InDel variations and gene expression analysis related to Fusarium wilt resistance in Gossypium barbadense
文献类型: 外文期刊
第一作者: Liu, Baojun
作者: Liu, Baojun;Qu, Yanying;Gu, Aixing;Han, Wanli;Yu, Yu;Wang, Xuwen;Bai, Jianyu
作者机构:
期刊名称:CROP SCIENCE ( 影响因子:2.0; 五年影响因子:2.3 )
ISSN: 0011-183X
年卷期: 2024 年
页码:
收录情况: SCI
摘要: Fusarium wilt resistance of Gossypium barbadense is very important to maintain its yield and quality, and to disease resistance breeding. Although many individual genes, which are quantitative trait loci associated with wilt resistance have been identified, knowledge of genes controlling wilt resistance in G. barbadense is still limited. In order to screen the InDel fragment related to Fusarium wilt resistance in G. barbadense, a genome-wide association study was conducted using 110 recombinant inbred lines of Xinhai 14 (susceptible cotton) and 06-146 (resistant cotton). In this study, 207,040 high-quality InDel loci were identified, of which 595 and 632 InDels were significantly associated (p < 1 x 10(-3)) with wilt resistance in G. barbadense in the additive and dominant effect module analyses, respectively. Combined transcriptome expression analysis within the FOV7 stably inherited qFOV7-D03-1 interval identified three >= 2 bp InDels for two differentially expressed genes. qPCR analysis was used to further validate that the expression of GB_D03G0204 and GB_D03G0238 was significantly different in the parental, resistant, and high susceptibility varieties. The GB_D03G0238 gene InDel was significant in both additive and dominant effect models, and the GB_D03G0204 gene InDel was significantly associated with wilt resistance in G. barbadense in the dominant effect model. The InDel fragments related to wilt resistance in G. barbadense discovered in this study can help gain insights into the genetic basis of wilt resistance and improve cotton breeding with excellent wilt resistance and high fiber quality traits.
分类号:
- 相关文献
作者其他论文 更多>>
-
Eimeria tenella pyrroline-5-carboxylate reductase is a secreted protein and involved in host cell invasion
作者:Liang, Shanshan;Zhu, Shunhai;Wang, Qingjie;Zhao, Qiping;Dong, Hui;Huang, Bing;Yu, Yu;Han, Hongyu;Liang, Shanshan;Wang, Qingjie
关键词:Coccidiosis; Eimeria tenella; Pyrroline-5-carboxylate reductase; Invasion
-
GhEXL3 participates in brassinosteroids regulation of fiber elongation in Gossypium hirsutum
作者:Zhang, Changsheng;Liu, Zhao;Shu, Sheng;Li, Fuguang;Qanmber, Ghulam;Yang, Zuoren;Zhang, Changsheng;Liu, Zhao;Li, Xinyang;Li, Yujun;Liu, Le;Li, Fuguang;Qanmber, Ghulam;Yang, Zuoren;Zhang, Changsheng;Liu, Zhao;Yang, Zuoren;Liu, Li;Wang, Xuwen
关键词:cotton; fiber; brassinosteroids; GhEXL3; GhBES1.4; cell elongation
-
Quantitative phosphoproteomic analysis of chicken DF-1 cells infected with Eimeria tenella, using tandem mass tag (TMT) and parallel reaction monitoring (PRM) mass spectrometry
作者:Jia, Liu-Shu;Liu, Zhan;Zhu, Shun-Hai;Zhao, Qi-Ping;Han, Hong-Yu;Zhao, Huan-Zhi;Yu, Yu;Dong, Hui
关键词:Coccidiosis; Eimeira tenella; DF-1 cells; TMT; Phosphoproteomics
-
Genome-Wide and Expression Pattern Analysis of the DVL Gene Family Reveals GhM_A05G1032 Is Involved in Fuzz Development in G. hirsutum
作者:Jiao, Yang;Zhao, Fuxiang;Yu, Yu;Jiao, Yang;Geng, Shiwei;Li, Shengmei;Su, Zhanlian;Chen, Quanjia;Qu, Yanying
关键词:cotton; DVL; expression pattern; fuzz; WGCNA; VIGS
-
Integrated application of transcriptomics and metabolomics provides insight into the mechanism of Eimeria tenella resistance to maduramycin
作者:Zhao, Huanzhi;Dong, Hui;Zhao, Qiping;Zhu, Shunhai;Jia, Liushu;Zhang, Sishi;Feng, Qian;Yu, Yu;Wang, Jinwen;Huang, Bing;Han, Hongyu
关键词:Transcriptomic; Metabolomics; Eimeria tenella; Drug resistance; Maduramycin
-
Genome-wide association screening and verification of potential genes associated with defoliation rate induced by defoliant in upland cotton
作者:Pan, Zhenyuan;Zhou, Xiaofeng;Li, Juan;Wang, Xuwen;Yu, Yu;Pan, Zhenyuan;Wang, Runze;Ding, Shugen;Han, Peng;Wu, Yuanlong;Nie, Xinhui;Zhao, Zhansheng
关键词:Machine-harvested cotton; Defoliation rate; Genome-wide association study; Favorable allele
-
Expression profile analysis of cotton fiber secondary cell wall thickening stage
作者:Liu, Li;Kong, Xianhui;Wang, Xuwen;Si, Aijun;Wang, Juan;Yu, Yu;Grover, Corrinne E.;Jareczek, Josef;Chen, Zhiwen
关键词:Upland cotton; Sea island cotton; Fiber quality; Gene expression patterns; Secondary cell wall thickening
