A modified Gompertz model and its MATLAB implementation for microbial growth performance assessment. [PDF]
Murphy L, He QP, Wang J.
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Simultaneous co-cultivation of the thermoacidophilic methanotroph, <i>Methylacidiphilum</i> sp. RTK17.1, and the microalga, <i>Galdieria</i> sp. RTK37.1, for single cell protein production. [PDF]
Cartin-Caballero C +5 more
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Harnessing the potential of microbial methane utilization for chasing sustainability. [PDF]
Kalyuzhnaya MG, Wang J, Rosenzweig AC.
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Diverse bacteriohemerythrin genes of <i>Methylomonas denitrificans</i> FJG1 provide insight into the survival and activity of methanotrophs in low oxygen ecosystems. [PDF]
Weiblen C +4 more
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Methanotroph (<i>Methylococcus capsulatus</i>) bacteria meal, influences the intestinal microbiome, and improves intestinal barrier function and immunity in hybrid grouper (<i>Epinephelus fuscointestinetatus</i> ♀ × <i>E. lanceolatus</i> ♂). [PDF]
Zhang J +9 more
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The gut methanotroph Methylocystis intestini modulates intestinal peristalsis and fat metabolism via reducing methane levels. [PDF]
Zhao Y +4 more
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In methanotrophic bacteria, methane is oxidized to methanol by the enzyme methane monooxygenase (MMO), The soluble MMO enzyme complex from Methylocystis sp.
core
Diversity and community assembly mechanisms of soil methanotrophs in typical ecotypes of the Mitika alpine wetland in northern Xizang. [PDF]
Cao P +6 more
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Metabolic biochemical models of N<sub>2</sub> fixation for sulfide oxidizers, methanogens, and methanotrophs. [PDF]
Gao M +11 more
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Carbon isotope effects in cometabolic oxidation of halogenated organics by a methanotroph. [PDF]
Rauniyar P +3 more
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