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Methionine synthase : ウィキペディア英語版 | Methionine synthase
Methionine synthase also known as MS, MeSe, MetH is responsible for the regeneration of methionine from homocysteine. In humans it is encoded by the ''MTR'' gene (5-methyltetrahydrofolate-homocysteine methyltransferase). Methionine synthase forms part of the S-adenosylmethionine (SAMe) biosynthesis and regeneration cycle. In animals this enzyme requires Vitamin B12 (cobalamin) as a cofactor, whereas the form found in plants is cobalamin-independent. Microorganisms express both cobalamin-dependent and cobalamin-independent forms.〔 == Mechanism ==
Methionine synthase catalyzes the final step in the regeneration of methionine(Met) from homocysteine(Hcy). The overall reaction transforms 5-methyltetrahydrofolate(N5-MeTHF) into tetrahydrofolate (THF) while transferring a methyl group to Hcy to form Met. Methionine synthase is the only mammalian enzyme that metabolizes N5-MeTHF to regenerate the active cofactor THF. In cobalamin-dependent forms of the enzyme, the reaction proceeds by two steps in a ping-pong reaction. The enzyme is initially primed into a reactive state by the transfer of a methyl group from N5-MeTHF to Co(I) in enzyme-bound cobalamin(Cob), forming methyl-cobalamin(Me-Cob) that now contains Me-Co(III) and activating the enzyme. Then, a Hcy that has coordinated to an enzyme-bound zinc to form a reactive thiolate reacts with the Me-Cob. The activated methyl group is transferred from Me-Cob to the Hcy thiolate, which regenerates Co(I) in cob, and Met is released from the enzyme. The cob-independent mechanism follows the same general pathway but with a direct reaction between the zinc thiolate and N5-MeTHF. The mechanism of the enzyme depends on the constant regeneration of Co(I) in cob, but this is not always guaranteed. Instead, every 1-2000 catalytic turnovers, the Co(I) may be oxidized into Co(II), which would permanently shut down catalytic activity. A separate protein, Methionine Synthase Reductase, catalyzes the regeneration of Co(I) and the restoration of enzymatic activity. Because the oxidation of cob-Co(I) inevitably shuts down cob-dependent methionine synthase activity, defects or deficiencies in methionine synthase reductase have been implicated in some of the disease associations for methionine synthase deficiency discussed below. The two enzymes form a scavenger network seen on the lower left.〔 〕
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