Characterization of the WAK Gene Family Reveals Genes for FHB Resistance in Bread Wheat (Triticum aestivum L.)
文献类型: 外文期刊
第一作者: Xia, Xiaobo
作者: Xia, Xiaobo;Zhang, Xu;Zhang, Yicong;Wang, Lirong;An, Qi;Tu, Qiang;Wu, Lei;Jiang, Peng;Zhang, Peng;Yu, Lixuan;He, Yi;Xia, Xiaobo;Li, Gang;Zhang, Yicong;Wang, Lirong;An, Qi;Tu, Qiang
作者机构:
关键词: wheat; wall-associated kinase; TaWAK; gene family; gene expression; Fusarium head blight; resistance
期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:6.208; 五年影响因子:6.628 )
ISSN:
年卷期: 2022 年 23 卷 13 期
页码:
收录情况: SCI
摘要: Wall-associated kinases (WAKs) are important receptor-like proteins that play major roles in plant defense against pathogens. Fusarium head blight (FHB), one of the most widespread and devastating crop diseases, reduces wheat yield and leads to quality deterioration. Although WAK gene families have been studied in many plants, systematic research on bread wheat (Triticum aestivum) and its role in FHB resistance, in particular, is lacking. In this study, we identified and characterized 320 genes of the TaWAK family in wheat distributed across all chromosomes except 4B and divided them into three phylogenetic groups. Duplication and synteny analyses provided valuable information on the evolutionary characteristics of the TaWAK genes. The gene expression pattern analysis suggested that TaWAK genes play diverse roles in plant biological processes and that at least 30 genes may be involved in the response to Fusarium infection in wheat spikes, with most of the genes contributing to pectin- and chitin-induced defense pathways. Furthermore, 45 TaWAK genes were identified within 17 hcmQTLs that are related to wheat FHB resistance. Our findings provide potential candidate genes for improving FHB resistance and insights into the future functional analysis of TaWAK genes in wheat.
分类号:
- 相关文献
作者其他论文 更多>>
-
Using Quantitative Trait Locus Mapping and Genomic Resources to Improve Breeding Precision in Peaches: Current Insights and Future Prospects
作者:Hayat, Umar;Ke, Cao;Wang, Lirong;Zhu, Gengrui;Fang, Weichao;Wang, Xinwei;Chen, Changwen;Li, Yong;Wu, Jinlong;Hayat, Umar;Ke, Cao
关键词:peach; QTL; marker-assisted breeding; genomic selection; CRISPR/Cas9; fruit shape
-
Deep placement of controlled-release and common urea achieves the win-win of enhancing maize productivity and decreasing environmental pollution
作者:Wu, Peng;Yu, Jinyu;Wang, Qinhe;Liu, Zeyu;Huang, Hua;Wu, Qi;Zhang, Guangxin;Sun, Min;Gao, Zhiqiang;Xue, Jianfu;Wu, Peng;Yang, Kejun;Wu, Peng;Ren, Liangqi;Zhang, Peng;Jia, Zhikuan;Liu, Enke;Bangura, Kemoh;Xue, Jianfu
关键词:Deep fertilization; Fertilizer management strategy; Greenhouse gas; Maize productivity; NH3
-
Integrated Genetic Diversity and Multi-Omics Analysis of Colour Formation in Safflower
作者:Qin, Yonghua;Fan, Kangjun;Yimamu, Aidiya;Zhan, Peng;Lv, Lu;Li, Gang;Liu, Jiao;Liu, Hong;Qin, Rui;Hu, Zunhong;Hu, Xueli;Yan, Xingchu
关键词:
Carthamus tinctorius L.; genetic diversity; core germplasm; transcriptome; metabolome -
New understanding on iota-carrageenan oxidation by hydrogen peroxide with or without copper sulphate and the properties of oxidized iota-carrageenan
作者:Gu, Qixiang;Zhang, Peng;Zhang, Tong;Deng, Chunmei;Kang, Xinhuang;Li, Chengpeng;Gu, Qixiang;Li, Yongzhen;Li, Puwang;Zhang, Peng;Li, Lihua;Zhang, Tong;Deng, Chunmei;Kang, Xinhuang;Li, Chengpeng;Li, Puwang
关键词:Iota-carrageenan; Oxidation; Antibacterial activity; Copper ion; Cytocompatibility
-
Analysis of biosynthetic pathways to areca alkaloids in Areca catechu
作者:Zhou, Guangzhen;Wan, Yinglang;Zhou, Guangzhen;Wu, Jiao;Lu, Zhongliang;Jiang, Yiqi;Wan, Yinglang;Wu, Jiao;Zhang, Xu;Lu, Yandu;Huang, Peng;Zeng, Jianguo;Huang, Peng;Zeng, Jianguo
关键词:A. catechu; Arecoline; Pyridine alkaloids; Biosynthesis; Methyltransferase
-
Novel synthesis of sulfur-doped Ag3PO4 photocatalyst for efficient degradation of cylindrospermopsin
作者:Zhang, Xu;Zhou, Li;Zou, Guoyan;Zhang, Xu;Chu, Huaqiang;Zhou, Xuefei;Zhang, Yalei;Liu, Yiyang;Hengchao, E.;Zhao, Zhiyong;Zhang, Xu
关键词:Cylindrospermopsin; S-doped Ag3PO4; Calcination; Degradation mechanisms; Toxicity
-
Transcriptome and metabolism study reveals impact of nitrogen fertilizer on triticale
作者:Zhang, Xiaojuan;Ma, Hongxiu;Jiang, Peng;Ma, Hongcai;Sun, Quan;Zhang, Xiaojuan;Chen, Yongwei;Ma, Wenli;Chen, Ping;Li, Xuexue;Ma, Jiale
关键词:Triticale; Nitrogen fertilizer; Transcriptome; Metabolome
