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126 related items for PubMed ID: 30362214

  • 1. Transcriptomic and proteomic insight into the mechanism of cyclooctasulfur- versus thiosulfate-oxidation by the chemolithoautotroph Sulfurimonas denitrificans.
    Götz F, Pjevac P, Markert S, McNichol J, Becher D, Schweder T, Mussmann M, Sievert SM.
    Environ Microbiol; 2019 Jan; 21(1):244-258. PubMed ID: 30362214
    [Abstract] [Full Text] [Related]

  • 2. Elemental sulfur reduction by a deep-sea hydrothermal vent Campylobacterium Sulfurimonas sp. NW10.
    Wang S, Jiang L, Hu Q, Liu X, Yang S, Shao Z.
    Environ Microbiol; 2021 Feb; 23(2):965-979. PubMed ID: 32974951
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  • 3. Comparison of sulfide-oxidizing Sulfurimonas strains reveals a new mode of thiosulfate formation in subsurface environments.
    Lahme S, Callbeck CM, Eland LE, Wipat A, Enning D, Head IM, Hubert CRJ.
    Environ Microbiol; 2020 May; 22(5):1784-1800. PubMed ID: 31840396
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  • 4. Two pathways for thiosulfate oxidation in the alphaproteobacterial chemolithotroph Paracoccus thiocyanatus SST.
    Rameez MJ, Pyne P, Mandal S, Chatterjee S, Alam M, Bhattacharya S, Mondal N, Sarkar J, Ghosh W.
    Microbiol Res; 2020 Jan; 230():126345. PubMed ID: 31585234
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  • 5. Thiosulfate-dependent chemolithoautotrophic growth of Bradyrhizobium japonicum.
    Masuda S, Eda S, Ikeda S, Mitsui H, Minamisawa K.
    Appl Environ Microbiol; 2010 Apr; 76(8):2402-9. PubMed ID: 20173070
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  • 6. Molecular mechanism of sulfur chemolithotrophy in the betaproteobacterium Pusillimonas ginsengisoli SBSA.
    Mandal S, Rameez MJ, Chatterjee S, Sarkar J, Pyne P, Bhattacharya S, Shaw R, Ghosh W.
    Microbiology (Reading); 2020 Apr; 166(4):386-397. PubMed ID: 31999239
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  • 10. Chemolithoautotrophic oxidation of thiosulfate and phylogenetic distribution of sulfur oxidation gene (soxB) in rhizobacteria isolated from crop plants.
    Anandham R, Indiragandhi P, Madhaiyan M, Ryu KY, Jee HJ, Sa TM.
    Res Microbiol; 2008 Apr; 159(9-10):579-89. PubMed ID: 18832027
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  • 14. Targeted metabolomics reveals proline as a major osmolyte in the chemolithoautotroph Sulfurimonas denitrificans.
    Götz F, Longnecker K, Kido Soule MC, Becker KW, McNichol J, Kujawinski EB, Sievert SM.
    Microbiologyopen; 2018 Aug; 7(4):e00586. PubMed ID: 29423975
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  • 15. Thiosulfate Oxidation and mixotrophic growth of Methylobacterium goesingense and Methylobacterium fujisawaense.
    Anandham R, Indiragandhi P, Madhaiyan M, Chung J, Ryu KY, Jee HJ, Sa T.
    J Microbiol Biotechnol; 2009 Jan; 19(1):17-22. PubMed ID: 19190404
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  • 16. Thiosulfate oxidation by Thiomicrospira thermophila: metabolic flexibility in response to ambient geochemistry.
    Houghton JL, Foustoukos DI, Flynn TM, Vetriani C, Bradley AS, Fike DA.
    Environ Microbiol; 2016 Sep; 18(9):3057-72. PubMed ID: 26914243
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  • 17. Molecular characterization of inorganic sulfur-compound metabolism in the deep-sea epsilonproteobacterium Sulfurovum sp. NBC37-1.
    Yamamoto M, Nakagawa S, Shimamura S, Takai K, Horikoshi K.
    Environ Microbiol; 2010 May; 12(5):1144-53. PubMed ID: 20132283
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  • 19. Oxidative metabolism of inorganic sulfur compounds by bacteria.
    Kelly DP, Shergill JK, Lu WP, Wood AP.
    Antonie Van Leeuwenhoek; 1997 Feb; 71(1-2):95-107. PubMed ID: 9049021
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  • 20. Transcriptome Analysis of Cyclooctasulfur Oxidation and Reduction by the Neutrophilic Chemolithoautotrophic Sulfurovum indicum from Deep-Sea Hydrothermal Ecosystems.
    Wang S, Jiang L, Cui L, Alain K, Xie S, Shao Z.
    Antioxidants (Basel); 2023 Mar 03; 12(3):. PubMed ID: 36978876
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