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Structural basis for the antifolding activity of a molecular chaperone

Author

Listed:
  • Chengdong Huang

    (Molecular Biology & Biophysics, University of Minnesota)

  • Paolo Rossi

    (Molecular Biology & Biophysics, University of Minnesota)

  • Tomohide Saio

    (Molecular Biology & Biophysics, University of Minnesota)

  • Charalampos G. Kalodimos

    (Molecular Biology & Biophysics, University of Minnesota)

Abstract

Molecular chaperones act on non-native proteins in the cell to prevent their aggregation, premature folding or misfolding. Different chaperones often exert distinct effects, such as acceleration or delay of folding, on client proteins via mechanisms that are poorly understood. Here we report the solution structure of SecB, a chaperone that exhibits strong antifolding activity, in complex with alkaline phosphatase and maltose-binding protein captured in their unfolded states. SecB uses long hydrophobic grooves that run around its disk-like shape to recognize and bind to multiple hydrophobic segments across the length of non-native proteins. The multivalent binding mode results in proteins wrapping around SecB. This unique complex architecture alters the kinetics of protein binding to SecB and confers strong antifolding activity on the chaperone. The data show how the different architectures of chaperones result in distinct binding modes with non-native proteins that ultimately define the activity of the chaperone.

Suggested Citation

  • Chengdong Huang & Paolo Rossi & Tomohide Saio & Charalampos G. Kalodimos, 2016. "Structural basis for the antifolding activity of a molecular chaperone," Nature, Nature, vol. 537(7619), pages 202-206, September.
  • Handle: RePEc:nat:nature:v:537:y:2016:i:7619:d:10.1038_nature18965
    DOI: 10.1038/nature18965
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    Cited by:

    1. Chao Kong & Xiaozhan Qu & Mingming Liu & Weiya Xu & Da Chen & Yanshen Zhang & Shan Zhang & Feng Zhu & Zhenbang Liu & Jianchao Li & Chengdong Huang & Chao Wang, 2023. "Dynamic interactions between E-cadherin and Ankyrin-G mediate epithelial cell polarity maintenance," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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