Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Ma, Buyong
Tsai, Chung-Jung
and
Nussinov, Ruth
2000.
A Systematic Study of the Vibrational Free Energies of Polypeptides in Folded and Random States.
Biophysical Journal,
Vol. 79,
Issue. 5,
p.
2739.
Derreumaux, Philippe
2000.
Generating Ensemble Averages for Small Proteins from Extended Conformations by Monte Carlo Simulations.
Physical Review Letters,
Vol. 85,
Issue. 1,
p.
206.
2000.
Chemistry for the 21st Century.
p.
89.
Derreumaux, Philippe
2000.
Predicting helical hairpins from sequences by Monte Carlo simulations.
Journal of Computational Chemistry,
Vol. 21,
Issue. 7,
p.
582.
Irbäck, Anders
Sjunnesson, Fredrik
and
Wallin, Stefan
2000.
Three-helix-bundle protein in a Ramachandran model.
Proceedings of the National Academy of Sciences,
Vol. 97,
Issue. 25,
p.
13614.
Bonneau, Richard
and
Baker, David
2001.
Ab Initio Protein Structure Prediction: Progress and Prospects.
Annual Review of Biophysics and Biomolecular Structure,
Vol. 30,
Issue. 1,
p.
173.
Lee, M.R
Duan, Y
and
Kollman, P.A
2001.
State of the art in studying protein folding and protein structure prediction using molecular dynamics methods.
Journal of Molecular Graphics and Modelling,
Vol. 19,
Issue. 1,
p.
146.
Liu, Yongxing
and
Beveridge, D. L.
2002.
Exploratory studies of ab initio protein structure prediction: Multiple copy simulated annealing, AMBER energy functions, and a generalized born/solvent accessibility solvation model.
Proteins: Structure, Function, and Bioinformatics,
Vol. 46,
Issue. 1,
p.
128.
Ball, Keith D.
Erman, Burak
and
Dill, Ken A.
2002.
The elastic net algorithm and protein structure prediction.
Journal of Computational Chemistry,
Vol. 23,
Issue. 1,
p.
77.
Narang, Pooja
Bhushan, Kumkum
Bose, Surojit
and
Jayaram, B.
2005.
A computational pathway for bracketing native-like structures for small alpha helical globular proteins.
Physical Chemistry Chemical Physics,
Vol. 7,
Issue. 11,
p.
2364.
Elser, Veit
and
Rankenburg, Ivan
2006.
Deconstructing the energy landscape: Constraint-based algorithms for folding heteropolymers.
Physical Review E,
Vol. 73,
Issue. 2,
Prabhakaran, Panchami
Kale, Sangram S.
Puranik, Vedavati G.
Rajamohanan, P. R.
Chetina, Olga
Howard, Judith A. K.
Hofmann, Hans-Jörg
and
Sanjayan, Gangadhar J.
2008.
Sequence-Specific Unusual (1→2)-Type Helical Turns in α/β-Hybrid Peptides.
Journal of the American Chemical Society,
Vol. 130,
Issue. 52,
p.
17743.
Maupetit, J.
Derreumaux, P.
and
Tuffery, P.
2009.
PEP-FOLD: an online resource for de novo peptide structure prediction.
Nucleic Acids Research,
Vol. 37,
Issue. Web Server,
p.
W498.
Shehu, Amarda
2010.
Introduction to Protein Structure Prediction.
p.
431.
Maupetit, Julien
Derreumaux, Philippe
and
Tufféry, Pierre
2010.
A fast method for large‐scale De Novo peptide and miniprotein structure prediction.
Journal of Computational Chemistry,
Vol. 31,
Issue. 4,
p.
726.
Thévenet, Pierre
Rey, Julien
Moroy, Gautier
and
Tuffery, Pierre
2015.
Computational Peptidology.
Vol. 1268,
Issue. ,
p.
1.
Shehu, Amarda
2015.
Computer-Aided Drug Discovery.
p.
31.
Singh, Sandeep
Singh, Harinder
Tuknait, Abhishek
Chaudhary, Kumardeep
Singh, Balvinder
Kumaran, S.
and
Raghava, Gajendra P. S.
2015.
PEPstrMOD: structure prediction of peptides containing natural, non-natural and modified residues.
Biology Direct,
Vol. 10,
Issue. 1,
Timmons, Patrick Brendan
and
Hewage, Chandralal M
2021.
APPTEST is a novel protocol for the automatic prediction of peptide tertiary structures.
Briefings in Bioinformatics,
Vol. 22,
Issue. 6,
Iglesias, Valentín
Bárcenas, Oriol
Pintado‐Grima, Carlos
Burdukiewicz, Michał
and
Ventura, Salvador
2024.
Structural information in therapeutic peptides: Emerging applications in biomedicine.
FEBS Open Bio,