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Bacterial sliding clamp inhibitors that mimic the sequential binding mechanism of endogenous linear motifs

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posted on 2024-11-16, 06:56 authored by Zhou Yin, Louise Whittell, Yao Wang, Slobodan Jergic, Cong Ma, Peter Lewis, Nicholas DixonNicholas Dixon, Jennifer BeckJennifer Beck, Michael Kelso, Aaron OakleyAaron Oakley
The bacterial DNA replication machinery presents new targets for the development of antibiotics acting via novel mechanisms. One such target is the protein-protein interaction between the DNA sliding clamp and the conserved peptide linear motifs in DNA polymerases. We previously established that binding of linear motifs to the Escherichia coli sliding clamp occurs via a sequential mechanism that involves two subsites (I and II). Here, we report the development of small-molecule inhibitors that mimic this mechanism. The compounds contain tetrahydrocarbazole moieties as "anchors" to occupy subsite I. Functional groups appended at the tetrahydrocarbazole nitrogen bind to a channel gated by the side chain of M362 and lie at the edge of subsite II. One derivative induced the formation of a new binding pocket, termed subsite III, by rearrangement of a loop adjacent to subsite I. Discovery of the extended binding area will guide further inhibitor development.

Funding

Fragment-based screening approaches for new antibiotics directed against the bacterial sliding clamp

Australian Research Council

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Fragment Based Screening for new Antibiotics by Protein X-Ray Crystallography

Australian Research Council

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Targeting nucleic acid synthesis and cell division in Gram-negative bacterial pathogens

National Health and Medical Research Council

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History

Citation

Yin, Z., Whittell, L. R., Wang, Y., Jergic, S., Ma, C., Lewis, P. J., Dixon, N. E., Beck, J. L., Kelso, M. J. & Oakley, A. J. (2015). Bacterial sliding clamp inhibitors that mimic the sequential binding mechanism of endogenous linear motifs. Journal of Medicinal Chemistry, 58 (11), 4693-4702.

Journal title

Journal of Medicinal Chemistry

Volume

58

Issue

11

Pagination

4693-4702

Language

English

RIS ID

101555

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