Conserved water mediated recognition and the dynamics of active site Cys 331 and Tyr 411 in hydrated structure of human IMPDH‐II |
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| Authors: | Hridoy R Bairagya Bishnu P Mukhopadhyay Asim K Bera |
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| Institution: | 1. Department of Chemistry, National Institute of Technology‐Durgapur, West Bengal, Durgapur 713209, India;2. Center for Advanced Research in Biotechnology, Rockville, MD 20850, USA |
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| Abstract: | Inosine monophosphate dehydrogenase (IMPDH) of human is involved in GMP biosynthesis pathway, increased level of IMPDH‐II (an isoform of enzyme) activity have found in leukemic and sarcoma cells. Modeling and extensive molecular dynamics simulation (15 ns) studies of IMPDH‐II (1B3O PDB structure) have indicated the intricate involvement of four conserved water molecules (W 1, W 2, W 3, and W 4) in the conformational transition or the mobilities of “flap” (residues 400–450) and “loop” (residues 325–342) regions in enzyme. The stabilization of active site residues Asn 303, Gly 324, Ser 329, Cys 331, Asp 364, and Tyr 411 through variable H‐bonding coordination from the conserved water molecular center seems interesting in the uninhibited hydrated form of human IMPDH‐II structures. This conformational transition or the flexibility of mobile regions, water molecular recognition to active site residues Cys 331 and Tyr 411, and the presence of a hydrophilic cavity ~540 Å3 (enclaved by the loop and flap region) near the C‐terminal surface of this enzyme may explore a rational hope toward the water mimic inhibitor or anticancer agent design for human. Copyright © 2010 John Wiley & Sons, Ltd. |
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| Keywords: | conserved water molecules dynamics of loop and flap regions IMPDH‐II (human) recognition |
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