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基因组分析揭示了富含 H₂ 的白蚁肠道中的密螺旋体所编码的多种[FeFe]氢化酶和氢气传感器。

Genomic analysis reveals multiple [FeFe] hydrogenases and hydrogen sensors encoded by treponemes from the H(2)-rich termite gut.

机构信息

Biochemistry & Molecular Biophysics, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Microb Ecol. 2012 Feb;63(2):282-94. doi: 10.1007/s00248-011-9922-8. Epub 2011 Aug 3.

DOI:10.1007/s00248-011-9922-8
PMID:21811792
Abstract

We have completed a bioinformatic analysis of the hydrogenases encoded in the genomes of three termite gut treponeme isolates: hydrogenotrophic, homoacetogenic Treponema primitia strains ZAS-1 and ZAS-2, and the hydrogen-producing, sugar-fermenting Treponema azotonutricium ZAS-9. H(2) is an important free intermediate in the breakdown of wood by termite gut microbial communities, reaching concentrations in some species exceeding those measured for any other biological system. The spirochetes encoded 4, 8, and 5 [FeFe] hydrogenase-like proteins, identified by their H domains, respectively, but no other recognizable hydrogenases. The [FeFe] hydrogenases represented many sequence families previously proposed in an analysis of termite gut metagenomic data. Each strain encoded both putative [FeFe] hydrogenase enzymes and evolutionarily related hydrogen sensor/transducer proteins likely involved in phosphorelay or methylation pathways, and possibly even chemotaxis. A new family of [FeFe] hydrogenases (FDH-Linked) is proposed that may form a multimeric complex with formate dehydrogenase to provide reducing equivalents for reductive acetogenesis in T. primitia. The many and diverse [FeFe] hydrogenase-like proteins encoded within the sequenced genomes of the termite gut treponemes has enabled the discovery of a putative new class of [FeFe] hydrogenase proteins potentially involved in acetogenesis and furthered present understanding of many families, including sensory, of H domain proteins beyond what was possible through the use of fragmentary termite gut metagenome sequence data alone, from which they were initially defined.

摘要

我们已经完成了对三种白蚁肠道螺旋体分离株中编码的氢化酶的生物信息学分析

产氢、同型乙酰化螺旋体 ZAS-1 和 ZAS-2,以及产氢、发酵糖螺旋体 ZAS-9。H2 是白蚁肠道微生物群落分解木材的重要游离中间体,在某些物种中的浓度超过了任何其他生物系统的测量值。螺旋体编码了 4、8 和 5 种 [FeFe]氢化酶样蛋白,分别由它们的 H 结构域识别,但没有其他可识别的氢化酶。[FeFe]氢化酶代表了先前在白蚁肠道宏基因组数据分析中提出的许多序列家族。每种菌株都编码了两种假定的 [FeFe]氢化酶酶和进化上相关的氢传感器/转导蛋白,这些蛋白可能参与磷酸接力或甲基化途径,甚至可能参与趋化作用。提出了一种新的 [FeFe]氢化酶家族(FDH-Linked),它可能与甲酸脱氢酶形成多聚体复合物,为 T. primitia 中的还原性乙酰化作用提供还原当量。在白蚁肠道螺旋体的测序基因组中编码的许多和多样化的 [FeFe]氢化酶样蛋白,使人们发现了一种新的假定的 [FeFe]氢化酶蛋白类,它们可能参与乙酰化作用,并进一步了解了许多家族,包括 H 结构域蛋白的感觉家族,这超出了仅使用片段化的白蚁肠道宏基因组序列数据所能实现的范围,最初就是从这些数据中定义了这些家族。

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