教員イメージ
HARUTA Shin
教授

春田 伸 ハルタ シン はるた しん

プロフィール

所属

東京都立大学理学部 生命科学科
理学研究科 生命科学専攻

最終学歴・学位

博士(薬学)

専門・研究分野

環境微生物学、微生物生態学、応用微生物学

研究

研究テーマ

未知微生物の探索
環境微生物の生理・生態
微生物生態系の形成および環境応答機構

研究キーワード

微生物生態系、微生物群集機能、種間相互作用、物質循環、環境保全

研究イメージ
研究紹介

詳細情報

春田伸「陸上温泉の微生物資源」大熊盛也監修「微生物資源の整備と利活用の戦略」エヌ・ティー・エス(2023)

春田伸「未発見微生物の探索」青柳秀紀監修「未培養微生物研究の最新動向」シーエムシー出版(2023)

Haruta, S., H. Kakuhama, S. Fukushima, and S. Morohoshi. Motility assay of Chloroflexus. In: Bacterial and Archaeal Motility (Springer Protocols, Methods in Molecular Biology). T. Minamino, M. Miyata, and K. Namba (eds.) Humana New York, NY (2023)

Kawai, S., M. Ishikawa, S. Hanada, and S. Haruta. Hydrogenophilus thiooxidans sp. nov., a moderately thermophilic chemotrophic bacterium unable to grow on hydrogen gas, isolated from hot spring microbial mats. International Journal of Systematic and Evolutionary Microbiology, 72:005355 (2022)

Muramatsu, S., S. Hirose, T. Iino, M. Ohkuma, S. Hanada, and S. Haruta. Neotabrizicola shimadae gen. nov., sp. nov., an aerobic anoxygenic phototrophic bacterium harbouring photosynthetic genes in the family Rhodobacteraceae, isolated from a terrestrial hot spring. Antonie van Leeuwenhoek (2022)

春田伸「セルロースを生産する温泉微生物 : 好熱性化学合成独立栄養細菌によるセルロース合成」化学と生物 59:543-548 (2021)

Martinez, J. N., A. Nishihara, and S. Haruta. Metagenome-assembled genome sequences recovered from epilithic river biofilm in the Tama River, Japan. Microbiology Resource Announcements, 10:e00664-21 (2021)

Chen, Y., A. Nishihara, and S. Haruta. Nitrogen-fixing ability and nitrogen fixation related genes of thermophilic fermentative bacteria in the genus Caldicellulosiruptor. Microbes and Environments 36:ME21018 (2021)

Kawai, S., J. N. Martinez, M. Lichtenberg, E. Trampe, M. Kühl, M. Tank, S. Haruta, A. Nishihara, S. Hanada, V. Thiel. In-situ metatranscriptomic analyses reveal the metabolic flexibility of the thermophilic anoxygenic photosynthetic bacterium Chloroflexus aggregans in a hot spring cyanobacteria-dominated microbial mat. Microorganisms (2021)

Izaki, K. and S. Haruta. Aerobic production of bacteriochlorophylls in the filamentous anoxygenic photosynthetic bacterium, Chloroflexus aurantiacus in the light. Microbes and Environments 35:ME20015 (2020)

Lee, J.-Y., S. Haruta, S. Kato, H. C. Bernstein, S. Lindemann, D.-Y. Lee, J. K. Fredrickson, H.-S. Song. Prediction of Neighbor-dependent Microbial Interactions from Limited Population Data. Frontiers in Microbiology 10:3049 (2020)

Haruta, S. Thermophilic photosynthesis-based microbial communities –energy production and conversion– Biotechnological applications of extremophilic microorganisms (Life in Extreme Environments) De Gruyter, Berlin (2020).

Kawai, S., N. Kamiya, K. Matsuura, and S. Haruta. Symbiotic growth of a thermophilic sulfide-oxidizing photoautotroph and an elemental sulfur-disproportionating chemolithoautotroph and cooperative dissimilatory oxidation of sulfide to sulfate. Frontiers in Microbiology 10:1150 (2019)

Song, H.-S., J.-Y.Lee, S.Haruta, W.C.Nelson, D.-Y.Lee, S.R.Lindemann, J.K.Fredrickson, H.C.Bernstein. Minimal Interspecies Interaction Adjustment (MIIA): inference of neighbor-dependent interactions in microbial communities. Frontiers in Microbiology 10:1264 (2019)

Haruta, S. and K. Yamamoto. Model microbial consortia as tools for understanding complex microbial communities. Current Genomics 19:723-733 (2018)

Nishihara, A., K. Matsuura, M. Tank, S. McGlynn, V. Thiel, and S. Haruta. Nitrogenase activity in thermophilic chemolithoautotrophic bacteria in the phylum Aquificae isolated under nitrogen-fixing conditions from Nakabusa Hot Springs. Microbes and Environments 33:394-401 (2018)

Nishihara, A., V. Thiel, K. Matsuura, S. McGlynn, S. Haruta. Phylogenetic diversity of nitrogenase reductase genes and possible nitrogen-fixing bacteria in thermophilic chemosynthetic microbial communities in Nakabusa Hot Springs. Microbes and Environments 33:357-365 (2018)

Kanno, N., K. Matsuura, and S. Haruta. Different metabolomic responses to carbon starvation between light and dark conditions in the purple photosynthetic bacterium, Rhodopseudomonas palustris. Microbes and Environments (2018)

Wasai, S., N. Kanno, K. Matsuura, and S. Haruta. Increase of salt tolerance in carbon-starved cells of Rhodopseudomonas palustris depending on photosynthesis or respiration. Microorganisms (2018)

Shimizu, T., K. Horiguchi, Y. Hatanaka, S. Masuda, K. Shimada, K. Matsuura, and S. Haruta. Nitrite-reducing ability is related to growth inhibition by nitrite in Rhodobacter sphaeroides f. sp. denitrificans. Bioscience, Biotechnology, and Biochemistry (2018)

Nishihara, A., S. Haruta, S. McGlynn, V. Thiel, and K. Matsuura. Nitrogen fixation in thermophilic chemosynthetic microbial communities depending on hydrogen, sulfate, and carbon dioxide. Microbes and Environments (2018)

Haruta, S., T. Iino, M. Ohkuma, K. Suzuki, and Y. Igarashi. Ca2+ in hybridization solutions for fluorescence in situ hybridization facilitate the detection of Enterobacteriaceae. Microbes and Environments 32:142-146 (2017)

Haruta, S., Y. Saito, and H. Futamata. Editorial: Development of microbial ecological theory: stability, plasticity and evolution of microbial ecosystems. Frontiers in Microbiology 7:2069 (2016)

Hirose, S., K. Matsuura, and S. Haruta. Phylogenetically diverse aerobic anoxygenic phototrophic bacteria isolated from epilithic biofilms in Tama River, Japan. Microbes and Environments 31:299-306 (2016)

Fukushima, S., S. Morohoshi, S. Hanada, K. Matsuura and S. Haruta. Gliding motility driven by individual cell-surface movements in a multicellular filamentous bacterium Chloroflexus aggregans. FEMS Microbiology Letters 363:fnw056 (2016)

Morohoshi, S., K. Matsuura and S. Haruta. Secreted protease mediates interspecies interaction and promotes cell aggregation of the photosynthetic bacterium Chloroflexus aggregans. FEMS Microbiology Letters 362:1-5 (2015)

Kanno, N., K. Matsuura and S. Haruta. Differences in survivability under starvation conditions among four species of purple nonsulfur phototrophic bacteria. Microbes and Environments 29:326-328 (2014)

Stolyar,S., Z. Liu, V. Thiel, L. P. Tomsho, N. Pinel, W. C. Nelson, S. R. Lindemann, M. F. Romine, S. Haruta, S. C. Schuster, D. A. Bryant, and Jim K. Fredrickson. Genome sequence of the thermophilic cyanobacterium Thermosynechococcus sp. strain NK55a. Genome announcements 2(1):e01060-13 (2014)

Haruta, S., T. Yoshida, Y. Aoi, K. Kaneko and H. Futamata. Challenges for complex microbial ecosystems: combination of experimental approaches with mathematical modeling. Microbes and Environments 28:244-250 (2013)

Iino, T., H. Tamaki, S. Tamazawa, Y. Ueno, M. Ohkuma, K. Suzuki, Y. Igarashi and S. Haruta. Candidatus Methanogranum caenicola: a Novel methanogen from the anaerobic digested sludge, and proposal of Methanomassiliicoccaceae fam. nov. and Methanomassiliicoccales ord. nov., for a methanogenic lineage of the class Thermoplasmata. Microbes and Environments 28:285-294 (2013)

Everroad, C.R., Otaki, H., Matsuura, K. and Haruta, S., Diversification of bacterial community composition along a temperature gradient at a thermal spring. Microbes Environ., 27:374-381 (2012)

Otaki, H., Everroad, C.R., Matsuura, K. and Haruta, S., Production and consumption of hydrogen in hot spring microbial mats dominated by a filamentous anoxygenic photosynthetic bacterium. Microbes Environ., 27:293-299 (2012)
2018 日本農芸化学会 農芸化学研究企画賞
2012 Microbes and Environments 論文賞
2008 環境バイオテクノロジー学会 奨励賞
日本微生物生態学会、日本農芸化学会、環境バイオテクノロジー学会、日本生物工学会、International Society for Microbial Ecology、American Society of Microbiology
  • 生物学概説IIB
  • 微生物学概論
  • 微生物学実験(環境微生物)
  • 微生物学各論
  • Special Lecture in Microbiology(微生物学特別講義)
  • General Microbiology(微生物学概論)
  • General Biology IIB(生物学概説 IIB)
  • Microbiology/微生物学各論
  • 分子生物学特論
  • 分子生物学特論
  • 生命科学特別演習Ⅱ(生物学英語)
  • 生命科学特別演習Ⅱ(生物学英語)
  • 生命科学特別演習Ⅱ(生物学英語)
  • 生命科学特別演習Ⅱ(生物学英語)
  • 企画経営演習1
  • 企画経営演習1
  • 企画経営演習2
  • 企画経営演習2
  • 生命科学セミナー1(環境微生物1)
  • 生命科学セミナー1(環境微生物1)
  • 生命科学セミナー2(環境微生物1)
  • 生命科学セミナー2(環境微生物1)
  • 生命科学セミナー1(環境微生物2)
  • 生命科学セミナー1(環境微生物2)
  • 生命科学セミナー2(環境微生物2)
  • 生命科学セミナー2(環境微生物2)
  • 生命科学実験1(環境微生物)
  • 生命科学実験1(環境微生物)
  • 生命科学実験2(環境微生物)
  • 生命科学実験2(環境微生物)
  • 生命科学特別講義
  • 生命科学特別講義
  • 細胞科学特別講義
  • 細胞科学特別講義
  • 組織再編前旧課程の同時開講科目等が含まれており、掲載されている全ての科目を開講するわけではありません。

関連HOT TOPICS

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連絡先

研究室

8号館434号室

内線番号

内線3741

メールアドレス

sharuta●tmu.ac.jp
(メールを送信される場合は●を@に変換してください)