The Draft Genome of the Non-Host-Associated Methanobrevibacter arboriphilus Strain DH1 Encodes a Large Repertoire of Adhesin-Like Proteins.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2017-05-28 eCollection Date: 2017-01-01 DOI:10.1155/2017/4097425
Anja Poehlein, Rolf Daniel, Henning Seedorf
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Abstract

Methanobrevibacter arboriphilus strain DH1 is an autotrophic methanogen that was isolated from the wetwood of methane-emitting trees. This species has been of considerable interest for its unusual oxygen tolerance and has been studied as a model organism for more than four decades. Strain DH1 is closely related to other host-associated Methanobrevibacter species from intestinal tracts of animals and the rumen, making this strain an interesting candidate for comparative analysis to identify factors important for colonizing intestinal environments. Here, the genome sequence of M. arboriphilus strain DH1 is reported. The draft genome is composed of 2.445.031 bp with an average GC content of 25.44% and predicted to harbour 1964 protein-encoding genes. Among the predicted genes, there are also more than 50 putative genes for the so-called adhesin-like proteins (ALPs). The presence of ALP-encoding genes in the genome of this non-host-associated methanogen strongly suggests that target surfaces for ALPs other than host tissues also need to be considered as potential interaction partners. The high abundance of ALPs may also indicate that these types of proteins are more characteristic for specific phylogenetic groups of methanogens rather than being indicative for a particular environment the methanogens thrives in.

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非寄主相关甲烷杆菌 DH1 菌株的基因组草案编码了大量类似粘合素的蛋白质。
树木甲烷杆菌菌株 DH1 是一种自养型甲烷菌,从排放甲烷的树木湿材中分离出来。该菌株因其非同寻常的耐氧性而备受关注,四十多年来一直被作为模式生物进行研究。菌株 DH1 与来自动物肠道和瘤胃的其他与宿主相关的甲烷杆菌密切相关,因此该菌株成为比较分析的一个有趣候选菌株,以确定在肠道环境中定植的重要因素。本文报告了 arboriphilus 杆菌菌株 DH1 的基因组序列。该基因组草案由 2.445.031 bp 组成,平均 GC 含量为 25.44%,预计含有 1964 个编码蛋白质的基因。在这些预测基因中,还有 50 多个所谓的类粘附蛋白(ALPs)的推测基因。这种非宿主相关甲烷菌基因组中存在 ALP 编码基因,这有力地表明,除了宿主组织之外,ALPs 的目标表面也需要被视为潜在的相互作用伙伴。ALPs 的高丰度也可能表明,这些类型的蛋白质更具有甲烷菌特定系统发育群的特征,而不是甲烷菌生长的特定环境的标志。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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