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STRUCTURAL BIOLOGY Torqueing about pores

NATURE CHEMICAL BIOLOGY (2013)

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NATURE CHEMICAL BIOLOGY

Volume 9, Issue 10, Pages 605-606

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NATURE PUBLISHING GROUP

DOI: 10.1038/nchembio.1341

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Abstract

Cryo-EM, crystallography, biochemical experiments and computational approaches have been used to study different intermediate states of the Aeromonas hydrophila toxin aerolysin en route to pore formation. These results reveal that an unexpected and marked rotation of the core aerolysin machinery is required to unleash the membrane-spanning regions.

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STRUCTURAL BIOLOGY Torqueing about pores

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NATURE CHEMICAL BIOLOGY

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NATURE PUBLISHING GROUP

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STRUCTURAL BIOLOGY Torqueing about pores

Journal

NATURE CHEMICAL BIOLOGY

Publisher

NATURE PUBLISHING GROUP

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