Author: Morton, Victoria L.; Stockley, Peter G.; Stonehouse, Nicola J.; Ashcroft, Alison E.
Title: Insights into virus capsid assembly from nonâ€covalent mass spectrometry Cord-id: 0rn9s4er Document date: 2008_5_22
ID: 0rn9s4er
Snippet: The assembly of viral proteins into a range of macromolecular complexes of strictly defined architecture is one of Nature's wonders. Unraveling the details of these complex structures and the associated selfâ€assembly pathways that lead to their efficient and precise construction will play an important role in the development of antiâ€viral therapeutics. It will also be important in bioâ€nanotechnology where there is a plethora of applications for such wellâ€defined macromolecular complexes,
Document: The assembly of viral proteins into a range of macromolecular complexes of strictly defined architecture is one of Nature's wonders. Unraveling the details of these complex structures and the associated selfâ€assembly pathways that lead to their efficient and precise construction will play an important role in the development of antiâ€viral therapeutics. It will also be important in bioâ€nanotechnology where there is a plethora of applications for such wellâ€defined macromolecular complexes, including cellâ€specific drug delivery and as substrates for the formation of novel materials with unique electrical and magnetic properties. Mass spectrometry has the ability not only to measure masses accurately but also to provide vital details regarding the composition and stoichiometry of intact, nonâ€covalently bound macromolecular complexes under nearâ€physiological conditions. It is thus ideal for exploring the assembly and function of viruses. Over the past decade or so, significant advances have been made in this field, and these advances are summarized in this review, which covers the literature up to the end of 2007. © 2008 Wiley Periodicals, Inc., Mass Spec Rev 27: 575–595, 2008
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