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In situ and high-resolution cryo-EM structure of a bacterial type VI secretion system membrane complex.


ABSTRACT: Bacteria have evolved macromolecular machineries that secrete effectors and toxins to survive and thrive in diverse environments. The type VI secretion system (T6SS) is a contractile machine that is related to Myoviridae phages. It is composed of a phage tail-like structure inserted in the bacterial cell envelope by a membrane complex (MC) comprising the TssJ, TssL and TssM proteins. We previously reported the low-resolution negative-stain electron microscopy structure of the enteroaggregative Escherichia coli MC and proposed a rotational 5-fold symmetry with a TssJ:TssL:TssM stoichiometry of 2:2:2. Here, cryo-electron tomography analyses of the T6SS MC confirm the 5-fold symmetry in situ and identify the regions of the structure that insert into the bacterial membranes. A high-resolution model obtained by single-particle cryo-electron microscopy highlights new features: five additional copies of TssJ, yielding a TssJ:TssL:TssM stoichiometry of 3:2:2, an 11-residue loop in TssM, protruding inside the lumen of the MC and constituting a functionally important periplasmic gate, and hinge regions. Based on these data, we propose an updated model on MC structure and dynamics during T6SS assembly and function.

SUBMITTER: Rapisarda C 

PROVIDER: S-EPMC6517824 | biostudies-literature | 2019 May

REPOSITORIES: biostudies-literature

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<i>In situ</i> and high-resolution cryo-EM structure of a bacterial type VI secretion system membrane complex.

Rapisarda Chiara C   Cherrak Yassine Y   Kooger Romain R   Schmidt Victoria V   Pellarin Riccardo R   Logger Laureen L   Cascales Eric E   Pilhofer Martin M   Durand Eric E   Fronzes Rémi R  

The EMBO journal 20190315 10


Bacteria have evolved macromolecular machineries that secrete effectors and toxins to survive and thrive in diverse environments. The type VI secretion system (T6SS) is a contractile machine that is related to <i>Myoviridae</i> phages. It is composed of a phage tail-like structure inserted in the bacterial cell envelope by a membrane complex (MC) comprising the TssJ, TssL and TssM proteins. We previously reported the low-resolution negative-stain electron microscopy structure of the enteroaggreg  ...[more]

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