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PDBsum entry 2zwa
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References listed in PDB file
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Key reference
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Title
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Structural basis of tRNA modification with co2 fixation and methylation by wybutosine synthesizing enzyme tyw4.
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Authors
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Y.Suzuki,
A.Noma,
T.Suzuki,
R.Ishitani,
O.Nureki.
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Ref.
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Nucleic Acids Res, 2009,
37,
2910-2925.
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PubMed id
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Abstract
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Wybutosine (yW), one of the most complicated modified nucleosides, is found in
the anticodon loop of eukaryotic phenylalanine tRNA. This hypermodified
nucleoside ensures correct codon recognition by stabilizing codon-anticodon
pairings during the decoding process in the ribosome. TYW4 is an
S-adenosylmethionine (SAM)-dependent enzyme that catalyzes the final step of yW
biosynthesis, methylation and methoxycarbonylation. However, the structural
basis for the catalytic mechanism by TYW4, and especially that for the
methoxycarbonylation, have remained elusive. Here we report the apo and
cofactor-bound crystal structures of yeast TYW4. The structures revealed that
the C-terminal domain folds into a beta-propeller structure, forming part of the
binding pocket for the target nucleoside. A comparison of the apo, SAM-bound,
and S-adenosylhomocysteine-bound structures of TYW4 revealed a drastic
structural change upon cofactor binding, which may sequester solvent from the
catalytic site during the reaction and facilitate product release after the
reaction. In conjunction with the functional analysis, our results suggest that
TYW4 catalyzes both methylation and methoxycarbonylation at a single catalytic
site, and in the latter reaction, the methoxycarbonyl group is formed through
the fixation of carbon dioxide.
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