2021
DOI: 10.1371/journal.pone.0256715
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Influence of the TorD signal peptide chaperone on Tat-dependent protein translocation

Abstract: The twin-arginine translocation (Tat) pathway transports folded proteins across energetic membranes. Numerous Tat substrates contain co-factors that are inserted before transport with the assistance of redox enzyme maturation proteins (REMPs), which bind to the signal peptide of precursor proteins. How signal peptides are transferred from a REMP to a binding site on the Tat receptor complex remains unknown. Since the signal peptide mediates both interactions, possibilities include: i) a coordinated hand-off me… Show more

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Cited by 4 publications
(3 citation statements)
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“…Using a translational fusion between the TorA signal peptide and GFP, contrasted results were obtained. Li et al [153] reported that TorD stimulates the translocation of the fusion, in support of the reported protective role of the chaperone, while Bageshwar et al [108] showed that TorD inhibited the binding of the fusion to the membrane but only moderately impacted transport efficiency in agreement with the dynamic nature of this interaction. In parallel, a structural investigation of the TorD protein revealed that the one from Shewanella massilia forms multiple and stable oligomeric species and that both the monomeric and dimeric species bind TorA [154].…”
Section: Periplasmic and Monomeric Mo-bispgd Enzymesmentioning
confidence: 79%
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“…Using a translational fusion between the TorA signal peptide and GFP, contrasted results were obtained. Li et al [153] reported that TorD stimulates the translocation of the fusion, in support of the reported protective role of the chaperone, while Bageshwar et al [108] showed that TorD inhibited the binding of the fusion to the membrane but only moderately impacted transport efficiency in agreement with the dynamic nature of this interaction. In parallel, a structural investigation of the TorD protein revealed that the one from Shewanella massilia forms multiple and stable oligomeric species and that both the monomeric and dimeric species bind TorA [154].…”
Section: Periplasmic and Monomeric Mo-bispgd Enzymesmentioning
confidence: 79%
“…This hypothesis was based on the observation that DmsD interacts with TatB and TatC located in the inner membrane [105][106][107]. However, this issue remains controversial as the TorD-related chaperone does not bind Tat structural proteins [108]. DmsD has also been shown to interact with general chaperones and several Moco biosynthesis proteins, expanding its interactome and raising questions about the universality of this property and its feasibility [109].…”
Section: The Case Of the Dmso Reductase: A Similar Situation To Narmentioning
confidence: 99%
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