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全基因组鉴定和表达分析棉花 patatin 相关磷脂酶 A 基因及其对胁迫耐受性的响应。

Genome-wide identification and expression analysis of the cotton patatin-related phospholipase A genes and response to stress tolerance.

机构信息

Biotechnology Research Institute, Chinese Academy of Agricultural Sciences, Zhongguancun, Nandajie No. 12, Haidian District, Beijing, 100081, China.

College of Plant Science, Tarim University, 1487 East Tarim Avenue, Aral City, 843300, China.

出版信息

Planta. 2023 Feb 8;257(3):49. doi: 10.1007/s00425-023-04081-8.

DOI:10.1007/s00425-023-04081-8
PMID:36752875
Abstract

Patatin-related phospholipase A genes were involved in the response of Gossypium hirsutum to drought and salt tolerance. pPLA (patatin-related phospholipase A) is a key enzyme that catalyzes the initial step of lipid hydrolysis, which is involved in biological processes, such as drought, salt stress, and freezing injury. However, a comprehensive analysis of the pPLA gene family in cotton, especially the role of pPLA in the response to drought and salt tolerance, has not been reported so far. A total of 33 pPLA genes were identified in this study using a genome-wide search approach, and phylogenetic analysis classified these genes into three groups. These genes are unevenly distributed on the 26 chromosomes of cotton, and most of them contain a few introns. The results of the collinear analysis showed that G. hirsutum contained 1-5 copies of each pPLA gene found in G. arboreum and G. raimondii. The subcellular localization analysis of Gh_D08G061200 showed that the protein was localized in the nucleus. In addition, analysis of published upland cotton transcriptome data revealed that six GhPLA genes were expressed in various tissues and organs. Two genes (Gh_A04G142100.1 and Gh_D04G181000.1) were highly expressed in all tissues under normal conditions, showing the expression characteristics of housekeeping genes. Under different drought and salt tolerance stresses, we detected four genes with different expression levels. This study helps to clarify the role of pPLA in the response to drought and salt tolerance.

摘要

类脂酶相关磷脂酶 A 基因参与棉花对干旱和耐盐性的响应。pPLA(类脂酶相关磷脂酶 A)是一种关键酶,可催化脂质水解的初始步骤,参与生物过程,如干旱、盐胁迫和冷冻损伤。然而,目前尚未对棉花 pPLA 基因家族进行全面分析,特别是 pPLA 在应对干旱和耐盐性方面的作用。本研究采用全基因组搜索方法鉴定了 33 个 pPLA 基因,并通过系统发育分析将这些基因分为三组。这些基因在棉花的 26 条染色体上不均匀分布,大多数含有几个内含子。共线性分析的结果表明,陆地棉含有拟南芥和雷蒙德氏棉中每种 pPLA 基因的 1-5 个拷贝。Gh_D08G061200 的亚细胞定位分析表明,该蛋白定位于细胞核内。此外,对已发表的陆地棉转录组数据的分析表明,6 个 GhPLA 基因在各种组织和器官中表达。两个基因(Gh_A04G142100.1 和 Gh_D04G181000.1)在正常条件下所有组织中均高表达,表现出管家基因的表达特征。在不同的干旱和耐盐胁迫下,我们检测到四个基因的表达水平不同。本研究有助于阐明 pPLA 在应对干旱和耐盐性中的作用。

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3
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4
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5
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J Plant Res. 2020 Jul;133(4):489-497. doi: 10.1007/s10265-020-01199-8. Epub 2020 May 5.
6
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7
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Trends Plant Sci. 2018 Oct;23(10):933-945. doi: 10.1016/j.tplants.2018.07.006. Epub 2018 Aug 16.