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红球菌 DSM43269 中 3-酮类固醇-9α-羟化酶的多态性,用于特异性降解不同类别的甾体。

Multiplicity of 3-Ketosteroid-9α-Hydroxylase enzymes in Rhodococcus rhodochrous DSM43269 for specific degradation of different classes of steroids.

机构信息

Department of Microbiology, University of Groningen, AG Groningen, The Netherlands.

出版信息

J Bacteriol. 2011 Aug;193(15):3931-40. doi: 10.1128/JB.00274-11. Epub 2011 Jun 3.

DOI:10.1128/JB.00274-11
PMID:21642460
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3147496/
Abstract

The well-known large catabolic potential of rhodococci is greatly facilitated by an impressive gene multiplicity. This study reports on the multiplicity of kshA, encoding the oxygenase component of 3-ketosteroid 9α-hydroxylase, a key enzyme in steroid catabolism. Five kshA homologues (kshA1 to kshA5) were previously identified in Rhodococcus rhodochrous DSM43269. These KshA(DSM43269) homologues are distributed over several phylogenetic groups. The involvement of these KshA homologues in the catabolism of different classes of steroids, i.e., sterols, pregnanes, androstenes, and bile acids, was investigated. Enzyme activity assays showed that all KSH enzymes with KshA(DSM43269) homologues are C-9 α-hydroxylases acting on a wide range of 3-ketosteroids, but not on 3-hydroxysteroids. KshA5 appeared to be the most versatile enzyme, with the broadest substrate range but without a clear substrate preference. In contrast, KshA1 was found to be dedicated to cholic acid catabolism. Transcriptional analysis and functional complementation studies revealed that kshA5 supported growth on any of the different classes of steroids tested, consistent with its broad expression induction pattern. The presence of multiple kshA genes in the R. rhodochrous DSM43269 genome, each displaying unique steroid induction patterns and substrate ranges, appears to facilitate a dynamic and fine-tuned steroid catabolism, with C-9 α-hydroxylation occurring at different levels during microbial steroid degradation.

摘要

众所周知,罗氏菌具有巨大的分解代谢潜能,这主要得益于其令人印象深刻的基因多样性。本研究报告了编码 3-酮类固醇 9α-羟化酶氧合酶组分的 kshA 的多样性,该酶是类固醇分解代谢中的关键酶。先前在 Rhodococcus rhodochrous DSM43269 中已鉴定出 5 种 kshA 同源物(kshA1 至 kshA5)。这些 KshA(DSM43269)同源物分布在几个系统发育群中。研究了这些 KshA 同源物在不同类别的类固醇(甾醇、孕烷、雄烯二酮和胆汁酸)代谢中的作用。酶活性测定表明,所有具有 KshA(DSM43269)同源物的 KSH 酶都是 C-9α-羟化酶,可作用于广泛的 3-酮类固醇,但不能作用于 3-羟基类固醇。KshA5 似乎是最通用的酶,具有最广泛的底物范围,但没有明显的底物偏好。相比之下,发现 KshA1 专门用于胆酸代谢。转录分析和功能互补研究表明,kshA5 支持在测试的任何不同类别的类固醇上生长,这与其广泛的表达诱导模式一致。R. rhodochrous DSM43269 基因组中存在多个 kshA 基因,每个基因都显示出独特的类固醇诱导模式和底物范围,这似乎促进了动态和精细的类固醇分解代谢,在微生物类固醇降解过程中 C-9α-羟化作用发生在不同水平。

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