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Structural and mechanistic insights into Quinolone Synthase to address its functional promiscuity

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posted on 2024-07-29, 15:32 authored by Mallika Vijayanathan, Abhinav Koyamangalath Vadakkepat, Kozhinjampara R Mahendran, Abdoallah Sharaf, Kristian EH Frandsen, Debashree Bandyopadhyay, M Radhakrishna Pillai, Eppurath Vasudevan Soniya

Quinolone synthase from Aegle marmelos (AmQNS) is a type III polyketide synthase that yields therapeutically effective quinolone and acridone compounds. Addressing the structural and molecular underpinnings of AmQNS and its substrate interaction in terms of its high selectivity and specificity can aid in the development of numerous novel compounds. This paper presents a high-resolution AmQNS crystal structure and explains its mechanistic role in synthetic selectivity. Additionally, we provide a model framework to comprehend structural constraints on ketide insertion and postulate that AmQNS’s steric and electrostatic selectivity plays a role in its ability to bind to various core substrates, resulting in its synthetic diversity. AmQNS prefers quinolone synthesis and can accommodate large substrates because of its wide active site entrance. However, our research suggests that acridone is exclusively synthesized in the presence of high malonyl-CoA concentrations. Potential implications of functionally relevant residue mutations were also investigated, which will assist in harnessing the benefits of mutations for targeted polyketide production. The pharmaceutical industry stands to gain from these findings as they expand the pool of potential drug candidates, and these methodologies can also be applied to additional promising enzymes.

History

Author affiliation

College of Life Sciences Molecular & Cell Biology

Version

  • VoR (Version of Record)

Published in

Communications Biology

Volume

7

Issue

1

Pagination

566

Publisher

Springer Science and Business Media LLC

issn

2399-3642

eissn

2399-3642

Copyright date

2024

Available date

2024-07-29

Spatial coverage

England

Language

en

Deposited by

Mr Abhinav Koyamangalath Vadakkepat

Deposit date

2024-07-22

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