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Inhibition of the Hantavirus Fusion Process by Predicted Domain III and Stem Peptides from Glycoprotein GcTransmembrane helix dimerization: beyond the search for sequence motifsThe ER-Membrane Transport System Is Critical for Intercellular Trafficking of the NSm Movement Protein and Tomato Spotted Wilt TospovirusStructural characterization of AS1–membrane interactions from a subset of HAMP domainsAtomic Resolution Insights into Curli Fiber BiogenesisStructural Basis for HIV-1 Neutralization by 2F5-Like Antibodies m66 and m66.6NS2 Proteins of GB Virus B and Hepatitis C Virus Share Common Protease Activities and Membrane TopologiesExpansion of Lysine-rich Repeats in Plasmodium Proteins Generates Novel Localisation Sequences that Target the Periphery of the Host ErythrocyteLatarcins: versatile spider venom peptidesSimvastatin Sodium Salt and Fluvastatin Interact with Human Gap Junction Gamma-3 ProteinModeling of the Ebola virus delta peptide reveals a potential lytic sequence motifThe prediction and characterization of YshA, an unknown outer-membrane protein from Salmonella typhimurium.A highly accurate statistical approach for the prediction of transmembrane beta-barrels.Protein structure annotation resources.In vitro selection of miltefosine resistance in promastigotes of Leishmania donovani from Nepal: genomic and metabolomic characterization.Assembly of the m2 tetramer is strongly modulated by lipid chain length.Hydrogen-bond energetics drive helix formation in membrane interfaces.Membrane depth-dependent energetic contribution of the tryptophan side chain to the stability of integral membrane proteins.Thermodynamic measurements of bilayer insertion of a single transmembrane helix chaperoned by fluorinated surfactants.Fission yeast Ags1 confers the essential septum strength needed for safe gradual cell abscissionComparison of fragments comprising the first two helices of the human Y4 and the yeast Ste2p G-protein-coupled receptorsConformation of membrane-bound proteins revealed by vacuum-ultraviolet circular-dichroism and linear-dichroism spectroscopy.Relationship between antibody 2F5 neutralization of HIV-1 and hydrophobicity of its heavy chain third complementarity-determining regionFIDEL-a retrovirus-like retrotransposon and its distinct evolutionary histories in the A- and B-genome components of cultivated peanut.Aspartate embedding depth affects pHLIP's insertion pKa.Membrane-active peptides: binding, translocation, and flux in lipid vesicles.Comparative NMR analysis of an 80-residue G protein-coupled receptor fragment in two membrane mimetic environments.Mitochondrial and Plasma Membrane Citrate Transporters: Discovery of Selective Inhibitors and Application to Structure/Function AnalysisIn silico analysis of missense mutations in LPAR6 reveals abnormal phospholipid signaling pathway leading to hypotrichosis.Extracellular allosteric regulatory subdomain within the gamma subunit of the epithelial Na+ channel.Inactivation of the budded virus of Autographa californica M nucleopolyhedrovirus by gloverin.Nuclear magnetic resonance structure revealed that the human polyomavirus JC virus agnoprotein contains an α-helix encompassing the Leu/Ile/Phe-rich domain.Type II transmembrane domain hydrophobicity dictates the cotranslational dependence for inversion.Integrative structure-function mapping of the nucleoporin Nup133 suggests a conserved mechanism for membrane anchoring of the nuclear pore complexSecA drives transmembrane insertion of RodZ, an unusual single-span membrane protein.Peptides with the same composition, hydrophobicity, and hydrophobic moment bind to phospholipid bilayers with different affinities.Structural properties of 2/2 hemoglobins: the group III protein from Helicobacter hepaticus.Mistic's membrane association and its assistance in overexpression of a human GPCR are independent processes.A fusion-inhibiting peptide against Rift Valley fever virus inhibits multiple, diverse viruses.Side-chain hydrophobicity scale derived from transmembrane protein folding into lipid bilayers.
P2860
Q26700097-6F2595E9-4718-4763-8B5D-93C3BB3FA821Q26865109-E6D03E9A-B33D-48A3-941C-9FE8F1E033DEQ27315865-7B9E5CFA-B80D-43E4-9846-0E9549FD3A17Q27670813-0C928C9B-92D4-49C7-8326-D0EE8CD3DFDDQ27673179-FF28E740-4573-4E05-BE98-B6D77F17AE01Q27680872-7EC2092B-F18B-4E1D-9BE6-F1A62FA76301Q27683450-598EBB59-15E9-43B9-B4E6-51334A92FFAEQ27972793-BB3B5CBB-9A8C-445A-95A0-F342ACE79979Q28266394-C44A2F28-12C8-49AD-BD2C-915642E9BA6FQ28550067-D4DEAD07-C0BB-4700-A15D-BEB54E784EFBQ28651528-34B315F0-F2DE-496F-A8B8-BC602884D61CQ30156014-88D89A22-6906-49BD-9087-48E392A590ACQ30156823-4A5C44C5-ECFA-4A3A-A09B-CA838CA62802Q30369659-AF00EAB5-EC95-4DA3-B2FE-7FDB3092AFFEQ30380900-81400ABA-9D1F-4EED-91C1-1BD4CDD4B20CQ30393949-2C39BA89-F163-421E-835D-870FB98E5719Q30405426-D9DC8946-7EFE-4089-A015-4DE26EBB4CEFQ30412330-7B4014E2-EFC6-4AD0-8156-C3C68B7BB5E6Q30504859-955AC1AC-BEDE-41FC-AC17-4B6DFC21C8A7Q30528923-CE34A22A-7A4C-4CD2-A52C-13ABB1721D58Q30561114-CF679808-AE70-4895-93DD-041026854343Q31036408-3DB50ADA-F7BA-4C9A-9241-8A8A70A0E855Q33676600-CB7FA26E-FA5E-46D3-975F-20E81FEB63F1Q33749523-35597117-FB84-46B2-B3C0-CB8060B2084BQ33822792-7949FB81-44F7-4FD2-A022-0DCD92854622Q33944833-82A05350-A99E-44BF-B246-4C5AC33A6FBFQ33972236-B1D0E829-1011-4071-ABB6-CFF5D902EBE3Q34034000-E5B6318F-39A0-4355-99E6-C54E56B1506DQ34041844-1EAB27CB-C482-4F05-B7DF-C895FE2C7ED6Q34074312-E9ECFAC5-12DF-4EAD-94C5-7EE5771E73B4Q34188708-ADED6D83-63AB-435C-A164-282E27ADA50DQ34412296-6A7E8D97-BCD0-4BAE-9183-11B022C527FEQ34428674-7A1A35B1-47CC-470A-9644-21D054D29FCAQ34468317-4DE43BF5-3CA4-4C20-B20B-76BBA759D782Q34517208-88702467-EDA3-48C3-A8A4-6FF8269FEF3AQ34525291-C2A554BF-C50E-48F3-87C1-A6407DE31314Q34796186-CDEF71FD-38D8-46FC-917A-B0271B878AEAQ34805846-C6B63634-2D42-46C5-B735-282ABB6ACB8CQ34999859-1E1062B4-72AB-472F-97F3-B8F227B0956AQ35064407-66C8F1F4-B177-4439-B8ED-5B8F3C917DF4
P2860
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年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
name
MPEx: a tool for exploring membrane proteins
@ast
MPEx: a tool for exploring membrane proteins
@en
type
label
MPEx: a tool for exploring membrane proteins
@ast
MPEx: a tool for exploring membrane proteins
@en
prefLabel
MPEx: a tool for exploring membrane proteins
@ast
MPEx: a tool for exploring membrane proteins
@en
P2860
P356
P1433
P1476
MPEx: a tool for exploring membrane proteins
@en
P2093
Craig Snider
Sajith Jayasinghe
P2860
P304
P356
10.1002/PRO.256
P577
2009-12-01T00:00:00Z