3 (BC5F2:3) populations. As a result, the Near Isogenic Line (NIL qSE7XB) was developed. Analysis indicated qSE7 acted as a single Mendelian factor and decreased the stigma exsertion. We hypothesized qSE7 regulates single, dual, and total stigma exsertion rate, provided experimental support. qSE7 was mapped and localized between RM5436 and RM5499 markers, within a physical distance of 1000-kb. With use of new insertion-deletion (InDel) markers and analysis of the heterozygous and phenotypic data, it was ultimately dissected to a 322.9-kb region between InDel SER4-1 and RM5436. The results are useful for additional identification and isolation of this candidate gene controlling stigma exsertion rate, and provide a basis for further fine mapping, gene cloning, and Marker Assisted Selection (MAS) breeding later.
分类号:
- 相关文献
作者其他论文 更多>>
-
Enhancing beef tallow flavor through enzymatic hydrolysis: Unveiling key aroma precursors and volatile compounds using machine learning
作者:Xiang, Xiaofeng;Wang, Kai;Wang, Fuwei;Yang, Qinqin;Wang, Qiang;Xiang, Xiaofeng;Wang, Kai;Wang, Qiang;Huang, Jie;Zhou, Qi
关键词:Beef tallow; Aroma precursor; Enzymatic hydrolysis; Smelting process; Fatty acids
-
Advancing Climate-Resilient Sorghum: the Synergistic Role of Plant Biotechnology and Microbial Interactions
作者:Srivastava, Atul Kumar;Luo, Lingfeng;Chen, Songshu;Yang, Sanwei;Xie, Xin;Riaz, Aamir;Jiang, Junmei;Li, Xiangyang;Uzair, Mohammad;Mishra, Pooja;Zeb, Aqib;Zhang, Jiwei;Singh, Raghvendra Pratap;Zhao, Yudan
关键词:Sorghum; Climate resistant; Plant biotechnology; Microbial interactions
-
Genome-Wide Identification and Abiotic Stress Response Analysis of C2H2 Zinc Finger Protein Genes in Foxtail Millet (Setaria italica)
作者:Zhao, Qian;Zhang, Yingxin;Xing, Xiangyu;Li, Shuyao;Sun, Ruidong;Zhang, Jun;Jiang, Liangyu;Zang, Zhenyuan;Zhang, Jian;Zhang, Weilong;Gao, Ming;Zhang, Jian
关键词:foxtail millet; phylogenetic analysis; expression profiles; abiotic stress
-
Quality control strategy for postharvest fragrant pears: pathogenesis of brown rot caused by Monilinia fructicola and protective mechanism of carvacrol
作者:Li, Longju;Shi, Detan;Song, Dandan;Chen, Kuai;Riaz, Aamir;Wu, Zhibing;Zhang, Jinlian;Riaz, Aamir
关键词:natural product; Monilinia fructicola; brown rot; carvacrol; antifungal activity; defensive capability
-
Development and characterization of an eco-friendly plant extract-loaded nanoemulsion for pest control
作者:Yang, Zitao;Luo, Liangui;Tang, Wanggen;Zhang, Yingxin;Yan, Xizhong;Ma, Li;Qie, Xingtao;Yang, Zitao;Luo, Liangui;Zhang, Yingxin;Yan, Xizhong;Ma, Li;Qie, Xingtao;Ji, Yufei
关键词:aphicidal activity; biological safety; nanoemulsion;
Phyma leptostachya ; plant extracts -
Heat shock transcription factors regulate thermotolerance gene networks in tomato ( Solanum lycopersicum) flower buds
作者:Li, Hongwei;Liu, Yun;Yang, Qinqin;Yang, Tailai;Zhou, Zhi;Li, Yafei;Zhang, Na;Lin, Tao;Li, Yongyao;Lyu, Yaqing;Zhu, Yingfang
关键词:Tomato; Heat stress; Transcriptome; Transcription factor; Thermotolerance
-
Rice THIN CULM 4 (TC4) modulates culm strength by regulating morphology, structure, and development
作者:Zhou, Ran;Huang, Chenbo;Wen, Xiaoxia;Sun, Zhihao;Dong, Wei;Chen, Yuyu;Huang, Nuan;Zhang, Han;Su, Haihan;Li, Yanhui;Peng, Zequn;Zhang, Yingxin;Cao, Liyong;Cheng, Shihua;Zhan, Xiaodeng;Sun, Lianping;Chen, Daibo;Zhou, Ran;Huang, Chenbo;Wen, Xiaoxia;Sun, Zhihao;Dong, Wei;Chen, Yuyu;Huang, Nuan;Zhang, Han;Su, Haihan;Li, Yanhui;Peng, Zequn;Zhang, Yingxin;Cao, Liyong;Cheng, Shihua;Zhan, Xiaodeng;Sun, Lianping;Chen, Daibo;Zhou, Ran;Huang, Chenbo;Huang, Nuan;Su, Haihan;Cao, Liyong;Sun, Lianping;Dong, Wei;Chen, Yuyu
关键词:Rice; Culm development; TC4; Culm mechanical strength; Lodging resistance
