Genome-wide identification of GAD family genes suggests GhGAD6 functionally respond to Cd2+ stress in cotton

Author:

Huang Hui,He Yunxin,Cui Aihua,Sun Liangqing,Han Mingge,Wang Jing,Rui Cun,Lei Yuqian,Liu Xiaoyu,Xu Nan,Zhang Hong,Zhang Yuexin,Fan Yapeng,Feng Xixian,Ni Kesong,Jiang Jie,Zhang Xingping,Chen Chao,Wang Shuai,Chen Xiugui,Lu Xuke,Wang Delong,Wang Junjuan,Yin Zujun,Qaraevna Bobokhonova Zebinisso,Guo Lixue,Zhao Lanjie,Ye Wuwei

Abstract

Glutamate decarboxylase (GAD) mainly regulated the biosynthesis of γ-aminobutyric acid (GABA) and played an important role in plant growth and stress resistance. To explore the potential function of GAD in cotton growth, the genome-wide identification, structure, and expression analysis of GAD genes were performed in this study. There were 10, 9, 5, and 5 GAD genes identified in G. hirsutum, G. barbadense, G. arboreum, and G. raimondii, respectively. GAD was divided into four clades according to the protein motif composition, gene structure, and phylogenetic relationship. The segmental duplication was the main way of the GAD gene family evolution. Most GhGADs respond to abiotic stress. Clade Ⅲ GAD was induced by Cd2+ stress, especially GhGAD6, and silencing GhGAD6 would lead to more serious Cd2+ poisoning in cotton. The oxidative damage caused by Cd2+ stress was relieved by increasing the GABA content. It was speculated that the decreased expression of GhGAD6 reduced the content of GABA in vivo and caused the accumulation of ROS. This study will further expand our understanding of the relationship between the evolution and function of the GhGAD gene family and provide new genetic resources for cotton breeding under environmental stress and phytoremediation.

Publisher

Frontiers Media SA

Subject

Genetics (clinical),Genetics,Molecular Medicine

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