DISTANCE CONSTRAINTS;
HELIX PACKING;
PROTEIN FOLDS;
TRANSMEMBRANE HELICES;
PROTEINS;
CROSS LINKING REAGENT;
MEMBRANE PROTEIN;
ALGORITHM;
ARTICLE;
CELL MEMBRANE;
CHEMISTRY;
ELECTRON SPIN RESONANCE;
FLUORESCENCE RESONANCE ENERGY TRANSFER;
PROTEIN FOLDING;
PROTEIN SECONDARY STRUCTURE;
PROTEIN TERTIARY STRUCTURE;
ALGORITHMS;
CELL MEMBRANE;
CROSS-LINKING REAGENTS;
ELECTRON SPIN RESONANCE SPECTROSCOPY;
FLUORESCENCE RESONANCE ENERGY TRANSFER;
MEMBRANE PROTEINS;
PROTEIN FOLDING;
PROTEIN STRUCTURE, SECONDARY;
PROTEIN STRUCTURE, TERTIARY;
Prediction of protein side-chain rotamers from a backbone-dependent rotamer library: A new homology modeling tool
M.J. Bower, F.E. Cohen, and R.L. Dunbrack Jr. Prediction of protein side-chain rotamers from a backbone-dependent rotamer library: a new homology modeling tool J. Mol. Biol. 267 1997 1268 1282
Constrained walks and self-avoiding walks: Implications for protein structure determination
J.L. Faulon, M.D. Rintoul, and M.M. Young Constrained walks and self-avoiding walks: implications for protein structure determination J. Phys. A Math. Gen. 35 2002 1 19
Exploring the conformational space of membrane protein folds matching distance constraints
J.L. Faulon, K. Sale, and M. Young Exploring the conformational space of membrane protein folds matching distance constraints Protein Sci. 12 2003 1750 1761
Optimal bundling of the transmembrane helices using sparse distance constraints
K. Sale, J.L. Faulon, G. Gray, J.S. Schoeniger, and M.M. Young Optimal bundling of the transmembrane helices using sparse distance constraints Protein Sci. 13 2004 2613 2627
Evaluating conformational free energies: The colony energy and its application to the problem of loop prediction
Z. Xiang, C.S. Soto, and B. Honig Evaluating conformational free energies: the colony energy and its application to the problem of loop prediction Proc. Natl. Acad. Sci. U.S.A. 99 2002 7432 7437