Paper Citing NAMD - Abstract
Karthik, Suresh; Senapati, Sanjib
Dynamic flaps in HIV-1 protease adopt unique ordering at different stages in the catalytic cycle
PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS, 79:1830-1840, JUN 2011
The flexibility of HIV-1 protease flaps is known to be essential for the enzymatic activity. Here we attempt to capture a multitude of conformations of the free and substrate-bound HIV-1 protease that differ drastically in their flap arrangements. The substrate binding process suggests the opening of active site gate in conjunction with a reversal of flap tip ordering, from the native semiopen state. The reversed-flap, open-gated enzyme readily transforms to a closed conformation after proper placement of the substrate into the binding cleft. After substrate processing, the closed state protease which possessed opposite flap ordering relative to the semiopen state, encounters another flap reversal via a second open conformation that facilitates the evolution of native semiopen state of correct flap ordering. The complicated transitional pathway, comprising of many high and low energy states, is explored by combining standard and activated molecular dynamics (MD) simulation techniques. The study not only complements the existing findings from X-ray, NMR, EPR, and MD studies but also provides a wealth of detailed information that could help the structure-based drug design process. Proteins 2011; 79:1830-1840. (C) 2011 Wiley-Liss, Inc.
