Karl A.T. Makepeace scite author profile

Graphical Abstract Highlights d The crystal structure of EspB reveals a fused PE/PPE homology domain d EspB has a stabilized bipartite secretion signal that targets the EccCb1 ATPase d EspB oligomerizes to form a ring-shaped heptamer d A model of the heptamer was fit to EM density and crosslinking data In Brief Mycobacterium tuberculosis exports virulence factors to its surface using the ESX-1 secretion system, progressing the infection of human macrophages. Solomonson et al. show that one of these factors, EspB, adopts a PE/PPE-like fold and oligomerizes to form a barrel-shaped structure with heptameric symmetry. Accession Numbers 4WJ1 4WJ2 3J83 Solomonson et al., 2015, Structure 23, 1-13 March 3, SUMMARYMycobacterium tuberculosis (Mtb) uses the ESX-1 type VII secretion system to export virulence proteins across its lipid-rich cell wall, which helps permeabilize the host's macrophage phagosomal membrane, facilitating the escape and cell-to-cell spread of Mtb. ESX-1 membranolytic activity depends on a set of specialized secreted Esp proteins, the structure and specific roles of which are not currently understood. Here, we report the X-ray and electron microscopic structures of the ESX-1-secreted EspB. We demonstrate that EspB adopts a PE/PPE-like fold that mediates oligomerization with apparent heptameric symmetry, generating a barrel-shaped structure with a central pore that we propose contributes to the macrophage killing functions of EspB. Our structural data also reveal unexpected direct interactions between the EspB bipartite secretion signal sequence elements that form a unified aromatic surface. These findings provide insight into how specialized proteins encoded within the ESX-1 locus are targeted for secretion, and for the first time indicate an oligomerization-dependent role for Esp virulence factors.

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Super Spy variants implicate flexibility in chaperone action

Qin

Wang

Petrotchenko

et al. 2014

104

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Experimental study of the role of disorder in protein function is challenging. It has been proposed that proteins utilize disordered regions in the adaptive recognition of their various binding partners. However apart from a few exceptions, defining the importance of disorder in promiscuous binding interactions has proven to be difficult. In this paper, we have utilized a genetic selection that links protein stability to antibiotic resistance to isolate variants of the newly discovered chaperone Spy that show an up to 7 fold improved chaperone activity against a variety of substrates. These “Super Spy” variants show tighter binding to client proteins and are generally more unstable than is wild type Spy and show increases in apparent flexibility. We establish a good relationship between the degree of their instability and the improvement they show in their chaperone activity. Our results provide evidence for the importance of disorder and flexibility in chaperone function.DOI: http://dx.doi.org/10.7554/eLife.01584.001

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Structural and Biochemical Characterization of Plasmodium falciparum 12 (Pf12) Reveals a Unique Interdomain Organization and the Potential for an Antiparallel Arrangement with Pf41

Tonkin

Arredondo

Loveless

et al. 2013

Journal of Biological Chemistry

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Background: Pf12 is the archetypal member of the 6-Cys protein family, members of which are important Plasmodium vaccine targets. Results: Purifying selection and apical localization of Pf12, crystal structure of tandem 6-Cys domains, and mass spectrometry of cross-linked Pf12-Pf41 heterodimer are shown. Conclusion: A functionally important role for Pf12 and potential for antiparallel heterodimer is provided. Significance: First full-length 6-Cys protein structure and first details of heterodimer organization are revealed.

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