The results of applying a fragment-based protein tertiary structure prediction method to the prediction of 14 CASP5 target domains are described. The method is based on the assembly of supersecondary structural fragments taken from highly resolved protein structures using a simulated annealing algorithm. A number of good predictions for proteins with novel folds were produced, although not always as the first model. For two fold recognition targets, FRAGFOLD produced the most accurate model in both cases, despite the fact that the predictions were not based on a template structure. Although clear progress has been made in improving FRAGFOLD since CASP4, the ranking of final models still seems to be the main problem that needs to be addresse...
A simple approach to protein tertiary structure prediction is described, based on the assembly of re...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
We describe an approach for predicting protein folding pathways and tertiary structure from a primar...
ABSTRACT To predict the tertiary structure of full-length sequences of all targets inCASP6, regard-l...
In recent years, the protein structure prediction problem has come under extensive investigation, an...
Analysis of our fold recognition results in the 3rd Critical Assessment in Structure Prediction (CAS...
Abstract—Proteins consist of sequences of amino acids that fold into 3-dimensional structures. The 3...
Despite some limited success, computational biology has not been able to produce reliable results i...
ABSTRACT A combination of sequence com-parison, threading, lattice, and off-lattice Monte Carlo (MC)...
This report summarizes the Critical Assessment of Protein Structure Prediction (CASP5) target protei...
The prediction of protein tertiary structure from primary structure remains a challenging task. One ...
The results of tertiary structure assessment at CASP15 are reported. For the first time, recognizing...
Proteins are composed of linear chains of amino acids that form a unique three-dimensional structure...
The use of fragment libraries is a popular approach among protein structure prediction methods and h...
Fragment-based approaches are the current standard for de novo protein structure prediction. These...
A simple approach to protein tertiary structure prediction is described, based on the assembly of re...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
We describe an approach for predicting protein folding pathways and tertiary structure from a primar...
ABSTRACT To predict the tertiary structure of full-length sequences of all targets inCASP6, regard-l...
In recent years, the protein structure prediction problem has come under extensive investigation, an...
Analysis of our fold recognition results in the 3rd Critical Assessment in Structure Prediction (CAS...
Abstract—Proteins consist of sequences of amino acids that fold into 3-dimensional structures. The 3...
Despite some limited success, computational biology has not been able to produce reliable results i...
ABSTRACT A combination of sequence com-parison, threading, lattice, and off-lattice Monte Carlo (MC)...
This report summarizes the Critical Assessment of Protein Structure Prediction (CASP5) target protei...
The prediction of protein tertiary structure from primary structure remains a challenging task. One ...
The results of tertiary structure assessment at CASP15 are reported. For the first time, recognizing...
Proteins are composed of linear chains of amino acids that form a unique three-dimensional structure...
The use of fragment libraries is a popular approach among protein structure prediction methods and h...
Fragment-based approaches are the current standard for de novo protein structure prediction. These...
A simple approach to protein tertiary structure prediction is described, based on the assembly of re...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
We describe an approach for predicting protein folding pathways and tertiary structure from a primar...