Search results for "Transmembrane channels"

showing 6 items of 6 documents

Functional competition within a membrane: Lipid recognition vs. transmembrane helix oligomerization

2015

Abstract Binding of specific lipids to large, polytopic membrane proteins is well described, and it is clear that such lipids are crucial for protein stability and activity. In contrast, binding of defined lipid species to individual transmembrane helices and regulation of transmembrane helix monomer–oligomer equilibria by binding of distinct lipids is a concept, which has emerged only lately. Lipids bind to single-span membrane proteins, both in the juxta-membrane region as well as in the hydrophobic membrane core. While some interactions counteract transmembrane helix oligomerization, in other cases lipid binding appears to enhance oligomerization. As reversible oligomerization is involve…

Models MolecularSyntaxin 1AMembrane lipidsLipid BilayersBiophysicsBiologyBinding CompetitiveBiochemistryProtein Structure SecondaryMembrane LipidsLipid bindingOligomerizationIntegral membrane proteinC99Transmembrane channelsMolecular StructureMembrane transport proteinCell MembranePeripheral membrane proteinMembrane ProteinsCell Biologyp24Transmembrane proteinProtein Structure TertiaryCell biologyTransmembrane domainMembrane proteinMembrane proteinbiology.proteinlipids (amino acids peptides and proteins)Protein BindingBiochimica et Biophysica Acta (BBA) - Biomembranes
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Molecular and topological membrane folding determinants of transient receptor potential vanilloid 2 channel.

2015

Transient Receptor Potential (TRP) channels are related to adaptation to the environment and somatosensation. The transient receptor potential vanilloid (TRPV) subfamily includes six closely evolutionary related ion channels sharing the same domain organization and tetrameric arrangement in the membrane. In this study we have characterized biochemically TRPV2 channel membrane protein folding and transmembrane (TM) architecture. Deleting the first N-terminal 74 residues preceding the ankyrin repeat domain (ARD) show a key role for this region in targeting the protein to the membrane. We have demonstrated the co-translational insertion of the membrane-embedded region of the TRPV2 and its disp…

Models MolecularVesicle-associated membrane protein 8Protein FoldingTRPV5Protein ConformationBiophysicsTRPV Cation ChannelsBiochemistryTRPVTransient receptor potential channelAnimalsHumansProtein Structure QuaternaryMolecular BiologyIon channelTransmembrane channelsChemistryCell MembraneCell BiologyTransmembrane proteinRecombinant ProteinsAnkyrin RepeatProtein Structure TertiaryRatsHEK293 CellsBiochemistryBiophysicsAnkyrin repeatBiochemical and biophysical research communications
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Solution structure of aD,L-alternating oligonorleucine as a model of double-stranded antiparallel ?-helix

2002

Conformational characteristics of alternating D,L linear peptides are of particular interest because of their capacity to form transmembrane channels with different transport properties, as some natural antibiotics do. Single- and double-stranded beta-helical structures are common for alternating D,L peptides. The stability of the beta-helix depends on several structural factors, such as the backbone peptide length, type and position of side chains, and nature of terminal groups. The NMR and molecular dynamics solution conformation of a synthetic alternating D,L-oligopeptide with 15 norleucines (XVMe) has been used as a model to get insight in to the conformational features of double-strand…

Models Molecularenergy minimizationStereochemistryBiophysicsBeta helixStereoisomerismEnergy minimizationAntiparallel (biochemistry)BiochemistryProtein Structure SecondaryBiomaterialsMolecular dynamicsBiopolymerstwo-dimensional NMRProtein structureNorleucineSide chainDL-alternating peptNuclear Magnetic Resonance BiomolecularTransmembrane channelsChemistryOrganic ChemistryStereoisomerismGeneral Medicinemolecular dynamicsCrystallographybeta-helixOligopeptidesBiopolymers
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Correct oligomerization is a prerequisite for insertion of the central molecular domain of staphylococcal α-toxin into the lipid bilayer

1995

Staphylococcal alpha-toxin is a primarily hydrophilic molecule that binds as a monomer to target membranes and then aggregates to form amphiphilic oligomers that represent water-filled transmembrane channels. Current evidence indicates that a region located in the center of the molecule inserts deeply into the bilayer. In the present study, we sought to determine whether membrane insertion was triggered by the oligomerization process, and whether insertion correlated with pore formation. Double mutants of alpha-toxin were prepared in which His-35 was replaced by Arg, and cysteine residues were introduced at positions 69, 130 and 186. Substitution of His-35 with Arg rendered the toxin molecu…

Pore formationBacterial ToxinsLipid BilayersMolecular ConformationBiophysics(Staphylococcus)Arginineα-ToxinBiochemistryHemolysin ProteinsMembrane Lipidschemistry.chemical_compound2-NaphthylamineAmphiphileOligomerizationCysteineLipid bilayerFluorescent DyesTransmembrane channelsPore-forming toxinBilayerCell BiologyMembraneMonomerchemistryBiochemistryMutationPore-forming toxinBiophysicsMembrane insertionCysteineBiochimica et Biophysica Acta (BBA) - Biomembranes
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Solution NMR structure of aD,L-alternating oligonorleucine as a model of ?-helix

2001

beta-Helix structures are of particular interest due to their capacity to form transmembrane channels with different transport properties. However, the relatively large number of beta-helices configurations does not allow a direct conformational analysis of beta-helical oligopeptides. A synthetic alternating D,L-oligopeptide with twelve norleucines (XIIMe) has been used as a model to get insight in the conformational features of beta-helix structures. The spatial configuration of XIIMe in solution has been determined by NMR. An extensive set of distances (nuclear Overhauser effect) and dihedral (J coupling constants) constraints have been included in molecular dynamics calculations. The NMR…

Quantitative Biology::BiomoleculesTransmembrane channelsChemistryOrganic ChemistryBiophysicsBeta helixNuclear magnetic resonance spectroscopy of nucleic acidsGeneral MedicineNuclear Overhauser effectNuclear magnetic resonance spectroscopyDihedral angleJ-couplingBiochemistryBiomaterialsMolecular dynamicsCrystallographyBiopolymers
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Ion transport through membranes: A computer experiment

1983

Abstract Gramicidin-A is a linear pentadecapeptide antibiotic, which forms transmembrane channels; these have a number of interesting conductance characteristics [1, 2 and Refs. therein], as for example high specific ion fluxes (a single channel carries about 10 7 sodium ions/sec at 25 °C, 1 M NaCl and 100 mV transmembrane d.d.p.) have a remarkable ion selectivity among the monovalent cations. The permeability ratios with respect to sodium were found to be in following order H + (150) > NH 4 + (8.9) > Cs + (5.8) > Rb + (5.5) > K + (3.9) > Na + (1.0) > Li + (0.33). The channel is impermeable to anions and to divalent cations and it exhibits saturation and maxima in conductance as a function …

chemistry.chemical_classificationTransmembrane channelsAnalytical chemistryKcsA potassium channelConductanceIon Transport ProcessIonDivalentInorganic Chemistrychemistry.chemical_compoundCrystallographychemistryMaterials ChemistryGramicidinPhysical and Theoretical ChemistryIon transporterInorganica Chimica Acta
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