Current Research in Structural Biology (Nov 2019)

Cryo-EM structure of substrate-free E. coli Lon protease provides insights into the dynamics of Lon machinery

  • Istvan Botos,
  • George T. Lountos,
  • Weimin Wu,
  • Scott Cherry,
  • Rodolfo Ghirlando,
  • Arsen M. Kudzhaev,
  • Tatyana V. Rotanova,
  • Natalia de Val,
  • Joseph E. Tropea,
  • Alla Gustchina,
  • Alexander Wlodawer

Journal volume & issue
Vol. 1
pp. 13 – 20

Abstract

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Energy-dependent Lon proteases play a key role in cellular regulation by degrading short-lived regulatory proteins and misfolded proteins in the cell. The structure of the catalytically inactive S679A mutant of Escherichia coli LonA protease (EcLon) has been determined by cryo-EM at the resolution of 3.5 Å. EcLonA without a bound substrate adopts a hexameric open-spiral quaternary structure that might represent the resting state of the enzyme. Upon interaction with substrate the open-spiral hexamer undergoes a major conformational change resulting in a compact, closed-circle hexamer as in the recent structure of a complex of Yersinia pestis LonA with a protein substrate. This major change is accomplished by the rigid-body rearrangement of the individual domains within the protomers of the complex around the hinge points in the interdomain linkers. Comparison of substrate-free and substrate-bound Lon structures allows to mark the location of putative pivotal points involved in such conformational changes.

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