Crystallization and preliminary X‐ray study of recombinant betaine–homocysteine  S ‐methyltransferase from rat liver | Zendy

González Beatriz | Zendy; Pajares María A. | Zendy; Too HengPhon | Zendy; Garrido Francisco | Zendy; Blundell T. L. | Zendy; SanzAparicio Julia | Zendy

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Crystallization and preliminary X‐ray study of recombinant betaine–homocysteine S ‐methyltransferase from rat liver

Author(s) -

González Beatriz,

Pajares María A.,

Too HengPhon,

Garrido Francisco,

Blundell T. L.,

SanzAparicio Julia

Publication year - 2002

Publication title -

acta crystallographica section d

Language(s) - English

Resource type - Journals

ISSN - 1399-0047

DOI - 10.1107/s0907444902011885

Subject(s) - betaine , homocysteine , methionine , crystallization , methyltransferase , recombinant dna , chemistry , methionine synthase , methylation , enzyme , crystallography , biochemistry , dna , amino acid , gene , organic chemistry

Betaine–homocysteine S ‐methyltransferase is one of the three enzymes involved in homocysteine catabolism. It uses betaine as the methyl donor to convert homocysteine into methionine, also producing dimethylglycine. Recombinant BHMT from rat liver was crystallized by the vapour‐diffusion method in both native and seleniomethionyl‐labelled forms. Crystals belong to space group P 2 1 , with unit‐cell parameters a = 57.8, b = 149.3, c = 96.2 Å, β = 92.9°. Data from native, seleniomethionine‐labelled and two heavy‐atom derivatives were collected using synchrotron sources. Self‐rotation function and sedimentation‐velocity experiments suggest that the enzyme is tetrameric with 222 symmetry.

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