通过 SA 1-羟化酶将水杨酸降解为儿茶酚。

Degradation of salicylic acid to catechol in Solanaceae by SA 1-hydroxylase.

机构信息

Department of Molecular, Cellular, and Developmental Biology, University of Michigan, Ann Arbor, MI 48109, USA.

Department of Biochemistry and Molecular Biology, Michigan State University, East Lansing, MI 48823, USA.

出版信息

Plant Physiol. 2021 Apr 2;185(3):876-891. doi: 10.1093/plphys/kiaa096.

DOI:10.1093/plphys/kiaa096

PMID:33793924

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8133591/

Abstract

The hormone salicylic acid (SA) plays crucial roles in plant defense, stress responses, and in the regulation of plant growth and development. Whereas the biosynthetic pathways and biological functions of SA have been extensively studied, SA catabolism is less well understood. In this study, we report the identification and functional characterization of an FAD/NADH-dependent SA 1-hydroxylase from tomato (Solanum lycopersicum; SlSA1H), which catalyzes the oxidative decarboxylation of SA to catechol. Transcript levels of SlSA1H were highest in stems and its expression was correlated with the formation of the methylated catechol derivatives guaiacol and veratrole. Consistent with a role in SA catabolism, SlSA1H RNAi plants accumulated lower amounts of guaiacol and failed to produce any veratrole. Two O-methyltransferases involved in the conversion of catechol to guaiacol and guaiacol to veratrole were also functionally characterized. Subcellular localization analyses revealed the cytosolic localization of this degradation pathway. Phylogenetic analysis and functional characterization of SA1H homologs from other species indicated that this type of FAD/NADH-dependent SA 1-hydroxylases evolved recently within the Solanaceae family.

摘要

激素水杨酸（SA）在植物防御、应激反应以及植物生长发育的调控中起着至关重要的作用。虽然 SA 的生物合成途径和生物学功能已经得到了广泛的研究，但 SA 的分解代谢却知之甚少。在本研究中，我们从番茄（Solanum lycopersicum；SlSA1H）中鉴定并功能表征了一种 FAD/NADH 依赖的 SA 1-羟化酶，该酶催化 SA 的氧化脱羧生成儿茶酚。SlSA1H 的转录水平在茎中最高，其表达与甲基化儿茶酚衍生物愈创木酚和藜芦醇的形成相关。与 SA 分解代谢的作用一致，SlSA1H RNAi 植物积累的愈创木酚较少，并且未能产生任何藜芦醇。参与儿茶酚转化为愈创木酚和愈创木酚转化为藜芦醇的两种 O-甲基转移酶也进行了功能表征。亚细胞定位分析显示该降解途径定位于细胞质。来自其他物种的 SA1H 同源物的系统发育分析和功能表征表明，这种 FAD/NADH 依赖的 SA 1-羟化酶是在茄科植物中最近进化而来的。

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