Title of article
Assessing the chemical accuracy of protein structures via peptide acidity Original Research Article
Author/Authors
Janet S. Anderson، نويسنده , , Griselda Hern?ndez، نويسنده , , David M. LeMaster، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
13
From page
63
To page
75
Abstract
Although the protein native state is a Boltzmann conformational ensemble, practical applications often require a representative model from the most populated region of that distribution. The acidity of the backbone amides, as reflected in hydrogen exchange rates, is exquisitely sensitive to the surrounding charge and dielectric volume distribution. For each of four proteins, three independently determined X-ray structures of differing crystallographic resolution were used to predict exchange for the static solvent-exposed amide hydrogens. The average correlation coefficients range from 0.74 for ubiquitin to 0.93 for Pyrococcus furiosus rubredoxin, reflecting the larger range of experimental exchange rates exhibited by the latter protein. The exchange prediction errors modestly correlate with the crystallographic resolution. MODELLER 9v6-derived homology models at ~ 60% sequence identity (36% identity for chymotrypsin inhibitor CI2) yielded correlation coefficients that are ~ 0.1 smaller than for the cognate X-ray structures. The most recently deposited NOE-based ubiquitin structure and the original NMR structure of CI2 fail to provide statistically significant predictions of hydrogen exchange. However, the more recent RECOORD refinement study of CI2 yielded predictions comparable to the X-ray and homology model-based analyses.
Keywords
hydrogen exchange , Structural analysis , Protein electrostatics , Continuum dielectric , NMR
Journal title
Biophysical Chemistry
Serial Year
2013
Journal title
Biophysical Chemistry
Record number
1120603
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