1. Coiled-coil deformations in crystal structures: themeasles virusphosphoprotein multimerization domain as an illustrative example
- Author
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David Blocquel, François Ferron, Johnny Habchi, Marion Sevajol, Eric Durand, Nicolas Papageorgiou, Sonia Longhi, and Jenny Erales
- Subjects
Coiled coil ,Protein Conformation ,Chemistry ,Circular Dichroism ,Intermolecular force ,General Medicine ,Crystal structure ,Crystallography, X-Ray ,Phosphoproteins ,Crystal ,Viral Proteins ,Crystallography ,Biopolymers ,Measles virus ,Structural Biology ,Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization ,Phosphoprotein ,Spectrophotometry, Ultraviolet ,Protein quaternary structure ,Single crystal ,Dynamic equilibrium - Abstract
The structures of two constructs of themeasles virus(MeV) phosphoprotein (P) multimerization domain (PMD) are reported and are compared with a third structure published recently by another group [Communieet al.(2013),J. Virol.87, 7166–7169]. Although the three structures all have a tetrameric and parallel coiled-coil arrangement, structural comparison unveiled considerable differences in the quaternary structure and unveiled that the three structures suffer from significant structural deformation induced by intermolecular interactions within the crystal. These results show that crystal packing can bias conclusions about function and mechanism based on analysis of a single crystal structure, and they challenge to some extent the assumption according to which coiled-coil structures can be reliably predicted from the amino-acid sequence. Structural comparison also highlighted significant differences in the extent of disorder in the C-terminal region of each monomer. The differential flexibility of the C-terminal region is also supported by size-exclusion chromatography and small-angle X-ray scattering studies, which showed that MeV PMD exists in solution as a dynamic equilibrium between two tetramers of different compaction. Finally, the possible functional implications of the flexibility of the C-terminal region of PMD are discussed.
- Published
- 2014
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