Ming-Jen Chuang scite author profile

The halophilic methanoarchaeon Methanohalophilus portucalensis can synthesize de novo and accumulate β-glutamine, N ɛ-acetyl-β-lysine, and glycine betaine (betaine) as compatible solutes (osmolytes) when grown at elevated salt concentrations. Both in vivo and in vitro betaine formation assays in this study confirmed previous nuclear magnetic resonance 13C-labelling studies showing that the de novo synthesis of betaine proceeded from glycine, sarcosine, and dimethylglycine to form betaine through threefold methylation. Exogenous sarcosine (1 mM) effectively suppressed the intracellular accumulation of betaine, and a higher level of sarcosine accumulation was accompanied by a lower level of betaine synthesis. Exogenous dimethylglycine has an effect similar to that of betaine addition, which increased the intracellular pool of betaine and suppressed the levels of N ɛ-acetyl-β-lysine and β-glutamine. Both in vivo and in vitro betaine formation assays with glycine as the substrate showed only sarcosine and betaine, but no dimethylglycine. Dimethylglycine was detected only when it was added as a substrate in in vitro assays. A high level of potassium (400 mM and above) was necessary for betaine formation in vitro. Interestingly, no methylamines were detected without the addition of KCl. Also, high levels of NaCl and LiCl (800 mM) favored sarcosine accumulation, while a lower level (400 mM) favored betaine synthesis. The above observations indicate that a high sarcosine level suppressed multiple methylation while dimethylglycine was rapidly converted to betaine. Also, high levels of potassium led to greater amounts of betaine, while lower levels of potassium led to greater amounts of sarcosine. This finding suggests that the intracellular levels of both sarcosine and potassium are associated with the regulation of betaine synthesis inM. portucalensis.

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Methanocalculus taiwanensis sp. nov., isolated from an estuarine environment.

Lai¹,

Chen²,

Shu³

et al. 2002

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Two novel hydrogenotrophic methanogens, designated strains P2F9704aT and P2F9705, were isolated from an estuary in Eriln Shi, Taiwan. The cells of strain P2F9704aT were non-motile, irregular cocci 0.9-1.4 microm in diameter. They stained gram-negative. The cells catabolized formate and H2+CO2 to produce methane, but did not utilize acetate, methanol, trimethylamine, ethanol or secondary alcohols as methanogenic substrates. The optimal growth parameters for strain P2F9704aT were pH 6.7, 37 degrees C and 0.5% NaCl. Acetate was required for cell growth even though it was not a substrate for methanogenesis. The trace element tungsten was not required but slightly stimulated the growth of strain P2F9704aT. However, tungsten extended the growth ranges relating to temperature, pH and salt. The sequences of the 16S rRNA genes of strains P2F9704aT and P2F9705 were nearly identical and possessed 99.1 and 98.5% similarity to the genes of Methanocalculus pumilus and Methanocalculus halotolerans, respectively. In addition, strain P2F9704aT possessed 14 and 12% DNA relatedness with respect to Methanocalculus pumilus and Methanocalculus halotolerans, respectively. In addition, the optimal salt concentrations, the cellular protein profiles and the molecular masses of surface-layer protein subunits of strain P2F9704aT were different from those of the other two known Methanocalculus species. On the basis of these observations, it is proposed that these two organisms should be placed in a new species, namely Methanocalculus taiwanensis. The type strain is P2F9704aT (= OCM 671T = CCRC 16182T = DSM 14663T).

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Effects of substrate and potassium on the betaine-synthesizing enzyme glycine sarcosine dimethylglycine N-methyltransferase from a halophilic methanoarchaeon Methanohalophilus portucalensis

Lai

Chuang

et al. 2006

Research in Microbiology

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Characterization of Methanosarcina mazei N2M9705 Isolated from an Aquaculture Fishpond

Lai

Shu

Chiou

et al. 1999

Current Microbiology

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Ming-Jen Chuang

Regulatory Factors Associated with Synthesis of the Osmolyte Glycine Betaine in the Halophilic Methanoarchaeon Methanohalophilus portucalensis

Methanocalculus taiwanensis sp. nov., isolated from an estuarine environment.

Effects of substrate and potassium on the betaine-synthesizing enzyme glycine sarcosine dimethylglycine N-methyltransferase from a halophilic methanoarchaeon Methanohalophilus portucalensis

Characterization of Methanosarcina mazei N2M9705 Isolated from an Aquaculture Fishpond

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