Bulat Khaliullin scite author profile

Bulat Khaliullin

2Publications

162Citation Statements Received

101Citation Statements Given

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159

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Affiliations

University of Denver

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Mycofactocin biosynthesis: modification of the peptide MftA by the radical S‐adenosylmethionine protein MftC

et al. 2016

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Mycofactocin is a putative, peptide derived, cofactor that is associated primarily with the Mycobacterium genera including the pathogen M. tuberculosis. The pathway consists of the three genes mftA, mftB, and mftC that encode for the peptide substrate, peptide chaperone, and a radical S-adenosylmethionine protein (RS), respectively. Here, we show that the MftB acts as a peptide chaperone, binding MftA with a submicromolar K D (~100 nM) and MftC with a low micromolar K D (~2 lM). Moreover, we demonstrate that MftC is a radical S-adenosylmethionine (SAM) enzyme. Finally, we show that MftC catalyzes the oxidative decarboxylation of the peptide MftA.

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Mechanistic elucidation of the mycofactocin-biosynthetic radical S-adenosylmethionine protein, MftC

Khaliullin

Ayikpoe

Tuttle

et al. 2017

Journal of Biological Chemistry

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Ribosomally synthesized and posttranslationally modified peptide (RiPP) pathways produce a diverse array of natural products. A subset of these pathways depends on radical -adenosylmethionine proteins to modify the RiPP-produced peptide. Mycofactocin biosynthesis is one example of an-adenosylmethionine protein-dependent RiPP pathway. Recently, it has been shown that MftC catalyzes the oxidative decarboxylation of the C-terminal tyrosine (Tyr-30) on the mycofactocin precursor peptide MftA; however, this product has not been verified by techniques other than MS. Herein, we provide a more detailed study of MftC catalysis and report a revised mechanism for MftC chemistry. We show that MftC catalyzes the formation of two isomeric products. Using a combination of MS, isotope labeling, and H andC NMR techniques, we established that the major product, MftA*, is a tyramine-valine-cross-linked peptide formed by MftC through two -adenosylmethionine-dependent turnovers. In addition, we show that the hydroxyl group on MftA Tyr-30 is required for MftC catalysis. Furthermore, we show that a substitution in the penultimate MftA Val-29 position causes the accumulation of an MftA** minor product. TheH NMR spectrum indicates that this minor product contains an αβ-unsaturated bond that likely arises from an aborted intermediate of MftA* synthesis. The finding that MftA* is the major product formed during MftC catalysis could have implications for the further elucidation of mycofactocin biosynthesis.

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