Add to ORKGA common goal in molecular biology is to identify functional amino acid residues within a protein. This goal is primarily achieved in bioinformatics by basing functional assignments of residues on the relative conservation of those residues within the protein’s family. An assumption is made that functional residues evolve more slowly than less functional residues, so that functional residues ar
MOTIVATION: ConSeq is a web server for the identification of biologically important residues in prot...
Motivation: All residues in a protein are not equally important. Some are essential for the proper s...
We present the INTREPID web server for predicting functionally important residues in proteins. INTRE...
A protein's function depends on functional residues that determine its binding specificity or its ca...
Sequence analysis is often the first guide for the prediction of residues in a protein family that m...
With the availability of a large number of complete genome sequences, it has become essential to ann...
Protein function prediction from amino-acid sequences is one of the major tasks in genome informatic...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Background: Amino acids responsible for structure, core function or specificity may be inferred from...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Motivation: Within a homologous protein family, proteins may be grouped into subtypes that share spe...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Certain amino acid residues in a protein, when mutated, change the protein's function. We present an...
Certain amino acid residues in a protein, when mutated, change the protein’s function. We present an...
Certain amino acid residues in a protein, when mutated, change the protein’s function. We present an...
MOTIVATION: ConSeq is a web server for the identification of biologically important residues in prot...
Motivation: All residues in a protein are not equally important. Some are essential for the proper s...
We present the INTREPID web server for predicting functionally important residues in proteins. INTRE...
A protein's function depends on functional residues that determine its binding specificity or its ca...
Sequence analysis is often the first guide for the prediction of residues in a protein family that m...
With the availability of a large number of complete genome sequences, it has become essential to ann...
Protein function prediction from amino-acid sequences is one of the major tasks in genome informatic...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Background: Amino acids responsible for structure, core function or specificity may be inferred from...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Motivation: Within a homologous protein family, proteins may be grouped into subtypes that share spe...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Certain amino acid residues in a protein, when mutated, change the protein's function. We present an...
Certain amino acid residues in a protein, when mutated, change the protein’s function. We present an...
Certain amino acid residues in a protein, when mutated, change the protein’s function. We present an...
MOTIVATION: ConSeq is a web server for the identification of biologically important residues in prot...
Motivation: All residues in a protein are not equally important. Some are essential for the proper s...
We present the INTREPID web server for predicting functionally important residues in proteins. INTRE...