Topology prediction for helical transmembrane proteins at 86% accuracy
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Novel conserved domains in proteins with predicted roles in eukaryotic cell-cycle regulation, decapping and RNA stabilityThe genome of M. acetivorans reveals extensive metabolic and physiological diversityAdvances in Homology Protein Structure ModelingThe hemidesmosomal protein bullous pemphigoid antigen 1 and the integrin beta 4 subunit bind to ERBIN. Molecular cloning of multiple alternative splice variants of ERBIN and analysis of their tissue expressionAn unusual peptide deformylase features in the human mitochondrial N-terminal methionine excision pathwayMembrane topology of the yeast endoplasmic reticulum-localized ubiquitin ligase Doa10 and comparison with its human ortholog TEB4 (MARCH-VI)Structural and functional similarities of calcium homeostasis modulator 1 (CALHM1) ion channel with connexins, pannexins, and innexinsAngiomotin regulates endothelial cell-cell junctions and cell motilityStructure and function of the sterol carrier protein-2 N-terminal presequenceCharacterization of a mammalian cDNA encoding a protein with high sequence similarity to the Drosophila regulatory protein RhomboidMitochondrial carrier homolog 2 is a target of tBID in cells signaled to die by tumor necrosis factor alpha.Homology modeling and molecular dynamics simulation studies of an inward rectifier potassium channelComponents of the RP4 conjugative transfer apparatus form an envelope structure bridging inner and outer membranes of donor cells: implications for related macromolecule transport systemsACAT1 and ACAT2 membrane topology segregates a serine residue essential for activity to opposite sides of the endoplasmic reticulum membraneCoBaltDB: Complete bacterial and archaeal orfeomes subcellular localization database and associated resourcesMutational analysis of the ras converting enzyme reveals a requirement for glutamate and histidine residuesAnalysis of the membrane topology of the acid-sensing ion channel 2aStructure-function analysis of the bestrophin family of anion channelsGenome-wide analysis of integral membrane proteins from eubacterial, archaean, and eukaryotic organismsThe molecular pathology of progressive symmetric erythrokeratoderma: a frameshift mutation in the loricrin gene and perturbations in the cornified cell envelopeMembrane protein prediction methodsMutation in mitochondrial complex I ND6 subunit is associated with defective response to hypoxia in human glioma cellsSpecies-specific protein sequence and fold optimizations.SNPeffect: a database mapping molecular phenotypic effects of human non-synonymous coding SNPsFunctional characterization in Caenorhabditis elegans of transmembrane worm-human orthologsComputational prediction of membrane-tethered transcription factorsApplication of comparative genomics in the identification and analysis of novel families of membrane-associated receptors in bacteriaA census of membrane-bound and intracellular signal transduction proteins in bacteria: bacterial IQ, extroverts and introvertsTMB-Hunt: an amino acid composition based method to screen proteomes for beta-barrel transmembrane proteinsA Conserved Structural Module Regulates Transcriptional Responses to Diverse Stress Signals in BacteriaUnconventional genomic architecture in the budding yeast saccharomyces cerevisiae masks the nested antisense gene NAG1.The complete inventory of the yeast Saccharomyces cerevisiae P-type transport ATPasesInositol phosphorylceramide synthase is located in the Golgi apparatus of Saccharomyces cerevisiae.Topology models for 37 Saccharomyces cerevisiae membrane proteins based on C-terminal reporter fusions and predictions.Determination of the membrane topology of Ost4p and its subunit interactions in the oligosaccharyltransferase complex in Saccharomyces cerevisiaeYeast Ysl2p, homologous to Sec7 domain guanine nucleotide exchange factors, functions in endocytosis and maintenance of vacuole integrity and interacts with the Arf-Like small GTPase Arl1p.Plasmodium falciparum subtilisin-like protease 2, a merozoite candidate for the merozoite surface protein 1-42 maturaseRat brain p64H1, expression of a new member of the p64 chloride channel protein family in endoplasmic reticulumAntisense down-regulation of lipocalin-interacting membrane receptor expression inhibits cellular internalization of lipocalin-1 in human NT2 cellsCommon origin and evolution of glycosyltransferases using Dol-P-monosaccharides as donor substrate
P2860
Q21266616-B6A195CB-3BF0-4446-AA19-A363B8B2DA93Q22065756-2FBC88BF-CC33-45A3-BD5C-866764A9D5ECQ22241408-53827F38-65D2-4E00-BCA8-AA600D81AAB0Q24291264-043C2209-9209-4BCD-A40D-9A0566C8113BQ24297180-3833874E-C991-4DE6-B77F-93360F2E65D7Q24299616-557706C6-274F-4CD3-AB5D-AA1AE0783557Q24307848-DE41A15C-8B1F-4983-91AA-648F07DE3865Q24310005-495AA215-83E4-490C-8BB5-03FADEE405CBQ24310630-DEE78BBF-1F55-4B63-9D24-19FD36A9B073Q24315747-EE3BE775-0EDE-4D42-B9C4-FA58E3F1DF73Q24529078-FB2045B0-9661-4E49-9113-1BBC4C7619C9Q24537354-DCB68F97-4FEB-4C25-BFE8-256105CBBCA1Q24548983-00C952AE-7EA3-4B68-B404-4A7C96F8C070Q24550974-6B470F65-463C-4717-8A0A-68F3FD6C70AAQ24603191-3A86538B-8CB0-4437-822A-F302692FDA6EQ24611091-FF0432E4-465F-4A1B-9BDC-7E52190BD7D4Q24625148-956E8CD7-1EA1-4767-8257-87E0DE53DD34Q24633985-75AA9B18-0330-413B-BC99-B40EF3579D92Q24673118-372A698B-FD9D-42D6-8F64-1E52F21397B5Q24678447-1EA1A1F2-99F7-478E-8DCA-57C223FC0A03Q24683612-64C52A72-6C36-4495-A2E7-3EEF6DFDAF45Q24794136-BCCC1909-D584-421A-8410-6A1531CE7057Q24794219-A0756DDF-FDB3-43D8-8310-FD6ACC85B0FFQ24795858-599D9EF5-C969-47BE-86D6-7C4FED4E8AC5Q24798850-237B7D5A-5427-4E75-A78C-979CB7D3C1CDQ24799487-CE8504AD-2D6D-4AD4-946D-B818B1BF686BQ24803459-AD130FBF-2DAC-4FFA-8B0B-6124FA352F0DQ24810727-D7C2A5C6-C3AF-48B7-A6A1-4E345BEBBE86Q24811454-48FDF68B-0608-4452-BDF2-A7EB61EDCF2DQ27647837-270E8164-7FAA-4981-BB29-49E5D8946572Q27929800-67718A1C-D34D-4A21-B142-E45CF873A96FQ27930841-73B60D87-9CA2-4DB8-AA61-AC282AA094A3Q27932494-B2563705-5A19-4811-949F-635B10A67099Q27934004-40BF9CE2-8D03-452E-BE0D-77D1B664CC4EQ27934239-C5BD3BC7-8648-43F0-906F-970827436716Q27939201-29453C47-E7EB-4F82-A9AB-33D8EA0C6FE6Q27973702-6FADAE68-1CDE-49D4-A83E-EF6009CFE11FQ28117151-7EB76149-339F-4C57-8877-73742001C9B6Q28210393-EFFB1AEB-9F1C-4CE8-98D8-BC4A80C1D54AQ28219347-742D0FC7-976D-4BD5-A8B9-8184CC9E7D9F
P2860
Topology prediction for helical transmembrane proteins at 86% accuracy
description
1996 nî lūn-bûn
@nan
1996 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Topology prediction for helical transmembrane proteins at 86% accuracy
@ast
Topology prediction for helical transmembrane proteins at 86% accuracy
@en
Topology prediction for helical transmembrane proteins at 86% accuracy
@nl
type
label
Topology prediction for helical transmembrane proteins at 86% accuracy
@ast
Topology prediction for helical transmembrane proteins at 86% accuracy
@en
Topology prediction for helical transmembrane proteins at 86% accuracy
@nl
prefLabel
Topology prediction for helical transmembrane proteins at 86% accuracy
@ast
Topology prediction for helical transmembrane proteins at 86% accuracy
@en
Topology prediction for helical transmembrane proteins at 86% accuracy
@nl
P2093
P2860
P356
P1433
P1476
Topology prediction for helical transmembrane proteins at 86% accuracy
@en
P2093
P2860
P304
P356
10.1002/PRO.5560050824
P577
1996-08-01T00:00:00Z