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河口沉积物中厌氧睾酮代谢涉及的生化机制与微生物

Biochemical Mechanisms and Microorganisms Involved in Anaerobic Testosterone Metabolism in Estuarine Sediments.

作者信息

Shih Chao-Jen, Chen Yi-Lung, Wang Chia-Hsiang, Wei Sean T-S, Lin I-Ting, Ismail Wael A, Chiang Yin-Ru

机构信息

Biodiversity Research Center, Academia SinicaTaipei, Taiwan.

Bioresource Collection and Research Center, Food Industry Research and Development InstituteHsinchu, Taiwan.

出版信息

Front Microbiol. 2017 Aug 11;8:1520. doi: 10.3389/fmicb.2017.01520. eCollection 2017.

DOI:10.3389/fmicb.2017.01520
PMID:28848528
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5554518/
Abstract

Current knowledge on the biochemical mechanisms underlying microbial steroid metabolism in anaerobic ecosystems is extremely limited. Sulfate, nitrate, and iron [Fe (III)] are common electron acceptors for anaerobes in estuarine sediments. Here, we investigated anaerobic testosterone metabolism in anaerobic sediments collected from the estuary of Tamsui River, Taiwan. The anaerobic sediment samples were spiked with testosterone (1 mM) and individual electron acceptors (10 mM), including nitrate, Fe, and sulfate. The analysis of androgen metabolites indicated that testosterone biodegradation under denitrifying conditions proceeds through the 2,3- pathway, whereas testosterone biodegradation under iron-reducing conditions may proceed through an unidentified alternative pathway. Metagenomic analysis and PCR-based functional assays suggested that spp. were the major testosterone degraders in estuarine sediment samples incubated with testosterone and nitrate. sp. strain GDN1, a testosterone-degrading betaproteobacterium, was isolated from the denitrifying sediment sample. This strain tolerates a broad range of salinity (0-30 ppt). Although testosterone biodegradation did not occur under sulfate-reducing conditions, we observed the anaerobic biotransformation of testosterone to estrogens in some testosterone-spiked sediment samples. This is unprecedented since biotransformation of androgens to estrogens is known to occur only under oxic conditions. Our metagenomic analysis suggested that spp. might play a role in this anaerobic biotransformation. These results expand our understanding of microbial metabolism of steroids under strictly anoxic conditions.

摘要

目前关于厌氧生态系统中微生物类固醇代谢的生化机制的知识极其有限。硫酸盐、硝酸盐和铁[Fe(III)]是河口沉积物中厌氧菌常见的电子受体。在此,我们研究了从台湾淡水河河口采集的厌氧沉积物中睾酮的厌氧代谢。向厌氧沉积物样品中加入睾酮(1 mM)和包括硝酸盐、铁和硫酸盐在内的单个电子受体(10 mM)。雄激素代谢物分析表明,反硝化条件下睾酮的生物降解通过2,3-途径进行,而铁还原条件下睾酮的生物降解可能通过一条未确定的替代途径进行。宏基因组分析和基于PCR的功能分析表明,在与睾酮和硝酸盐一起培养的河口沉积物样品中, spp.是主要的睾酮降解菌。从反硝化沉积物样品中分离出一株睾酮降解β-变形菌sp.菌株GDN1。该菌株能耐受广泛的盐度(0-30 ppt)。尽管在硫酸盐还原条件下未发生睾酮生物降解,但我们在一些添加睾酮的沉积物样品中观察到睾酮厌氧生物转化为雌激素。这是前所未有的,因为已知雄激素向雌激素的生物转化仅在有氧条件下发生。我们的宏基因组分析表明, spp.可能在这种厌氧生物转化中起作用。这些结果扩展了我们对严格缺氧条件下类固醇微生物代谢的理解。

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