Genome-wide bioinformatics analysis revealed putative substrate specificities of SABATH and MES family members in silver birch (Betula pendula)

IF 1.1 4区 农林科学 Q3 FORESTRY
Kiran Singewar, Christian R Moschner, E. Hartung, M. Fladung
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引用次数: 2

Abstract

Abstract Plant SABATH family members catalyze the methylation of many hormones, signaling molecules, and floral scent metabolites, including salicylic acid (SA), jasmonic acid (JA), and indol-3 acetic acid (IAA). Demethylation of resulting methyl esters was executed by members of the MES family. Members of both families are significantly involved in plant developmental processes. Here, using different bioinformatics tools, we studied the evolutionary relationship and characterized the putative functions of the family members in silver birch (Betula pendula). It is a socio-ecologically important tree species and plays a vital role in reforestation. Ten and twelve members of the SABATH (BpSABATH1-10) and MES (BpMES1-12) family were identified in silver birch, respectively at the gene and enzyme levels. The BpSABATH and BpMES genes were distributed on seven of fourteen chromosomes, indicating the occurrence of moderate duplication events important for the expansion of both families. Phylogenetic clustering and the gene ontology database suggest, BpSA-BATH8 is involved in the methylation of indole-3-acetic acid (IAA), while BpSABATH5, BpSABATH6, and BpSABATH7 methylate JA to methyl jasmonate (MeJA). BpSABATH9 was alone in the phylogenetic functional group 1 and prefers SA as a substrate to synthesize methyl salicylate (MeSA). Likewise, BpMES5 and BpMES12 are possibly involved in the demethylation of the methyl ester of IAA, while BpMES6, BpMES7, and BpMES8 are responsible for the demethylation of MeJA. BpMES9 clustered with MES and prefers MeSA as a substrate. The current analysis helped to select candidate genes that could be subjected to further molecular breeding of birch varieties adapted to biotic and abiotic stress conditions.
全基因组生物信息学分析揭示了白桦树中SABATH和MES家族成员可能的底物特异性
植物SABATH家族成员催化许多激素、信号分子和花香代谢物的甲基化,包括水杨酸(SA)、茉莉酸(JA)和吲哚-3乙酸(IAA)。产生的甲酯的去甲基化由MES家族的成员执行。这两个科的成员都显著参与植物的发育过程。本文利用不同的生物信息学工具,研究了白桦(Betula pendula)家族成员的进化关系,并对其可能的功能进行了表征。它是一种重要的社会生态树种,在重新造林中起着至关重要的作用。在基因和酶水平上分别鉴定出10个和12个SABATH (BpSABATH1-10)和MES (BpMES1-12)家族成员。BpSABATH和BpMES基因分布在14条染色体中的7条染色体上,表明发生了中等重复事件,这对两个家族的扩展都很重要。系统发育聚类和基因本体数据库表明,BpSA-BATH8参与吲哚-3-乙酸(IAA)的甲基化,而BpSABATH5、BpSABATH6和BpSABATH7将JA甲基化为茉莉酸甲酯(MeJA)。BpSABATH9在系统发育功能群1中是唯一的,它倾向于将SA作为底物合成水杨酸甲酯(MeSA)。同样,BpMES5和BpMES12可能参与IAA甲酯的去甲基化,而BpMES6、BpMES7和BpMES8负责MeJA的去甲基化。BpMES9与MES聚集,并倾向于MeSA作为衬底。目前的分析有助于选择候选基因,这些基因可以进行进一步的分子育种,以适应生物和非生物胁迫条件的桦树品种。
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来源期刊
Silvae Genetica
Silvae Genetica 农林科学-林学
CiteScore
2.20
自引率
10.00%
发文量
10
审稿时长
3 months
期刊介绍: Silvae Genetica is an international peer reviewed journal with more than 65 year tradition and experience in all fields of theoretical and applied Forest Genetics and Tree breeding. It continues "Zeitschrift für Forstgenetik und Forstpflanzenzüchtung" (Journal of Forest Genetics and Forest Tree Breeding) founded by W. LANGNER in 1951.
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