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Photoaffinity labeling of the N-methyltransferase domains of cyclosporin synthetase

journal contribution
posted on 2003-01-01, 00:00 authored by Tony Velkov, A Lawen
The multifunctional polypeptide cyclosporin synthetase (CySyn) remains one of the most complex nonribosomal peptide synthetase described. In this study we used a highly specific photoaffinity labeling procedure with the natural cofactor S-adenosyl-l-methionine (AdoMet), 14C-isotopically labeled at the Sδ methyl group to probe the concerted AdoMet-binding interaction of the N-methyltransferase (N-MTase) centers of CySyn. The binding stoichiometry for the enzyme–AdoMet complex was determined to be 1:7, which is in agreement with inferences made from analysis of the complementary DNA sequence of the simA gene encoding the CySyn polypeptide. The photolabeling of the AdoMet-binding sites displayed homotropic negative cooperativity, characterized by a curvilinear Scatchard plot with upward concavity. Although, the process of N-methyl transfer is not a critical event for peptide elongation, the destabilizing homotropic interactions between N-MTase centers that were observed may represent a mechanism whereby the enzyme preserves the proficiency of the substrate-channeling process of cyclosporin peptide assembly over a broad range of cofactor concentrations. Furthermore, we demonstrated the utility of the photolabeling procedure for tracking the enzyme during purification.

History

Journal

Photochemistry and photobiology

Volume

77

Issue

2

Pagination

129 - 137

Publisher

Pergamon Press

Location

Oxford, England

ISSN

1751-1097

eISSN

0031-8655

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2003, American Society for Photobiology

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