Genome-wide identification of TPS genes in sesame and analysis of their expression in response to abiotic stresses

Q3 Agricultural and Biological Sciences Oil Crop Science Pub Date : 2023-05-01 DOI:10.1016/j.ocsci.2023.03.004
Wangyi Zhou , Chen Sheng , Senouwa Segla Koffi Dossou, Zhijian Wang, Shengnan Song, Jun You, Linhai Wang
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引用次数: 2

Abstract

Trehalose and its precursor, trehalose-6-phosphate, play critical roles in plant metabolism and response to abiotic stresses. Trehalose-6-phosphate synthase (TPS) is a key enzyme in the trehalose synthesis pathway. Hence this study identified TPS genes in sesame (SiTPSs) and examined their expression patterns under various abiotic stresses. Totally, ten SiTPSs were identified and comprehensively characterized. SiTPSs were found to be unevenly distributed on five out of 13 sesame chromosomes and were predicted to be localized in chloroplasts and vacuoles of cells. Phylogenetic analysis classified SiTPS proteins into two groups (I and II), which was supported by gene structure and conserved motif analyses. Analysis of cis-acting elements in promoter regions of SiTPSs revealed that they might primarily involve developmental and environmental responses. SiTPSs exhibited different expression patterns in different tissues and under different abiotic stresses. Most group II SiTPS genes (SiTPS4 - SiTPS10) were strongly induced by drought, salt, waterlogging, and osmotic stress. Particularly, SiTPS10 was the most significantly up-regulated under various abiotic stresses, indicating it is a candidate gene for improving sesame tolerance to multiple abiotic stresses. Our results provide insight into the TPS gene family in sesame and fundamental resources for genomics studies towards dissecting SiTPS genes’ functions.

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芝麻TPS基因的全基因组鉴定及其在非生物胁迫下的表达分析
海藻糖及其前体海藻糖-6-磷酸在植物代谢和对非生物胁迫的响应中起着关键作用。海藻糖-6-磷酸合成酶(TPS)是海藻糖合成途径中的关键酶。因此,本研究鉴定了芝麻中TPS基因(sitps),并研究了它们在各种非生物胁迫下的表达模式。总共鉴定了10个sitps并对其进行了综合表征。在13条芝麻染色体中,有5条染色体上的sitps分布不均匀,并可能定位于细胞的叶绿体和液泡中。系统发育分析将SiTPS蛋白分为I和II两类,基因结构和保守基序分析支持这一观点。对sitps启动子区域的顺式作用元件的分析表明,它们可能主要涉及发育和环境反应。在不同的非生物胁迫下,sitps在不同的组织中有不同的表达模式。大多数II组SiTPS基因(SiTPS4 - SiTPS10)受到干旱、盐、涝渍和渗透胁迫的强烈诱导。其中,SiTPS10在各种非生物胁迫下的上调最为显著,表明其是提高芝麻对多种非生物胁迫耐受性的候选基因。本研究结果为深入了解芝麻TPS基因家族提供了基础资源,为研究芝麻TPS基因的功能提供了基础资源。
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来源期刊
Oil Crop Science
Oil Crop Science Food Science, Plant Science, Agronomy and Crop Science
CiteScore
3.40
自引率
0.00%
发文量
20
审稿时长
74 days
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