Bayer / CRC Press / Oak Ridge National Laboratory / O4 / Creative Commons / /
Country
United States / / /
Facility
University of Tennessee / BioEnergy Science Center / University of Tennessee/Oak Ridge National Laboratory Center / University Paris Diderot-Paris / CelS complex / Michaelis complex / /
IndustryTerm
active site / conserved active-site / molecular dynamics free energy trajectories / continuous chain / free-energy calculations / free energy estimates using nonBoltzmann sampling / Minimum-energy pathways / free energy perturbation approach / conformational free energy landscape / gas phase protonation / free energy profiles / biotechnology / minimum energy paths / free energy stable product state / low dimensional free-energy landscape / free energy profile / chemical reaction step / free energy calculation / potential-energy surfaces / trial systems / chemical mechanistic work / reaction products / renewable energy research / calculated free energy profile / energy-minimum pathway / exhaustive search / energy difference / simulation protocol / molecular systems / minimum-energy pathway / energy / low-energy reaction path / minimum energy pathway / calculated energy difference / The free energy profile / free-energy profile / free-energy difference / free energy barrier starting / minimum energy pathways / potential energy / calculated activation free energy / energy calculation / high energy / potential energy surface / free energy landscape / high energy barrier / gas phase / free-energy minima / macromolecular energy / /
Organization
Department of Biochemistry and Cellular / National Science Foundation / office of Biological and Environmental Research / BioEnergy Science Center / University of Tennessee / U.S. Department of Energy Bioenergy Research Center / of Energy Bioenergy Research Center / University of Tennessee / Knoxville / DOE office of Science / /
Person
Theo Comput Chem / Aca Sci / David Wu / Hao-Bo Guo / Fernando Rodrigues-Lima / /
Position
original author / Editor / Walker / General / Author / chair / /
Product
Cowon D2+ Portable Audio Device / /
ProvinceOrState
CelS / Tennessee / /
PublishedMedium
Environmental Research / PLoS ONE / the PLoS ONE / Molecular Biology / /
Catalytic Mechanism of Cellulose Degradation by a Cellobiohydrolase, CelS Moumita Saharay1, Hong Guo1,2, Jeremy C. Smith1,2* 1 University of Tennessee/Oak Ridge National Laboratory Center for Molecular Biophysics, Oak Ri