Identification, systematic evolution and expression analyses of the AAAP gene family in Capsicum annuum
文献类型: 外文期刊
第一作者: Pan, Xiaoxue
作者: Pan, Xiaoxue;Hu, Mingyu;Wang, Zhongwei;Guan, Ling;Jiang, Xiaoying;Bai, Wenqin;Wu, Hong;Lei, Kairong
作者机构:
关键词: Capsicum annuum; Amino acid; auxin permease; Systematic evolution; Gene expression analyses
期刊名称:BMC GENOMICS ( 影响因子:3.5; 五年影响因子:4.1 )
ISSN: 1471-2164
年卷期: 2021 年 22 卷 1 期
页码:
收录情况: SCI
摘要: Background The amino acid/auxin permease (AAAP) family represents a class of proteins that transport amino acids across cell membranes. Members of this family are widely distributed in different organisms and participate in processes such as growth and development and the stress response in plants. However, a systematic comprehensive analysis of AAAP genes of the pepper (Capsicum annuum) genome has not been reported. Results In this study, we performed systematic bioinformatics analyses to identify AAAP family genes in the C. annuum 'Zunla-1' genome to determine gene number, distribution, structure, duplications and expression patterns in different tissues and stress. A total of 53 CaAAAP genes were identified in the 'Zunla-1' pepper genome and could be divided into eight subgroups. Significant differences in gene structure and protein conserved domains were observed among the subgroups. In addition to CaGAT1, CaATL4, and CaVAAT1, the remaining CaAAAP genes were unevenly distributed on 11 of 12 chromosomes. In total, 33.96% (18/53) of the CaAAAP genes were a result of duplication events, including three pairs of genes due to segmental duplication and 12 tandem duplication events. Analyses of evolutionary patterns showed that segmental duplication of AAAPs in pepper occurred before tandem duplication. The expression profiling of the CaAAAP by transcriptomic data analysis showed distinct expression patterns in various tissues and response to different stress treatment, which further suggest that the function of CaAAAP genes has been differentiated. Conclusions This study of CaAAAP genes provides a theoretical basis for exploring the roles of AAAP family members in C. annuum.
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