about
Solution structure of the Equine Infectious Anemia Virus p9 protein: a rationalization of its different ALIX binding requirements compared to the analogous HIV-p6 proteinStructural Insight into Unique Cardiac Myosin-binding Protein-C Motif: A PARTIALLY FOLDED DOMAINUnderstanding pyrroline-5-carboxylate synthetase deficiency: clinical, molecular, functional, and expression studies, structure-based analysis, and novel therapy with argininePrediction of cell penetrating peptides by support vector machinesModeling of the potential coiled-coil structure of snapin protein and its interaction with SNARE complex.Virtual screening on an α-helix to β-strand switchable region of the FGFR2 extracellular domain revealed positive and negative modulators.Quality assessment of modeled protein structure using physicochemical properties.In silico design of fusion protein of FimH from uropathogenic Escherichia coli and MrpH from Proteus mirabilis against urinary tract infectionsProtein secondary structure prediction using a small training set (compact model) combined with a Complex-valued neural network approach.Where the Name "GOR" Originates: A Story.Predicting Protein Secondary Structure Using Consensus Data Mining (CDM) Based on Empirical Statistics and Evolutionary Information.The MULTICOM toolbox for protein structure predictionThe T=1 capsid protein of Penicillium chrysogenum virus is formed by a repeated helix-rich core indicative of gene duplication.A Consensus Data Mining secondary structure prediction by combining GOR V and Fragment Database Mining.Consensus Data Mining (CDM) Protein Secondary Structure Prediction Server: combining GOR V and Fragment Database Mining (FDM)Complete regression and systemic protective immune responses obtained in B16 melanomas after treatment with LTX-315.Methylation and in vivo expression of the surface-exposed Leptospira interrogans outer-membrane protein OmpL32.Distributions of amino acids suggest that certain residue types more effectively determine protein secondary structure.Discordant and chameleon sequences: their distribution and implications for amyloidogenicity.Multiple intrinsically disordered sequences alter DNA binding by the homeodomain of the Drosophila hox protein ultrabithoraxIn silico analysis for identifying potential vaccine candidates against Staphylococcus aureus.Killer bee molecules: antimicrobial peptides as effector molecules to target sporogonic stages of PlasmodiumFunctional analysis of the carboxy-terminal region of Bacillus subtilis TnrA, a MerR family protein.An In silico Chimeric Vaccine Targeting Breast Cancer Containing Inherent AdjuvantProbing the Mec1ATR Checkpoint Activation Mechanism with Small Peptides.A potent multivalent vaccine for modulation of immune system in atherosclerosis: an in silico approachIn silico analysis of Brucella abortus Omp2b and in vitro expression of SOmp2b.In Silico Design of a Chimeric Protein Containing Antigenic Fragments of Helicobacter pylori; A Bioinformatic Approach.Dimeric and Trimeric Fusion Proteins Generated with Fimbrial Adhesins of Uropathogenic Escherichia coli.Definition of the native and denatured type II collagen binding site for fibronectin using a recombinant collagen system.In silico analysis of chimeric TF, Omp31 and BP26 fragments of Brucella melitensis for development of a multi subunit vaccine candidate.Functional role of the intracellular loop linking transmembrane domains 6 and 7 of the human dipeptide transporter hPEPT1The Relation Between Thermodynamic and Structural Properties and Cellular Uptake of Peptides Containing Tryptophan and Arginine.Bhageerath: an energy based web enabled computer software suite for limiting the search space of tertiary structures of small globular proteins.Plasticity in the Oxidative Folding Pathway of the High Affinity Nerita Versicolor Carboxypeptidase Inhibitor (NvCI).Protection of mice against Staphylococcus aureus infection by a recombinant protein ClfA-IsdB-Hlg as a vaccine candidate.Modulation of domain-domain interaction and protein function by a charged linker: a case study of mycobacteriophage D29 endolysin.In silico analysis of Shiga toxins (Stxs) to identify new potential vaccine targets for Shiga toxin-producing Escherichia coli.The N-Terminal Amphipathic Helix of Endophilin Does Not Contribute to Its Molecular Curvature Generation Capacity.Design and characterization of a chimeric multiepitope construct containing CfaB, heat-stable toxoid, CssA, CssB, and heat-labile toxin subunit B of enterotoxigenic Escherichia coli: a bioinformatic approach.
P2860
Q27658675-18462852-38CB-4562-92E8-18AA014C7E0CQ27676683-22ED5664-0C49-4833-8D4C-E96364DD8176Q28255463-8DB42F92-020A-43EA-B1A7-19595D4A7D3CQ28479013-B2817842-CA6B-4C29-B983-CC21D1EB8127Q30362639-C5DF849A-9F31-4836-8264-637C80AE4D2FQ30365357-D980EFA4-12F4-4EE8-BA69-D769D7184B2BQ30369971-59462459-DE8D-43E9-AE90-DFFE6F63268BQ30381843-817A4228-C62C-45A5-9506-DE8A50D6CAE4Q30392787-809D52AB-85A4-4197-BC4B-56B5B66B94A7Q30394561-D16021A1-1284-4592-A0DB-4913946ACE63Q30394564-35914079-48EE-4D5F-8180-4CE7A025CC03Q30416170-0989E0F3-3ACC-4F27-997F-44D158965972Q30495312-A77C232A-9A87-4C36-9281-20288749C282Q31062302-1490E49F-24C8-4C32-A022-C9F0FB0739E5Q31120036-677DA1F2-6741-40A7-88BC-F54279A0ADE4Q33624296-299C4C86-05A8-4B24-8AFD-EC66FC36015BQ34102621-7F15B88A-306B-4E98-BA41-EE5527DE4F56Q34178185-51A97F20-7366-41BD-BF26-4551450CA842Q34724075-A3AC8368-660F-47C7-B808-675E22201F74Q34782212-1664E974-163E-4DE5-B66B-5242B74070E3Q35035639-5899CF00-27FD-4396-9458-A719D687D348Q35053052-D5A031DB-AD28-4E19-90EA-387EB3DBAF17Q35634225-DEF8D5A6-29DB-42DF-896A-CEA41D7027AFQ36088818-C8FB8570-CA7A-4D99-BED9-B8CF1E00ACB6Q36419279-EDFA22C0-DDEC-4349-A215-C29AC16A9C01Q36547962-B56962DA-DE69-4F3E-8A62-DAAB1FBC3952Q36547983-7CCE71BB-A754-4730-B2D8-0262B9608686Q36985387-09C36607-D05F-4E75-8AEA-F4648758A22EQ37379982-33E4BFB7-C68B-496E-884A-64CEA06AC448Q37596348-B26060E1-AC83-456F-8783-3DA7DE71F2FFQ39461733-9948DB46-B054-4717-962C-E79EAD3DD9AAQ39628283-93DB6D43-1EAA-4019-B692-F3B66AB00190Q40666814-7F92D7F5-A537-4907-A461-6C8A6E99B7BAQ40899626-1D44D603-448A-41BC-BF59-D90460061511Q41020151-228D591C-D7AB-4240-892D-C6152C2A7996Q41117685-2D6591B4-BBEE-4E45-AA32-82CF54C89572Q41457354-A8CD1532-1A1C-4810-B99B-ED93712251BBQ42251450-6821887F-5DC3-4202-8689-068338A6E6E0Q43131566-B1AAE164-77A4-45B4-A8F9-7C0E4FFE1C91Q43472318-0BC263DC-349B-42FF-91CB-16C3926CADBB
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
GOR V server for protein secondary structure prediction
@ast
GOR V server for protein secondary structure prediction
@en
GOR V server for protein secondary structure prediction
@nl
type
label
GOR V server for protein secondary structure prediction
@ast
GOR V server for protein secondary structure prediction
@en
GOR V server for protein secondary structure prediction
@nl
prefLabel
GOR V server for protein secondary structure prediction
@ast
GOR V server for protein secondary structure prediction
@en
GOR V server for protein secondary structure prediction
@nl
P2093
P2860
P3181
P356
P1433
P1476
GOR V server for protein secondary structure prediction
@en
P2093
Andrzej Kloczkowski
Jean Garnier
Robert L Jernigan
P2860
P304
P3181
P356
10.1093/BIOINFORMATICS/BTI408
P407
P50
P577
2005-03-29T00:00:00Z