Protein structure prediction in 2002.

[1]  A. Godzik,et al.  Comparison of sequence profiles. Strategies for structural predictions using sequence information , 2008, Protein science : a publication of the Protein Society.

[2]  András Fiser,et al.  Molecular Biophysics , 2022 .

[3]  J Lundström,et al.  Pcons: A neural‐network–based consensus predictor that improves fold recognition , 2001, Protein science : a publication of the Protein Society.

[4]  I D Kuntz,et al.  Peter Andrew Kollman , 2001, Proteins.

[5]  E. Lattman A Tribute to Peter Kollman , 2001 .

[6]  V. Daggett,et al.  Long timescale simulations. , 2000, Current opinion in structural biology.

[7]  David C. Jones,et al.  GenTHREADER: an efficient and reliable protein fold recognition method for genomic sequences. , 1999, Journal of molecular biology.

[8]  P. Kraulis A program to produce both detailed and schematic plots of protein structures , 1991 .

[9]  Richard Bonneau,et al.  Rosetta in CASP4: Progress in ab initio protein structure prediction , 2001, Proteins.

[10]  M J Sippl,et al.  Assessment of the CASP4 fold recognition category , 2001, Proteins.

[11]  T. Hubbard,et al.  Critical assessment of methods of protein structure prediction (CASP)‐round V , 2003, Proteins.

[12]  J. Skolnick,et al.  Ab initio protein structure prediction via a combination of threading, lattice folding, clustering, and structure refinement , 2001, Proteins.

[13]  P Fariselli,et al.  Progress in predicting inter‐residue contacts of proteins with neural networks and correlated mutations , 2001, Proteins.

[14]  R Leplae,et al.  Analysis and assessment of comparative modeling predictions in CASP4 , 2001, Proteins.

[15]  C Venclovas,et al.  Comparison of performance in successive CASP experiments , 2001, Proteins.

[16]  Volker A. Eyrich,et al.  EVA: Large‐scale analysis of secondary structure prediction , 2001, Proteins.

[17]  K Karplus,et al.  What is the value added by human intervention in protein structure prediction? , 2001, Proteins.

[18]  A. Lesk,et al.  Assessment of novel fold targets in CASP4: Predictions of three‐dimensional structures, secondary structures, and interresidue contacts , 2001, Proteins.

[19]  A G Murzin,et al.  CASP2 knowledge‐based approach to distant homology recognition and fold prediction in CASP4 , 2001, Proteins.

[20]  David C. Jones Predicting novel protein folds by using FRAGFOLD , 2001, Proteins.

[21]  R B Russell,et al.  Fold recognition from sequence comparisons , 2001, Proteins.

[22]  Roland L. Dunbrack,et al.  CAFASP2: The second critical assessment of fully automated structure prediction methods , 2001, Proteins.

[23]  M J Sternberg,et al.  Enhancement of protein modeling by human intervention in applying the automatic programs 3D‐JIGSAW and 3D‐PSSM , 2001, Proteins.

[24]  D Fischer,et al.  LiveBench‐2: Large‐scale automated evaluation of protein structure prediction servers , 2001, Proteins.

[25]  C Venclovas,et al.  Comparative modeling of CASP4 target proteins: Combining results of sequence search with three‐dimensional structure assessment , 2001, Proteins.

[26]  A M Lesk,et al.  CASP2: Report on ab initio predictions , 1997, Proteins.

[27]  Gapped BLAST and PSI-BLAST: A new , 1997 .