Home
Research
SHS
Group
Publications
News
Events
Resources
Search
Menu Menu

A perspective on enzyme catalysis

January 15, 2015/in Publications /by admin

58. S. J. Benkovic and S. Hammes-Schiffer, “A perspective on enzyme catalysis,” Science 301, 1196-1202 (2003).

Tags: enzyme catalysis

Share this entry

Share on Facebook
Share on Twitter
Share on WhatsApp
Share on Pinterest
Share on LinkedIn
Share on Tumblr
Share on Vk
Share on Reddit
Share by Mail

/wp-content/uploads/2017/10/blank-box.png 0 0 admin /wp-content/uploads/2017/10/blank-box.png admin2015-01-15 21:15:412015-01-15 21:15:41A perspective on enzyme catalysis

You might also like

Catalysis by design: The power of theory

Network of coupled promoting motions in enzyme catalysis

Perspectives on electrostatics and conformational motions in enzyme catalysis

Flexibility, diversity, and cooperativity: Pillars of enzyme catalysis

Free energy landscape of enzyme catalysis

GlcN6P cofactor serves multiple catalytic roles in the glmS ribozyme

Coupled motions in enzyme catalysis

Location

Contact

Sharon Hammes-Schiffer
John Gamble Kirkwood Professor of Chemistry
Sterling Chemistry Lab, Rm 178
Department of Chemistry
Yale University
225 Prospect Street, PO Box 208107
New Haven, CT 06520-8107
Phone: (203) 436-3936
e-mail: sharon.hammes-schiffer@yale.edu

Collaborative Centers

CCI Solar - an NSF Center for Innovation in Solar Fuels

Center for Molecular Electrocatalysis (CME), a DOE Energy Frontier Research Center

Argone-Northwestern Solar Energy Research (ANSER) Center, a DOE Energy Frontier Research Center

Tags in Publications

[FeFe]-hydrogenase models [NiFe]-hydrogenase models BLUF catalysis coupled motions Density functional theory treatment Dihydrofolate reductase DNA DNA polymerase electron transfer Electron-proton correlation electrostatics enzyme catalysis Escherichia coli Hartree-Fock HDV ribozyme hydride transfer hydrogen atom transfer hydrogen bonding hydrogen evolution hydrogen tunneling inverted region behavior Ketosteroid Isomerase kinetic isotope effect Liver alcohol dehydrogenase metal ion molecular dynamics molecular electrocatalysts multicomponent density functional theory Nonadiabatic dynamics nonadiabaticity Nuclear quantum effects nuclear-electronic orbital photoinduced proton-coupled electron transfer protein motion proton relays Proton transfer proton-coupled electron transfer QM/MM reorganization energies ribozyme solvent dynamics Soybean lipoxygenase Surface hopping Vibrational analysis

© Copyright - Hammes-Schiffer Research Group. Site by Academic Web Pages

Vibrational analysis for the nuclear-electronic orbital method Molecular dynamics with quantum transitions for proton transfer: Quantum treatment...