NMR offers the possibility of accurate secondary structure for proteins that would be too large for structure determination. In the absence of an X- ray crystal structure, this information should be useful as an adjunct to protein fold recognition methods based on low resolution force fields. The value of this information has been tested by adding varying amounts of artificial secondary structure data and threading a sequence through a library of candidate folds. Using a literature test set, the threading method alone has only a one-third chance of producing a correct answer among the top ten guesses. With realistic secondary structure information, one can expect a 60-80% chance of finding a homologous structure. The method has then been ap...
For more than a decade, the Joint Center for Structural Genomics (JCSG; www.jcsg.org) worked toward ...
We present a protein fold recognition method, MANIFOLD, which uses the similarity between target and...
The past year has seen a consolidation of protein secondary structure prediction methods. The advant...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
A method for finding protein folds consistent with secondary structure assignments and imposed exper...
It is well known that the NMR method for protein structure determination applies to small proteins a...
The prediction experiment reveals that fold recognition has become a powerful tool in structural bio...
Sequence alignment techniques have been developed into extremely powerful tools for identifying the ...
Analysis of our fold recognition results in the 3rd Critical Assessment in Structure Prediction (CAS...
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
Advances in hardware, sample preparation, pulse sequence development and refinement techniques have ...
Motivation: The number of protein families has been estimated to be as small as 1000. Recent study s...
In the time of structural proteomics when protein structures are targeted on a genome-wide scale, th...
Fold recognition, or threading, is a popular protein structure modeling approach that uses known str...
For more than a decade, the Joint Center for Structural Genomics (JCSG; www.jcsg.org) worked toward ...
We present a protein fold recognition method, MANIFOLD, which uses the similarity between target and...
The past year has seen a consolidation of protein secondary structure prediction methods. The advant...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
A strategy is presented for protein fold recognition from secondary structure assignments (alpha-hel...
A method for finding protein folds consistent with secondary structure assignments and imposed exper...
It is well known that the NMR method for protein structure determination applies to small proteins a...
The prediction experiment reveals that fold recognition has become a powerful tool in structural bio...
Sequence alignment techniques have been developed into extremely powerful tools for identifying the ...
Analysis of our fold recognition results in the 3rd Critical Assessment in Structure Prediction (CAS...
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
Advances in hardware, sample preparation, pulse sequence development and refinement techniques have ...
Motivation: The number of protein families has been estimated to be as small as 1000. Recent study s...
In the time of structural proteomics when protein structures are targeted on a genome-wide scale, th...
Fold recognition, or threading, is a popular protein structure modeling approach that uses known str...
For more than a decade, the Joint Center for Structural Genomics (JCSG; www.jcsg.org) worked toward ...
We present a protein fold recognition method, MANIFOLD, which uses the similarity between target and...
The past year has seen a consolidation of protein secondary structure prediction methods. The advant...