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Cono VL, Arcadi E, Spada GL, et al. A Three-Component Microbial Consortium from Deep-Sea Salt-Saturated Anoxic Lake Thetis Links Anaerobic Glycine Betaine Degradation with Methanogenesis. Microorganisms. 2015;3(3):500-17doi: 10.3390/microorganisms3030500.
Cono, V. L., Arcadi, E., Spada, G. L., Barreca, D., Laganà, G., Bellocco, E., Catalfamo, M., Smedile, F., Messina, E., Giuliano, L., & Yakimov, M. M. (2015). A Three-Component Microbial Consortium from Deep-Sea Salt-Saturated Anoxic Lake Thetis Links Anaerobic Glycine Betaine Degradation with Methanogenesis. Microorganisms, 3(3), 500-17. https://doi.org/10.3390/microorganisms3030500
Cono, Violetta La, et al. "A Three-Component Microbial Consortium from Deep-Sea Salt-Saturated Anoxic Lake Thetis Links Anaerobic Glycine Betaine Degradation with Methanogenesis." Microorganisms vol. 3,3 (2015): 500-17. doi: https://doi.org/10.3390/microorganisms3030500
Cono VL, Arcadi E, Spada GL, Barreca D, Laganà G, Bellocco E, Catalfamo M, Smedile F, Messina E, Giuliano L, Yakimov MM. A Three-Component Microbial Consortium from Deep-Sea Salt-Saturated Anoxic Lake Thetis Links Anaerobic Glycine Betaine Degradation with Methanogenesis. Microorganisms. 2015 Sep 09;3(3):500-17. doi: 10.3390/microorganisms3030500. PMID: 27682102; PMCID: PMC5023251.
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