Louisiana State UniVersity / Supercomputing Institute / Arrhenius Institute / UniVersity of Minnesota / V. Arch / ATP complex / Stockholm University / / /
IndustryTerm
active site / biotin carboxyl carrier protein / web-based tool / biotin carboxylase dimer interface communications / analogous network / nucleotide binding site / metal force field / active-site / phosphate binding site / magnesium binding site / metal ions / activesite metal ions / energy / energy storage / metal binding / metal binding pocket / protein-metal interactions / carboxylate / solvation energy / energy analyses / /
Movie
A. D. / /
Organization
Stockholm University / Department of Biophysics / UniVersity of Minnesota / Minneapolis / DiVision of Biochemistry and Molecular Biology / Biotin Carboxylase Sten O. Nilsson Lill / * / † Jiali Gao / † and Grover L. Waldrop‡ Department of Chemistry / Louisiana State UniVersity / Arrhenius Institute / Chemistry and Supercomputing Institute / /
Person
Sloane / V / Nixon / / /
Position
D. J. / Painter / /
Product
M-113 / /
ProgrammingLanguage
R / /
ProvinceOrState
Minnesota / Louisiana / British Columbia / /
PublishedMedium
Molecular Biology / /
Technology
directed mutagenesis / Computational Chemistry / Drug DiscoVery / dielectric / drug design / simulation / /
J. Phys. Chem. B 2008, 112, [removed]Molecular Dynamics Simulations of Biotin Carboxylase Sten O. Nilsson Lill,*,† Jiali Gao,† and Grover L. Waldrop‡