Evolutionary trace annotation of protein function in the structural proteome.
about
A large-scale evaluation of computational protein function predictionProteins and Their Interacting Partners: An Introduction to Protein-Ligand Binding Site Prediction MethodsThe use of evolutionary patterns in protein annotationProtein function prediction: towards integration of similarity metrics.Accurate protein structure annotation through competitive diffusion of enzymatic functions over a network of local evolutionary similaritiesCLIPS-1D: analysis of multiple sequence alignments to deduce for residue-positions a role in catalysis, ligand-binding, or protein structureFunction prediction from networks of local evolutionary similarity in protein structurePrediction and experimental validation of enzyme substrate specificity in protein structures.Abstracting knowledge from the Protein Data Bank.PyETV: a PyMOL evolutionary trace viewer to analyze functional site predictions in protein complexes.Evolution-guided discovery and recoding of allosteric pathway specificity determinants in psychoactive bioamine receptors.Optimizing structural modeling for a specific protein scaffold: knottins or inhibitor cystine knots.Networks of high mutual information define the structural proximity of catalytic sites: implications for catalytic residue identification.Evolution: a guide to perturb protein function and networksExploring functionally related enzymes using radially distributed properties of active sites around the reacting points of bound ligandsSequence and structure continuity of evolutionary importance improves protein functional site discovery and annotation.A formal perturbation equation between genotype and phenotype determines the Evolutionary Action of protein-coding variations on fitness.FINDSITE-metal: integrating evolutionary information and machine learning for structure-based metal-binding site prediction at the proteome level.Evolutionary Action Score of TP53 Identifies High-Risk Mutations Associated with Decreased Survival and Increased Distant Metastases in Head and Neck Cancer.Statistical discovery of site inter-dependencies in sub-molecular hierarchical protein structuringAre predicted protein structures of any value for binding site prediction and virtual ligand screening?Evolutionary trace for prediction and redesign of protein functional sites.Accounting for epistatic interactions improves the functional analysis of protein structures.Objective assessment of the evolutionary action equation for the fitness effect of missense mutations across CAGI-blinded contests.Characterization of Chitosan Nanofiber Sheets for Antifungal Application.Structure-based functional inference of hypothetical proteins from Mycoplasma hyopneumoniae.Evolutionary action and structural basis of the allosteric switch controlling β2AR functional selectivity.
P2860
Q24614831-37812A79-559F-4BFD-B1DB-2A4562B7B873Q26773424-045AC152-458B-44FD-A8C3-CCE40E0F91F6Q27027251-C880B7FB-D270-4C7E-9860-5C6366DF3C85Q27687386-19D1ABAD-A181-4EC3-8F7A-93FF8A92C44AQ28476497-5F254E5F-0924-40DF-A443-BEB18034706BQ30415096-96DEDB55-0AB1-4012-AD0D-9F97DB9F30CAQ30428524-9907CAE0-DF4E-4448-8D10-A62E6BED57F5Q30557389-4605C73F-E038-4A31-A51C-CA8FD52698F2Q30571367-A0D20027-2ADC-41C5-B929-4CE882324F77Q30990063-6F4314DF-09BE-4EA0-B83B-CBFD6C47E56FQ33348925-60395B71-AE06-4BBE-8710-BF4B895532D7Q33732145-953C7E39-3EC6-4A40-9F71-1014874F1AD5Q33747465-7152CDA3-27F3-4D64-804C-FC8D85D25CD9Q34047786-517CC6D2-7B11-43D9-B8BB-A313ED185C83Q34247725-7BD795AD-E946-4885-8282-1C4EC0C39179Q34283516-3D76000A-71D3-445B-9CA0-746E38DD98A6Q34590485-D31B4A79-4231-44CE-96B7-EA178E00AA16Q34694427-BCC3ED8F-BB08-4670-B5D3-F82579A47E4FQ35251779-A4160B2D-EC87-429A-9D26-9FD28B567807Q36473971-15288DF5-EEBA-4BD5-B722-C1159591F28EQ36859642-A14676C0-DE82-40F2-AD4E-AAE7641BCBD8Q36967996-F9E1A0E6-718F-4588-A4B7-F02E0EE21C83Q37236875-9B0F23C2-063D-490C-BD01-906D916B5BCBQ38764158-D56B231A-DD6C-4F2D-B0B8-6DBD3C13F82FQ40352901-081AC714-0861-4D71-A52A-7F0C4D85D400Q42141891-3D923E1A-0901-41A1-B511-5513A9BF8E39Q47163312-4D5470EA-9D6C-406B-84ED-3738D8A45BEB
P2860
Evolutionary trace annotation of protein function in the structural proteome.
description
2009 nî lūn-bûn
@nan
2009 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Evolutionary trace annotation of protein function in the structural proteome.
@ast
Evolutionary trace annotation of protein function in the structural proteome.
@en
type
label
Evolutionary trace annotation of protein function in the structural proteome.
@ast
Evolutionary trace annotation of protein function in the structural proteome.
@en
prefLabel
Evolutionary trace annotation of protein function in the structural proteome.
@ast
Evolutionary trace annotation of protein function in the structural proteome.
@en
P2860
P1476
Evolutionary trace annotation of protein function in the structural proteome.
@en
P2093
Eric Venner
R Matthew Ward
P2860
P304
P356
10.1016/J.JMB.2009.12.037
P407
P577
2009-12-28T00:00:00Z