Transmembrane substrates of type three secretion system injectisomes

Godlee, Camilla; Holden, David W.

doi:10.1099/mic.0.001292

Cited by 2 publications

(2 citation statements)

References 130 publications

(243 reference statements)

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“…These regions include the highest level of sequence identity among the translocon proteins. 48 We have previously shown that replacement of these TMDs, even by TMDs from other TMD-containing secreted proteins, impairs post-secretion function of these translocon components and prevents the formation of functional pores. 35 Here, we considered whether the EspB TMD-exchanged variants were defective in terms of their ability to dimerize and integrate into EspD oligomers.…”

Section: Discussionmentioning

confidence: 99%

The sequence of events of enteropathogenic E. coli’s type III secretion system translocon assembly

Gershberg,

Morhaim,

Rostrovsky

et al. 2024

iScience

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Section: Discussionmentioning

confidence: 99%

The sequence of events of enteropathogenic E. coli’s type III secretion system translocon assembly

Gershberg,

Morhaim,

Rostrovsky

et al. 2024

iScience

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“…In addition to their role in the translocation of Yops, YopD and LcrV may have additional roles in modifying the host response to infection as both YopD and LcrV have been found to localize to the host cell cytoplasm [ 127 , 128 ]. Furthermore, functional homologs of YopB, YopD, and LcrV are found in most T3SSs expressed by gram-negative bacteria, where strong evidence supports their direct roles on the host cell response [ 129 ]. Insertion of the translocation pore into host membranes connects the cytoplasm of the two cells, allowing direct injection of effector Yops into the host cytoplasm.…”

Section: T3ss Translocation Porementioning

confidence: 99%

Pathogenicity and virulence of Yersinia

Seabaugh,

Anderson

2024

Virulence

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The genus Yersinia includes human, animal, insect, and plant pathogens as well as many symbionts and harmless bacteria. Within this genus are Yersinia enterocolitica and the Yersinia pseudotuberculosis complex, with four human pathogenic species that are highly related at the genomic level including the causative agent of plague, Yersinia pestis . Extensive laboratory, field work, and clinical research have been conducted to understand the underlying pathogenesis and zoonotic transmission of these pathogens. There are presently more than 500 whole genome sequences from which an evolutionary footprint can be developed that details shared and unique virulence properties. Whereas the virulence of Y. pestis now seems in apparent homoeostasis within its flea transmission cycle, substantial evolutionary changes that affect transmission and disease severity continue to ndergo apparent selective pressure within the other Yersiniae that cause intestinal diseases. In this review, we will summarize the present understanding of the virulence and pathogenesis of Yersinia , highlighting shared mechanisms of virulence and the differences that determine the infection niche and disease severity.

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Transmembrane substrates of type three secretion system injectisomes

Cited by 2 publications

References 130 publications

The sequence of events of enteropathogenic E. coli’s type III secretion system translocon assembly

The sequence of events of enteropathogenic E. coli’s type III secretion system translocon assembly

Pathogenicity and virulence of Yersinia

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