Abstract
The trimeric chaperone Skp sequesters outer membrane proteins (OMPs) within a hydrophobic cage, preventing their aggregation during transport across the periplasm in Gram negative bacteria. Here, we study the interaction between Escherichia coli Skp and five OMPs of varying size. Investigations of the kinetics of OMP folding reveal that greater Skp:OMP ratios are required to prevent the folding of 16-stranded OMPs compared with their 8-stranded counterparts. Ion mobility spectrometry-mass spectrometry (IMS-MS) data, computer modelling and molecular dynamics simulations provide evidence that 10- to 16-stranded OMPs are encapsulated within an expanded Skp substrate cage. For OMPs which cannot be fully accommodated in the expanded cavity, sequestration is achieved by binding of an additional Skp trimer. The results suggest a new mechanism for Skp chaperone activity involving coordination of multiple copies of Skp to protect a single substrate from aggregation.
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