Monitoring Inhibitor-Induced Conformational Population Shifts in HIV-1 Protease by Pulsed EPR Spectroscopy

Citations Over TimeTop 10% of 2009 papers

Abstract

Double electron-electron resonance (DEER), a pulsed electron paramagnetic resonance (EPR) spectroscopy technique, was utilized to characterize conformational population shifts in HIV-1 protease (HIV-1PR) upon interaction with various inhibitors. Distances between spin-labeled sites in the flap region of HIV-1PR were determined, and detailed analyses provide population percentages for the ensemble flap conformations upon interaction with inhibitor or substrate. Comparisons are made between the percentage of the closed conformer seen with DEER and enzymatic inhibition constants, thermodynamic dissociation constants, and the number of hydrogen bonds identified in crystallographic complexes.

Related Papers

• → Nine Crystal Structures Determine the Substrate Envelope of the MDR HIV-1 Protease(2011)24 cited
• → Models of HIV-1 protease with peptides representing its natural substrates(1998)7 cited
• → Deep recurrent neural networks in HIV-1 protease cleavage classification(2017)3 cited
• → Coarse-Grained Modeling of the HIV–1 Protease Binding Mechanisms: I. Targeting Structural Flexibility of the Protease Flaps and Implications for Drug Design(2009)
• → Determination of the Substrate Envelope for Multidrug‐Resistant HIV‐1 Protease(2008)