Structural Analysis of a Temperature-Induced Transition in a Viral Capsid Probed by HDX-MS

Publication date

2017

Authors

van de Waterbeemd, M.J.ISNI 0000000527812911
Llauró, Aida
Snijder, J.ISNI 0000000387416756
Valbuena, Alejandro
Rodríguez-Huete, Alicia
Fuertes, Miguel Angel
de Pablo, Pedro J
Mateu, Mauricio G
Heck, AlbertORCID 0000-0002-2405-4404ISNI 0000000393921118

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

cc_by_nc_nd

Abstract

Icosahedral viral capsids are made of a large number of symmetrically organized protein subunits whose local movements can be essential for infection. In the capsid of the minute virus of mice, events required for infection that involve translocation of peptides through capsid pores are associated with a subtle conformational change. In vitro, this change can be reversibly induced by overcoming the energy barrier through mild heating of the capsid, but little is known about the capsid regions involved in the process. Here, we use hydrogen-deuterium exchange coupled to mass spectrometry to analyze the dynamics of the minute virus of mice capsid at increasing temperatures. Our results indicate that the transition associated with peptide translocation involves the structural rearrangement of regions distant from the capsid pores. These alterations are reflected in an increased dynamics of some secondary-structure elements in the capsid shell from which spikes protrude, and a decreased dynamics in the long intertwined loops that form the large capsid spikes. Thus, the translocation events through capsid pores involve a global conformational rearrangement of the capsid and a complex alteration of its equilibrium dynamics. This study additionally demonstrates the potential of hydrogen-deuterium exchange coupled to mass spectrometry to explore in detail temperature-dependent structural dynamics in large macromolecular protein assemblies. Most importantly, it paves the way for undertaking novel studies of the relationship between structure, dynamics, and biological function in virus particles and other large protein cages.

Keywords

Citation

van de Waterbeemd, M, Llauró, A, Snijder, J, Valbuena, A, Rodríguez-Huete, A, Fuertes, M A, de Pablo, P J, Mateu, M G & Heck, A J R 2017, 'Structural Analysis of a Temperature-Induced Transition in a Viral Capsid Probed by HDX-MS', Biophysical Journal, vol. 112, no. 6, pp. 1157-1165. https://doi.org/10.1016/j.bpj.2017.02.003