Molecular dynamics simulations demonstrate reduced antibiotic affinity to mirror bacterial targets

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Molecular dynamics simulations demonstrate reduced antibiotic affinity to mirror bacterial targets

Authors

Fady, P.-E.; Ciccone, J.

Abstract

Mirror life, self-replicating organisms composed of non-natural-chirality biomacromolecules, presents a future threat with potentially global consequences. Consequently, there is strong agreement among experts that it should not be created. However, there is some disagreement over how effective existing medical countermeasures might prove against mirror bacteria in the event that they were created. Here, we leverage computational chemistry methods including docking and molecular dynamics to determine the likely binding efficacy of existing antibiotics against natural and mirror bacterial protein targets. We find that most existing antibiotics fail to bind to mirror bacterial protein targets, unlike their natural-chirality targets. This suggests altered binding of current medical countermeasures, which may impact the antimicrobial activity against mirror bacteria were the latter were created.

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