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Journal Abstract Search

117 related items for PubMed ID: 4543759

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  • 2. Assimilation and toxicity of some exogenous C1 compounds, alcohols, sugars and acetate in the methane-oxidizing bacterium Methylococcus capsulatus.
    Eccleston M, Kelly DP.
    J Gen Microbiol; 1973 Mar; 75(1):211-21. PubMed ID: 4722562
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  • 4. Physiological studies of methane and methanol-oxidizing bacteria: oxidation of C-1 compounds by Methylococcus capsulatus.
    Patel RN, Hoare DS.
    J Bacteriol; 1971 Jul; 107(1):187-92. PubMed ID: 5563868
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  • 6. Revisiting the glyoxylate cycle: alternate pathways for microbial acetate assimilation.
    Ensign SA.
    Mol Microbiol; 2006 Jul; 61(2):274-6. PubMed ID: 16856935
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  • 10. Autotrophy: concepts of lithotrophic bacteria and their organic metabolism.
    Kelly DP.
    Annu Rev Microbiol; 1971 Jul; 25():177-210. PubMed ID: 4342704
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  • 13. Modularity of methylotrophy, revisited.
    Chistoserdova L.
    Environ Microbiol; 2011 Oct; 13(10):2603-22. PubMed ID: 21443740
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  • 14. Formaldehyde and formyl group intermediates of the oxidation of glyoxylate by living yeast and E. coli cells.
    BOLCATO V.
    Experientia; 1959 Jun 15; 15(6):222. PubMed ID: 13672180
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  • 15. Microbial utilization of methanol.
    Cooney CL, Levine DW.
    Adv Appl Microbiol; 1972 Jun 15; 15():337-65. PubMed ID: 4593294
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  • 16. Single-carbon chemistry of acetogenic and methanogenic bacteria.
    Zeikus JG, Kerby R, Krzycki JA.
    Science; 1985 Mar 08; 227(4691):1167-73. PubMed ID: 3919443
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  • 17. [Study of the inhibitory effect of acetylene on the biological methane formation in a paddy soil (author's transl)].
    Raimbault M.
    Ann Microbiol (Paris); 1975 Mar 08; 126(2):247-58. PubMed ID: 1155881
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  • 19. Interrelations between sulfate-reducing and methane-producing bacteria in bottom deposits of a fresh-water lake. I. Field observations.
    Cappenberg TE.
    Antonie Van Leeuwenhoek; 1974 Mar 08; 40(2):285-95. PubMed ID: 4599093
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