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Journal Abstract Search

388 related items for PubMed ID: 27170363

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  • 3. Biogeographical distribution and diversity of microbes in methane hydrate-bearing deep marine sediments on the Pacific Ocean Margin.
    Inagaki F, Nunoura T, Nakagawa S, Teske A, Lever M, Lauer A, Suzuki M, Takai K, Delwiche M, Colwell FS, Nealson KH, Horikoshi K, D'Hondt S, Jørgensen BB.
    Proc Natl Acad Sci U S A; 2006 Feb 21; 103(8):2815-20. PubMed ID: 16477011
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  • 4. Prokaryotic community composition and biogeochemical processes in deep subseafloor sediments from the Peru Margin.
    Webster G, Parkes RJ, Cragg BA, Newberry CJ, Weightman AJ, Fry JC.
    FEMS Microbiol Ecol; 2006 Oct 21; 58(1):65-85. PubMed ID: 16958909
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  • 5. Cultivation and biogeochemical analyses reveal insights into methanogenesis in deep subseafloor sediment at a biogenic gas hydrate site.
    Katayama T, Yoshioka H, Kaneko M, Amo M, Fujii T, Takahashi HA, Yoshida S, Sakata S.
    ISME J; 2022 May 21; 16(5):1464-1472. PubMed ID: 35105960
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  • 6. Diversity of prokaryotes and methanogenesis in deep subsurface sediments from the Nankai Trough, Ocean Drilling Program Leg 190.
    Newberry CJ, Webster G, Cragg BA, Parkes RJ, Weightman AJ, Fry JC.
    Environ Microbiol; 2004 Mar 21; 6(3):274-87. PubMed ID: 14871211
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  • 7. Diversity and distribution of methanotrophic archaea at cold seeps.
    Knittel K, Lösekann T, Boetius A, Kort R, Amann R.
    Appl Environ Microbiol; 2005 Jan 21; 71(1):467-79. PubMed ID: 15640223
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  • 8. Activities and distribution of methanogenic and methane-oxidizing microbes in marine sediments from the Cascadia Margin.
    Yoshioka H, Maruyama A, Nakamura T, Higashi Y, Fuse H, Sakata S, Bartlett DH.
    Geobiology; 2010 Jun 01; 8(3):223-33. PubMed ID: 20059557
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  • 10. Bacteria and Archaea physically associated with Gulf of Mexico gas hydrates.
    Lanoil BD, Sassen R, La Duc MT, Sweet ST, Nealson KH.
    Appl Environ Microbiol; 2001 Nov 01; 67(11):5143-53. PubMed ID: 11679338
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  • 12. Characterization of C1-metabolizing prokaryotic communities in methane seep habitats at the Kuroshima Knoll, southern Ryukyu Arc, by analyzing pmoA, mmoX, mxaF, mcrA, and 16S rRNA genes.
    Inagaki F, Tsunogai U, Suzuki M, Kosaka A, Machiyama H, Takai K, Nunoura T, Nealson KH, Horikoshi K.
    Appl Environ Microbiol; 2004 Dec 01; 70(12):7445-55. PubMed ID: 15574947
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  • 13. Archaeal community diversity and abundance changes along a natural salinity gradient in estuarine sediments.
    Webster G, O'Sullivan LA, Meng Y, Williams AS, Sass AM, Watkins AJ, Parkes RJ, Weightman AJ.
    FEMS Microbiol Ecol; 2015 Feb 01; 91(2):1-18. PubMed ID: 25764553
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  • 14. Anaerobic oxidation of methane at different temperature regimes in Guaymas Basin hydrothermal sediments.
    Biddle JF, Cardman Z, Mendlovitz H, Albert DB, Lloyd KG, Boetius A, Teske A.
    ISME J; 2012 May 01; 6(5):1018-31. PubMed ID: 22094346
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  • 15. Bacterial dominance in subseafloor sediments characterized by methane hydrates.
    Briggs BR, Inagaki F, Morono Y, Futagami T, Huguet C, Rosell-Mele A, Lorenson TD, Colwell FS.
    FEMS Microbiol Ecol; 2012 Jul 01; 81(1):88-98. PubMed ID: 22273405
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  • 17. Microbial communities from methane hydrate-bearing deep marine sediments in a forearc basin.
    Reed DW, Fujita Y, Delwiche ME, Blackwelder DB, Sheridan PP, Uchida T, Colwell FS.
    Appl Environ Microbiol; 2002 Aug 01; 68(8):3759-70. PubMed ID: 12147470
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  • 20. Metagenomic analysis reveals the contribution of anaerobic methanotroph-1b in the oxidation of methane at the Ulleung Basin, East Sea of Korea.
    Lee JW, Kwon KK, Bahk JJ, Lee DH, Lee HS, Kang SG, Lee JH.
    J Microbiol; 2016 Dec 01; 54(12):814-822. PubMed ID: 27888460
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