Giorgia Dellaferrera, Stanisław Woźniak, et al.
Nature Communications
We have developed a novel computational alanine scanning approach that involves analysis of ensemble unfolding kinetics at high temperature to identify residues that are critical for the stability of a given protein. This approach has been applied to dimerization of the oligomerization domain (residues 326-355) of tumor suppressor p53. As validated by experimental results, our approach has reasonable success in identifying deleterious mutations, including mutations that have been linked to cancer. We discuss a method for determining the effect of mutations on the location of the dimerization transition state. © 2005 Elsevier Ltd. All rights reserved.
Giorgia Dellaferrera, Stanisław Woźniak, et al.
Nature Communications
David S. Cerutti, Julia E. Rice, et al.
Journal of Physical Chemistry B
R. Langridge, M.P. Barnett, et al.
Journal of Molecular Biology
Marta Melé, Asif Javed, et al.
Molecular Biology and Evolution