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論文

Hydrogen-based metabolism as an ancestral trait in lineages sibling to the Cyanobacteria

Carnevali, P. B. M.*; Schulz, F.*; Castelle, C. J.*; Kantor, R. S.*; Shih, P. M.*; Sharon, I.*; Santini, J.*; Olm, M. R.*; 天野 由記; Thomas, B. C.*; et al.

Nature Communications (Internet), 10, p.463_1 - 463_15, 2019/01

 被引用回数:1 パーセンタイル:17.48(Multidisciplinary Sciences)

The metabolic platform in which microbial aerobic respiration evolved is tightly linked to the origins of Cyanobacteria (Oxyphotobacteria). Melainabacteria and Sericytochromatia, close phylogenetic neighbores to Oxyphotobacteria comprise both fermentative and aerobic representatives, or clades that are capablee of both. Here, we predict the metabolisms of Margulisbacteria from two distinct environments and Saganbacteria, and compare them to genomes of organisms from the related lineages. Melainabacteria BJ4A obtained from Mizunami site are potentially able to use O$$_{2}$$ and other terminal electron acceptors. The type C heme-copper oxygen reductase found in Melainabacteria BJ4A may be adapted to low O$$_{2}$$ levels, as expected for microaerophilic or anoxic environments such as the subsurface. Notably, Melainabacteria BJ4A seems to have a branched electron transport chain, with one branch leading to a cytochrome d ubiquinol oxidoreductase and the other one leading to the type C heme-copper oxygen reductase. Both these enzymes have high affinity for O$$_{2}$$, thus are adapted to low O$$_{2}$$ levels. These contemporary lineages have representatives with fermentative H$$_{2}$$-based metabolism, lineages capable of aerobic or anaerobic respiration, and lineages with both. Our findings support the idea that the ancestor of these lineages was an anaerobe in which fermentation and H$$_{2}$$ metabolism were central metabolic features.

論文

Potential for microbial H$$_{2}$$ and metal transformations associated with novel bacteria and archaea in deep terrestrial subsurface sediments

Hernsdorf, A. W.*; 天野 由記; 宮川 和也; 伊勢 孝太郎; 鈴木 庸平*; Anantharaman, K.*; Probst, A. J.*; Burstein, D.*; Thomas, B. C.*; Banfield, J. F.*

ISME Journal, 11, p.1915 - 1929, 2017/03

AA2016-0002.pdf:2.21MB

 被引用回数:20 パーセンタイル:2.68(Ecology)

地層処分システムにおける微生物影響の可能性を評価するために、北海道の幌延深地層研究センター地下施設を利用して、堆積岩地下の生態系における微生物群集構造と代謝機能について調査を行った。全体として、微生物生態系は多様な系統群からなる微生物種で構成されており、その多くはこれまで培養されていない生物門に属していることが示された。大部分の微生物種は、酸化型[NiFe]ヒドロゲナーゼあるいはフェレドキシンをベースとする代謝経路を可能にする電子分岐型[FeFe]ヒドロゲナーゼを介して水素代謝をおこなうことが明らかになった。水素代謝と関連して、多くの微生物が炭素,窒素,鉄および硫黄を代謝することが推定された。特に、ANME-2dというメタン酸化を行う古細菌として知られている未培養微生物が、鉄関連の代謝反応を行う可能性が示唆された。得られた結果から、幌延堆積岩環境における微生物群集の生態学的概念モデルを推定した。

論文

A New view of the tree of life

Hug, L. A.*; Baker, B. J.*; Anantharaman, K.*; Brown, C. T.*; Probst, A. J.*; Castelle, C. J.*; Butterfield, C. N.*; Hernsdorf, A. W.*; 天野 由記; 伊勢 孝太郎; et al.

Nature Microbiology (Internet), 1(5), p.16048_1 - 16048_6, 2016/05

 被引用回数:387 パーセンタイル:0.02(Microbiology)

生命の系統樹は生物学において最も重要な中心テーマの一つである。遺伝子調査によると、莫大な数のブランチの存在が示唆されているが、フルスケールに近い系統樹でさえわかりにくいのが現状である。本研究では、これまでに報告されてきた配列情報に加えて、新たに取得した未培養生物のゲノム情報を用いて、バクテリア,アーキア,真核生物を含む系統樹を更新した。系統樹の描写は、全体的な概容とそれぞれの主要な系統における多様性のスナップショットの両方について行った。その結果、バクテリアの多様化の優勢性が示され、培養されていない生物種の重要性とともに主要な放射構造においてそれらの生物種の重要な進化が集中している現象が強調された。

口頭

Sulfur and hydrogen metabolism linked to CO$$_{2}$$ fixation by abundant Nitrospirae in the deep subsurface

天野 由記; Anantharaman, K.*; Tomas, B. C.*; Olm, M.*; Burstein, D.*; Castelle, C. J.*; 別部 光里*; 宮川 和也; 岩月 輝希; 鈴木 庸平*; et al.

no journal, , 

The bacterial phylum Nitrospirae is phylogenetically diverse. There are relatively few isolated representatives available for laboratory study and the physiology, functions and distributions of these bacteria across environments remain largely unknown. To understand the ecological role of Nitrospirae in the deep subsurface, we analyzed metagenomically-derived near complete genomes from groundwaters associated with granite and sedimentary rock where Nitrospirae are very abundant. The bacteria are autotrophs that fix CO$$_{2}$$ via the Wood-Ljungdahl pathway and reductive TCA cycles. The genomes encode versatile energy-generating pathways that involve sulfate reduction, hydrogen oxidation and nitrite reduction. Phylogenetic analyses indicate that the organisms are most similar to the isolated magnetotactic bacterium, Candidatus Magnetobacterium bavaricum, with only 89-91% 16S rRNA gene sequence identity. These Nitrospirae bacteria appear to play critical ecosystem roles as primary producers and they are likely central to sulfur cycling in the deep subsurface.

口頭

Vast metabolic and phylogenetic diversity shared across deep subsurface environments

天野 由記; Diamond, S.*; Lavy, A.*; Anantharaman, K.*; 宮川 和也; 岩月 輝希; 別部 光里*; 鈴木 庸平*; Thomas, B. C.*; Banfield, J. F.*

no journal, , 

We investigated the microbiology two Japanese subsurface research sites and compared the major groups of organisms lacking cultivated representatives found from other subsurface sites, including a Colorado aquifer and deep aquifers underlying the Crystal Geyser. We analyzed metagenomic data 19 samples from the Horonobe site and 7 from the Mizunami site. DNA sequences from each sample were assembled independently and scaffolds encoding the ribosomal protein S3 sequence were identified. The major characteristic of the microbiology of the Mizumani site that distinguished it from the Horonobe site is local very high abundances of Nitrospirae, Parcubacteria, Ignavibacteria, ANME-2D and Micrarchaeota. In contrast, the Horonobe site has locations that are highly enriched in Altarchiales, Syntrophobacteriales, Atribacteria, ANME-2D and Methanogens. Beyond reshaping the Tree of Life, the societal importance of these discoveries remains little known. However, given the huge inventory of new groups of proteins and pathways in the genomes of these organisms, it is reasonable to anticipate major discoveries will hold relevance, for example, in terms of pharmaceutical discovery. Given the importance of the subsurface as a potential host environment for storage of nuclear waste, finding some commonality would indicate the general relevance of information from one site for prediction of the characteristics of other sites.

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