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5KMU

CTX-M-9 beta lactamase mutant - T165W

Summary for 5KMU
Entry DOI10.2210/pdb5kmu/pdb
Related5KMT
DescriptorBeta-lactamase, PHOSPHATE ION, CHLORIDE ION, ... (5 entities in total)
Functional Keywordsbeta lactamase, esbl, hydrolase
Biological sourceEscherichia coli
Total number of polymer chains1
Total formula weight31698.94
Authors
Latallo, M.,Faham, S.,Kasson, P.M. (deposition date: 2016-06-27, release date: 2017-08-02, Last modification date: 2024-03-06)
Primary citationLatallo, M.J.,Cortina, G.A.,Faham, S.,Nakamoto, R.K.,Kasson, P.M.
Predicting allosteric mutants that increase activity of a major antibiotic resistance enzyme.
Chem Sci, 8:6484-6492, 2017
Cited by
PubMed Abstract: The CTX-M family of beta lactamases mediate broad-spectrum antibiotic resistance and are present in the majority of drug-resistant Gram-negative bacterial infections worldwide. Allosteric mutations that increase catalytic rates of these drug resistance enzymes have been identified in clinical isolates but are challenging to predict prospectively. We have used molecular dynamics simulations to predict allosteric mutants increasing CTX-M9 drug resistance, experimentally testing top mutants using multiple antibiotics. Purified enzymes show an increase in catalytic rate and efficiency, while mutant crystal structures show no detectable changes from wild-type CTX-M9. We hypothesize that increased drug resistance results from changes in the conformational ensemble of an acyl intermediate in hydrolysis. Machine-learning analyses on the three top mutants identify changes to the binding-pocket conformational ensemble by which these allosteric mutations transmit their effect. These findings show how molecular simulation can predict how allosteric mutations alter active-site conformational equilibria to increase catalytic rates and thus resistance against common clinically used antibiotics.
PubMed: 28989673
DOI: 10.1039/c7sc02676e
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.8 Å)
Structure validation

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