Add to ORKGWe present the INTREPID web server for predicting functionally important residues in proteins. INTREPID has been shown to boost the recall and precision of catalytic residue prediction over other sequence-based methods and can be used to identify other types of functional residues. The web server takes an input protein sequence, gathers homologs, constructs a multiple sequence alignment and phylogenetic tree and finally runs the INTREPID method to assign a score to each position. Residues predicted to be functionally important are displayed on homologous 3D structures (where available), highlighting spatial patterns of conservation at various significance thresholds. The INTREPID web server is available at http://phylogenomics.berkeley.edu/...
A common goal in molecular biology is to identify functional amino acid residues within a protein. T...
Structural genomics projects are determining the three-dimensional structure of proteins without ful...
Summary: We recently developed algorithmic tools for the identification of functionally important re...
We present the INTREPID web server for predicting functionally important residues in proteins. INTRE...
Motivation: Identification of functionally important residues in prote-ins plays a significant role ...
A protein's function depends on functional residues that determine its binding specificity or its ca...
Background: Amino acids responsible for structure, core function or specificity may be inferred from...
Information on the co-evolution of amino acid pairs in a protein can be used for endeavors such as p...
Proteins usetheir functional regions to exploit various activities, including binding to other prote...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Abstract Background A large panel of methods exists that aim to identify residues with critical impa...
Motivation: The identification of catalytic residues is a key step in understanding the function of ...
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...
MotivationThe identification of catalytic residues is a key step in understanding the function of en...
A common goal in molecular biology is to identify functional amino acid residues within a protein. T...
Structural genomics projects are determining the three-dimensional structure of proteins without ful...
Summary: We recently developed algorithmic tools for the identification of functionally important re...
We present the INTREPID web server for predicting functionally important residues in proteins. INTRE...
Motivation: Identification of functionally important residues in prote-ins plays a significant role ...
A protein's function depends on functional residues that determine its binding specificity or its ca...
Background: Amino acids responsible for structure, core function or specificity may be inferred from...
Information on the co-evolution of amino acid pairs in a protein can be used for endeavors such as p...
Proteins usetheir functional regions to exploit various activities, including binding to other prote...
Motivation: The prediction of ligand-binding residues or catalytically active residues of a protein ...
Abstract Background A large panel of methods exists that aim to identify residues with critical impa...
Motivation: The identification of catalytic residues is a key step in understanding the function of ...
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...
MotivationThe identification of catalytic residues is a key step in understanding the function of en...
A common goal in molecular biology is to identify functional amino acid residues within a protein. T...
Structural genomics projects are determining the three-dimensional structure of proteins without ful...
Summary: We recently developed algorithmic tools for the identification of functionally important re...