2nxm

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File:2nxm.jpg


2nxm, resolution 2.25Å

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Structure of HIV-1 protease D25N complexed with the rt-rh analogue peptide GLY-ALA-GLN-THR-PHE*TYR-VAL-ASP-GLY-ALA

OverviewOverview

Drug resistance in HIV-1 protease, a barrier to effective treatment, is, generally caused by mutations in the enzyme that disrupt inhibitor binding, but still allow for substrate processing. Structural studies with mutant, inactive enzyme, have provided detailed information regarding how the, substrates bind to the protease yet avoid resistance mutations; insights, obtained inform the development of next generation therapeutics. Although, structures have been obtained of complexes between substrate peptide and, inactivated (D25N) protease, thermodynamic studies of peptide binding have, been challenging due to low affinity. Peptides that bind tighter to the, inactivated protease than the natural substrates would be valuable for, thermodynamic studies as well as to explore whether the structural, envelope observed for substrate peptides is a function of weak binding., Here, two computational methods-namely, charge optimization and protein, design-were applied to identify peptide sequences predicted to have higher, binding affinity to the inactivated protease, starting from an RT-RH, derived substrate peptide. Of the candidate designed peptides, three were, tested for binding with isothermal titration calorimetry, with one, containing a single threonine to valine substitution, measured to have, more than a 10-fold improvement over the tightest binding natural, substrate. Crystal structures were also obtained for the same three, designed peptide complexes; they show good agreement with computational, prediction. Thermodynamic studies show that binding is entropically, driven, more so for designed affinity enhanced variants than for the, starting substrate. Structural studies show strong similarities between, natural and tighter-binding designed peptide complexes, which may have, implications in understanding the molecular mechanisms of drug resistance, in HIV-1 protease. Proteins 2007. (c) 2007 Wiley-Liss, Inc.

About this StructureAbout this Structure

2NXM is a Single protein structure of sequence from Human immunodeficiency virus 1. Active as HIV-1 retropepsin, with EC number 3.4.23.16 Full crystallographic information is available from OCA.

ReferenceReference

Computational design and experimental study of tighter binding peptides to an inactivated mutant of HIV-1 protease., Altman MD, Nalivaika EA, Prabu-Jeyabalan M, Schiffer CA, Tidor B, Proteins. 2007 Aug 29;. PMID:17729291

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