广泛分布的深海古菌利用木质素衍生的芳烃编码一种新的甲基转移酶

IF 4.5 Q1 MICROBIOLOGY
mLife Pub Date : 2023-09-01 DOI:10.1002/mlf2.12082
Tiantian Yu, Haining Hu, Xianhong Zeng, Yinzhao Wang, Donald Pan, Longhui Deng, Lewen Liang, Jialin Hou, Fengping Wang
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引用次数: 0

摘要

摘要木质素降解是陆地和海洋生态系统中全球碳循环的一个重要过程。深海菌是海洋沉积物中最丰富的微生物之一,已被提出介导厌氧木质素降解。然而,深海古菌木质素降解的机制尚不清楚。在此,我们报道了一种深海古细菌的富集培养,命名为Candidatus Baizosediminiarchaeum ligniniphilus DL1YTT001 (Ca。B. ligniniphilus),来自沿海沉积物,在中温缺氧条件下以木质素为唯一有机碳源生长。Ca。B. ligniniphilus具有并高度表达新的甲基转移酶1 (MT1, mtgB),用于将木质素单体的甲氧基转移到cob(I)alamin上。MtgBs与已知的微生物甲基转移酶没有同源性,仅存在于深海古细菌谱系中。mtgB基因的异源表达证实了O -去甲基化活性。mtgB基因在广泛的沿海沉积物宏基因组数据集中被鉴定出来,并且在东海沿海沉积物中高度表达。这些发现表明,深海古菌能够通过其新颖和特异性的甲基转移酶进行O -去甲基化,在沿海沉积物中普遍存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Widespread Bathyarchaeia encode a novel methyltransferase utilizing lignin‐derived aromatics
Abstract Lignin degradation is a major process in the global carbon cycle across both terrestrial and marine ecosystems. Bathyarchaeia , which are among the most abundant microorganisms in marine sediment, have been proposed to mediate anaerobic lignin degradation. However, the mechanism of bathyarchaeial lignin degradation remains unclear. Here, we report an enrichment culture of Bathyarchaeia , named Candidatus Baizosediminiarchaeum ligniniphilus DL1YTT001 ( Ca . B. ligniniphilus), from coastal sediments that can grow with lignin as the sole organic carbon source under mesophilic anoxic conditions. Ca . B. ligniniphilus possesses and highly expresses novel methyltransferase 1 (MT1, mtgB ) for transferring methoxyl groups from lignin monomers to cob(I)alamin. MtgBs have no homology with known microbial methyltransferases and are present only in bathyarchaeial lineages. Heterologous expression of the mtgB gene confirmed O ‐demethylation activity. The mtgB genes were identified in metagenomic data sets from a wide range of coastal sediments, and they were highly expressed in coastal sediments from the East China Sea. These findings suggest that Bathyarchaeia , capable of O ‐demethylation via their novel and specific methyltransferases, are ubiquitous in coastal sediments.
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CiteScore
2.30
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