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The structural basis of promiscuity in small multidrug resistance transporters.


ABSTRACT: By providing broad resistance to environmental biocides, transporters from the small multidrug resistance (SMR) family drive the spread of multidrug resistance cassettes among bacterial populations. A fundamental understanding of substrate selectivity by SMR transporters is needed to identify the types of selective pressures that contribute to this process. Using solid-supported membrane electrophysiology, we find that promiscuous transport of hydrophobic substituted cations is a general feature of SMR transporters. To understand the molecular basis for promiscuity, we solved X-ray crystal structures of a SMR transporter Gdx-Clo in complex with substrates to a maximum resolution of 2.3?Å. These structures confirm the family's extremely rare dual topology architecture and reveal a cleft between two helices that provides accommodation in the membrane for the hydrophobic substituents of transported drug-like cations.

SUBMITTER: Kermani AA 

PROVIDER: S-EPMC7695847 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

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The structural basis of promiscuity in small multidrug resistance transporters.

Kermani Ali A AA   Macdonald Christian B CB   Macdonald Christian B CB   Burata Olive E OE   Ben Koff B B   Koide Akiko A   Denbaum Eric E   Koide Shohei S   Stockbridge Randy B RB  

Nature communications 20201127 1


By providing broad resistance to environmental biocides, transporters from the small multidrug resistance (SMR) family drive the spread of multidrug resistance cassettes among bacterial populations. A fundamental understanding of substrate selectivity by SMR transporters is needed to identify the types of selective pressures that contribute to this process. Using solid-supported membrane electrophysiology, we find that promiscuous transport of hydrophobic substituted cations is a general feature  ...[more]

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