Proteomics

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Mechanism of chaperone coordination during cotranslational protein folding in bacteria


ABSTRACT: Protein folding is assisted by molecular chaperones that bind nascent polypeptides during mRNA translation. Several structurally-distinct classes of chaperones promote de novo folding, suggesting that their activity is coordinated at the ribosome. Here we use biochemical reconstitution and structural proteomics to explore the molecular basis for cotranslational chaperone action in bacteria. We find that chaperone binding is disfavoured close to the ribosome, allowing folding to precede chaperone recruitment. Trigger factor subsequently recognises compact folding intermediates exposing extensive non-native surface and dictates DnaJ access to nascent chains. DnaJ uses a large surface to bind structurally diverse intermediates, and recruits DnaK to solvent-accessible sites in a sequence non-specific manner. Neither Trigger factor, DnaJ nor DnaK destabilize cotranslational folding intermediates. Instead, the chaperones collaborate to create a protected space for protein maturation that extends well beyond the ribosome exit tunnel. Our findings show how the chaperone network selects and modulates cotranslational folding intermediates.

INSTRUMENT(S): Orbitrap Fusion Lumos

ORGANISM(S): Escherichia Coli

SUBMITTER: Alzbeta Roeselova  

LAB HEAD: David Balchin

PROVIDER: PXD048645 | Pride | 2024-07-03

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
20210226_KF2189_10_1.raw Raw
20210226_KF2189_10_2.raw Raw
20210226_KF2189_10_3.raw Raw
20210226_KF2189_11_1.raw Raw
20210226_KF2189_11_2.raw Raw
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