As part of Shenzhen's 13th Five-Year Plan funding research in emerging technologies and opening "Nobel laureate research labs",[11] in April 2017 he opened the Warshel Institute for Computational Biology at the Chinese University of Hong Kong, Shenzhen campus.[12]
Honors
Warshel is known for his work on computational biochemistry and biophysics, in particular for pioneering computer simulations of the functions of biological systems, and for developing what is known today as Computational Enzymology.[13]
He is a member of many scientific organisations, most importantly:
The Founders Award of the Biophysical Society (2014)[26]
The 2013 Israel Chemical Society Gold Medal (2014)[27]
Major research achievements
Arieh Warshel made major contributions in introducing computational methods for structure–function correlation of biological molecules, pioneering and co-pioneering programs, methods and key concepts for detailed computational studies of functional properties of biological molecules using Cartesian-basedforce field programs,[28][29] the combined Quantum Chemistry/Molecular mechanics (i.e., QM/MM) method for simulating enzymatic reactions,[30] the first molecular dynamics simulation of a biological process,[31][32] microscopic electrostatic models for proteins,[33]free energyperturbation in proteins[34] and other key advances. It was for the development of these methods that Warshel shared the 2013 Nobel Prize in Chemistry.
^Lifson S, Warshel A. (1968). "A Consistent Force Field for Calculation on Conformations, Vibrational Spectra and Enthalpies of Cycloalkanes and n-Alkane Molecules". J. Phys. Chem. 49 (11): 5116. doi:10.1063/1.1670007. S2CID43907015.
^Warshel A, Lifson S. (1970). "Consistent Force Field Calculations. II. Crystal Structure, Sublimation Energies, Molecular and Lattice Vibrations, Molecular Conformations and Enthalpies of Alkanes". J. Chem. Phys. 53 (2): 582. Bibcode:1970JChPh..53..582W. doi:10.1063/1.1674031.
^Warshel A, Levitt M (1976). "Theoretical Studies of Enzymatic Reactions: Dielectric Electrostatic and Steric Stabilization of the Carbonium Ion in the Reaction of Lysozyme". J. Mol. Biol. 103 (2): 227–249. doi:10.1016/0022-2836(76)90311-9. PMID985660.