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Stabilizing hydroperoxyflavin intermediate formation via a peptide appendage: a neutral flavoenzyme model.

M S S Vinod MouliDipayan MondalKusum KumariSaurabh Kumar SinghAshutosh Kumar Mishra
Published in: Organic & biomolecular chemistry (2023)
A bioinspired mimic for the stabilization of hydroperoxyflavin intermediate formation was designed and investigated for monooxygenase like catalytic properties. A suitable peptide appendage was covalently linked to the C7-position of the neutral isoalloxazine core to synthesize Fl-G, Fl-F, Fl-P, and Fl-βA analogues. While the presence and identity of the peptide appendage were found to be crucial for catalytic efficiency, corroborative observations were made from theoretical studies as well, supporting the precise conformational and accessibility requirements for the stabilization of the key hydroperoxyflavin intermediate. A simple yet elegant flavopeptide model (Fl-G) was found to achieve almost quantitative catalytic efficiency compared to the control flavin analogue without a peptide appendage.
Keyphrases
  • molecular dynamics
  • molecular dynamics simulations
  • atomic force microscopy