Structural basis for methyl transfer by a radical SAM enzyme

Amie K. Boal; Tyler L. Grove; Monica I. McLaughlin; Neela H. Yennawar; Squire J. Booker; Amy C. Rosenzweig

doi:10.1126/science.1205358

Structural basis for methyl transfer by a radical SAM enzyme

Amie K. Boal, Tyler L. Grove, Monica I. McLaughlin, Neela H. Yennawar, Squire J. Booker, Amy C. Rosenzweig

Research output: Contribution to journal › Article › peer-review

150 Scopus citations

Abstract

The radical S-adenosyl-L-methionine (SAM) enzymes RlmN and Cfr methylate 23S ribosomal RNA, modifying the C2 or C8 position of adenosine 2503. The methyl groups are installed by a two-step sequence involving initial methylation of a conserved Cys residue (RlmN Cys³⁵⁵) by SAM. Methyl transfer to the substrate requires reductive cleavage of a second equivalent of SAM. Crystal structures of RlmN and RlmN with SAM show that a single molecule of SAM coordinates the [4Fe-4S] cluster. Residue Cys³⁵⁵ is S-methylated and located proximal to the SAM methyl group, suggesting the SAM that is involved in the initial methyl transfer binds at the same site. Thus, RlmN accomplishes its complex reaction with structural economy, harnessing the two most important reactivities of SAM within a single site.

Original language	English (US)
Pages (from-to)	1089-1092
Number of pages	4
Journal	Science
Volume	332
Issue number	6033
DOIs	https://doi.org/10.1126/science.1205358
State	Published - May 27 2011
Externally published	Yes

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title = "Structural basis for methyl transfer by a radical SAM enzyme",

abstract = "The radical S-adenosyl-L-methionine (SAM) enzymes RlmN and Cfr methylate 23S ribosomal RNA, modifying the C2 or C8 position of adenosine 2503. The methyl groups are installed by a two-step sequence involving initial methylation of a conserved Cys residue (RlmN Cys355) by SAM. Methyl transfer to the substrate requires reductive cleavage of a second equivalent of SAM. Crystal structures of RlmN and RlmN with SAM show that a single molecule of SAM coordinates the [4Fe-4S] cluster. Residue Cys355 is S-methylated and located proximal to the SAM methyl group, suggesting the SAM that is involved in the initial methyl transfer binds at the same site. Thus, RlmN accomplishes its complex reaction with structural economy, harnessing the two most important reactivities of SAM within a single site.",

author = "Boal, {Amie K.} and Grove, {Tyler L.} and McLaughlin, {Monica I.} and Yennawar, {Neela H.} and Booker, {Squire J.} and Rosenzweig, {Amy C.}",

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T1 - Structural basis for methyl transfer by a radical SAM enzyme

AU - Boal, Amie K.

AU - Grove, Tyler L.

AU - McLaughlin, Monica I.

AU - Yennawar, Neela H.

AU - Booker, Squire J.

AU - Rosenzweig, Amy C.

PY - 2011/5/27

Y1 - 2011/5/27

N2 - The radical S-adenosyl-L-methionine (SAM) enzymes RlmN and Cfr methylate 23S ribosomal RNA, modifying the C2 or C8 position of adenosine 2503. The methyl groups are installed by a two-step sequence involving initial methylation of a conserved Cys residue (RlmN Cys355) by SAM. Methyl transfer to the substrate requires reductive cleavage of a second equivalent of SAM. Crystal structures of RlmN and RlmN with SAM show that a single molecule of SAM coordinates the [4Fe-4S] cluster. Residue Cys355 is S-methylated and located proximal to the SAM methyl group, suggesting the SAM that is involved in the initial methyl transfer binds at the same site. Thus, RlmN accomplishes its complex reaction with structural economy, harnessing the two most important reactivities of SAM within a single site.

AB - The radical S-adenosyl-L-methionine (SAM) enzymes RlmN and Cfr methylate 23S ribosomal RNA, modifying the C2 or C8 position of adenosine 2503. The methyl groups are installed by a two-step sequence involving initial methylation of a conserved Cys residue (RlmN Cys355) by SAM. Methyl transfer to the substrate requires reductive cleavage of a second equivalent of SAM. Crystal structures of RlmN and RlmN with SAM show that a single molecule of SAM coordinates the [4Fe-4S] cluster. Residue Cys355 is S-methylated and located proximal to the SAM methyl group, suggesting the SAM that is involved in the initial methyl transfer binds at the same site. Thus, RlmN accomplishes its complex reaction with structural economy, harnessing the two most important reactivities of SAM within a single site.

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Structural basis for methyl transfer by a radical SAM enzyme

Abstract

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