Genomic identification and characterization of MYC family genes in wheat (Triticum aestivum L.)
文献类型: 外文期刊
第一作者: Bai, Jian-fang
作者: Bai, Jian-fang;Guo, Li-ping;Guo, Xiao-ming;Guo, Hao-yu;Yuan, Shao-hua;Duan, Wen-jing;Liu, Zihan;Zhao, Chang-ping;Zhang, Feng-ting;Zhang, Li-ping;Bai, Jian-fang;Guo, Li-ping;Guo, Xiao-ming;Guo, Hao-yu;Yuan, Shao-hua;Duan, Wen-jing;Liu, Zihan;Zhao, Chang-ping;Zhang, Feng-ting;Zhang, Li-ping;Wang, Yu-kun;Guo, Li-ping
作者机构:
关键词: Wheat; MYC; Gene family; JA signaling; Light response; Male sterile
期刊名称:BMC GENOMICS ( 影响因子:3.969; 五年影响因子:4.478 )
ISSN: 1471-2164
年卷期: 2019 年 20 卷 1 期
页码:
收录情况: SCI
摘要: Background: MYC transcriptional factors are members of the bHLH (basic helix-loop-helix) superfamily, and play important roles in plant growth and development. Recent studies have revealed that some MYCs are involved in the crosstalk between Jasmonic acid regulatory pathway and light signaling in Arabidopsis, but such kinds of studies are rare in wheat, especially in photo-thermo-sensitive genic male sterile (PTGMS) wheat line. Results: 27 non-redundant MYC gene copies, which belonged to 11 TaMYC genes, were identified in the whole genome of wheat (Chinese Spring). These gene copies were distributed on 13 different chromosomes, respectively. Based on the results of phylogenetic analysis, 27 TaMYC gene copies were clustered into group I, group III, and group IV. The identified TaMYC genes copies contained different numbers of light, stress, and hormone-responsive regulatory elements in their 1500 base pair promoter regions. Besides, we found that TaMYC3 was expressed highly in stem, TaMYC5 and TaMYC9 were expressed specially in glume, and the rest of TaMYC genes were expressed in all tissues (root, stem, leaf, pistil, stamen, and glume) of the PTGMS line BS366. Moreover, we found that TaMYC3, TaMYC7, TaMYC9, and TaMYC10 were highly sensitive to methyl jasmonate (MeJA), and other TaMYC genes responded at different levels. Furthermore, we confirmed the expression profiles of TaMYC family members under different light quality and plant hormone stimuli, and abiotic stresses. Finally, we predicted the wheat microRNAs that could interact with TaMYC family members, and built up a network to show their integrative relationships. Conclusions: This study analyzed the size and composition of the MYC gene family in wheat, and investigated stress-responsive and light quality induced expression profiles of each TaMYC gene in the PTGMS wheat line BS366. In conclusion, we obtained lots of important information of TaMYC family, and the results of this study was supposed to contribute novel insights and gene and microRNA resources for wheat breeding, especially for the improvement of PTGMS wheat lines.
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