Frank Cordes scite author profile

Type III secretion systems are essential virulence determinants for many Gram-negative bacterial pathogens. The type III secretion system consists of cytoplasmic, transmembrane, and extracellular domains. The extracellular domain is a hollow needle protruding above the bacterial surface and is held within a basal body that traverses both bacterial membranes. Effector proteins are translocated, via this external needle, directly into host cells, where they subvert normal cell functions to aid infection. Physical contact with host cells initiates secretion and leads to formation of a pore, thought to be contiguous with the needle channel, in the host-cell membrane. Here, we report the crystal structure of the Shigella flexneri needle subunit MxiH and a complete model for the needle assembly built into our three-dimensional EM reconstruction. The model, combined with mutagenesis data, reveals that signaling of host-cell contact is relayed through the needle via intersubunit contacts and suggests a mode of binding for a tip complex.needle complex ͉ protein secretion ͉ Shigella

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Helical Structure of the Needle of the Type III Secretion System of Shigella flexneri

Cordes

Komoriya

Larquet

et al. 2003

Journal of Biological Chemistry

168

159

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Gram-negative bacteria commonly interact with animal and plant hosts using type III secretion systems (TTSSs) for translocation of proteins into eukaryotic cells during infection. 10 of the 25 TTSS-encoding genes are homologous to components of the bacterial flagellar basal body, which the TTSS needle complex morphologically resembles. This indicates a common ancestry, although no TTSS sequence homologues for the genes encoding the flagellum are found. We here present an ϳ16-Å structure of the central component, the needle, of the TTSS. Although the needle subunit is significantly smaller and shares no sequence homology with the flagellar hook and filament, it shares a common helical architecture (ϳ5.6 subunits/turn, 24-Å helical pitch). This common architecture implies that there will be further mechanistic analogies in the functioning of these two bacterial systems.

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Conformational changes of the Tet repressor induced by tetracycline trapping

Orth

Cordes

Schnappinger

et al. 1998

Journal of Molecular Biology

116

158

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Frank Cordes

Proline-induced Distortions of Transmembrane Helices

Molecular model of a type III secretion system needle: Implications for host-cell sensing

Helical Structure of the Needle of the Type III Secretion System of Shigella flexneri

Conformational changes of the Tet repressor induced by tetracycline trapping

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