AI Article Synopsis
- RimO is part of the S-adenosylmethionine (SAM) superfamily of enzymes that uses a [4Fe-4S] cluster to cleave SAM, producing a powerful 5'-deoxyadenosyl radical (5'-dA(•)).
- RimO catalyzes the addition of a methylthio group to aspartate 89 of the S12 protein in the bacterial ribosome but the exact mechanism of this reaction has not been fully understood.
- Recent studies show that RimO from Bacteroides thetaiotaomicron abstracts the pro-S hydrogen atom from the target aspartate, indicating a significant kinetic isotope effect and utilizing a reducing system similar to that of E. coli for
Article Abstract
RimO is a member of the growing radical S-adenosylmethionine (SAM) superfamily of enzymes, which use a reduced [4Fe-4S] cluster to effect reductive cleavage of the 5' C-S bond of SAM to form a 5'-deoxyadenosyl 5'-radical (5'-dA(•)) intermediate. RimO uses this potent oxidant to catalyze the attachment of a methylthio group (-SCH3) to C3 of aspartate 89 of protein S12, one of 21 proteins that compose the 30S subunit of the bacterial ribosome. However, the exact mechanism by which this transformation takes place has remained elusive. Herein, we describe the stereochemical course of the RimO reaction. Using peptide mimics of the S12 protein bearing deuterium at the 3 pro-R or 3 pro-S positions of the target aspartyl residue, we show that RimO from Bacteroides thetaiotaomicron (Bt) catalyzes abstraction of the pro-S hydrogen atom, as evidenced by the transfer of deuterium into 5'-deoxyadenosine (5'-dAH). The observed kinetic isotope effect on H atom versus D atom abstraction is ∼1.9, suggesting that this step is at least partially rate determining. We also demonstrate that Bt RimO can utilize the flavodoxin/flavodoxin oxidoreductase/NADPH reducing system from Escherichia coli as a source of requisite electrons. Use of this in vivo reducing system decreases, but does not eliminate, formation of 5'-dAH in excess of methylthiolated product.
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| http://dx.doi.org/10.1021/jacs.5b11035 | DOI Listing |
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