SummaryProtein template identification is essential to protein structure and function predictions. However, conventional whole-chain threading approaches often fail to recognize conserved substructure motifs when the target and templates do not share the same fold. We developed a new approach, SEGMER, for identifying protein substructure similarities by segmental threading. The target sequence is split into segments of two to four consecutive or nonconsecutive secondary structural elements, which are then threaded through PDB to identify appropriate substructure motifs. SEGMER is tested on 144 nonredundant hard proteins. When combined with whole-chain threading, the TM-score of alignments and accuracy of spatial restraints of SEGMER increas...
AbstractDuring the last decade, significant progress has been made in solving the Protein Threading ...
Computational recognition of native-like folds from a protein fold database is considered to be a pr...
To exploit the vast amount of sequence information provided by the Genomic revolution, the biologica...
SummaryProtein template identification is essential to protein structure and function predictions. H...
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
Protein threading is widely used in the prediction of protein structure and the subsequent functiona...
Protein structures provide keys to deep understanding of biological problems and applicable research...
ABSTRACT We present an analysis of 10 blind predictions prepared for a recent confer-ence, “Critical...
AbstractStructurally conserved regions or structural templates have been identified and examined for...
ABSTRACT: We present a comprehensive analysis of methods for improving the fold recognition rate of ...
Successful fold recognition can be readily achieved by current homology detection methods if there e...
Analysis of our fold recognition results in the 3rd Critical Assessment in Structure Prediction (CAS...
The development of human genome project calls for more rapid and accurate protein structure predicti...
SummaryThe total number of protein-protein complex structures currently available in the Protein Dat...
Motivation: Protein fold recognition when appropriate, evolutionarily-related, structural templates ...
AbstractDuring the last decade, significant progress has been made in solving the Protein Threading ...
Computational recognition of native-like folds from a protein fold database is considered to be a pr...
To exploit the vast amount of sequence information provided by the Genomic revolution, the biologica...
SummaryProtein template identification is essential to protein structure and function predictions. H...
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
Protein threading is widely used in the prediction of protein structure and the subsequent functiona...
Protein structures provide keys to deep understanding of biological problems and applicable research...
ABSTRACT We present an analysis of 10 blind predictions prepared for a recent confer-ence, “Critical...
AbstractStructurally conserved regions or structural templates have been identified and examined for...
ABSTRACT: We present a comprehensive analysis of methods for improving the fold recognition rate of ...
Successful fold recognition can be readily achieved by current homology detection methods if there e...
Analysis of our fold recognition results in the 3rd Critical Assessment in Structure Prediction (CAS...
The development of human genome project calls for more rapid and accurate protein structure predicti...
SummaryThe total number of protein-protein complex structures currently available in the Protein Dat...
Motivation: Protein fold recognition when appropriate, evolutionarily-related, structural templates ...
AbstractDuring the last decade, significant progress has been made in solving the Protein Threading ...
Computational recognition of native-like folds from a protein fold database is considered to be a pr...
To exploit the vast amount of sequence information provided by the Genomic revolution, the biologica...