Search results for "membrane proteins"

showing 10 items of 713 documents

Folding and insertion of transmembrane helices at the ER

2021

In eukaryotic cells, the endoplasmic reticulum (ER) is the entry point for newly synthesized proteins that are subsequently distributed to organelles of the endomembrane system. Some of these proteins are completely translocated into the lumen of the ER while others integrate stretches of amino acids into the greasy 30 Å wide interior of the ER membrane bilayer. It is generally accepted that to exist in this non-aqueous environment the majority of membrane integrated amino acids are primarily non-polar/hydrophobic and adopt an α-helical conformation. These stretches are typically around 20 amino acids long and are known as transmembrane (TM) helices. In this review, we will consider how tra…

Protein Conformation alpha-HelicalfoldingProtein FoldingQH301-705.5ReviewEndoplasmic ReticulumRibosomeCatalysisinsertionInorganic Chemistrytransmembrane segmentAnimalsHumansEndomembrane systemmembrane proteinPhysical and Theoretical ChemistryBiology (General)Molecular BiologyQD1-999Spectroscopytransloconchemistry.chemical_classificationEndoplasmic reticulumOrganic ChemistryProteïnes de membranaMembrane ProteinsGeneral MedicineTransloconTransmembrane proteinComputer Science ApplicationsAmino acidTransmembrane domainChemistrychemistryMembrane proteinribosomeBiophysicsHydrophobic and Hydrophilic InteractionsRibosomes

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High affinity agonistic metal ion binding sites within the melanocortin 4 receptor illustrate conformational change of transmembrane region 3.

2003

We created a molecular model of the human melanocortin 4 receptor (MC4R) and introduced a series of His residues into the receptor protein to form metal ion binding sites. We were able to insert micromolar affinity binding sites for zinc between transmembrane region (TM) 2 and TM3 where the metal ion alone was able to activate this peptide binding G-protein-coupled receptor. The exact conformation of the metal ion interactions allowed us to predict the orientation of the helices, and remodeling of the receptor protein indicated that Glu100 and Ile104 in TM2 and Asp122 and Ile125 in TM3 are directed toward a putative area of activation of the receptor. The molecular model suggests that a rot…

Protein ConformationAmino Acid MotifsPeptide bindingPlasma protein bindingTransfectionBiochemistryCell LineReceptors G-Protein-CoupledProtein structureCyclic AMPHumansPoint MutationBinding siteReceptorMolecular BiologyBinding SitesChemistryMembrane ProteinsCell BiologyMelanocortin 4 receptorCytosolic partZincBiochemistryBiophysicsReceptor Melanocortin Type 4MelanocortinProtein BindingThe Journal of biological chemistry

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HPLC demonstration that an all Trp--Phe replacement in gramicidin A results in a conformational rearrangement from beta-helical monomer to double-str…

1995

We have taken advantage of our previously reported high performance liquid chromatographic (HPLC) strategy to investigate the conformational behavior of the optically reversed gramicidin M (gM-), an analog of gramicidin A with all tryptophans replaced by phenylalanines, in different model membranes. It is quantitatively demonstrated for the first time that once inserted in the lipid environment, gM- (unlike the native peptide) undergoes a conformational transition from beta-helical monomers to thermodynamically stable double-stranded dimers. This transition is faster the higher the incubation temperature and can be neatly observed in both small unilamellar phospholipid vesicles and lysophos…

Protein ConformationDimerPhenylalanineBiophysicsPeptideBiochemistryMicelleHigh-performance liquid chromatographyIon ChannelsProtein Structure Secondarychemistry.chemical_compoundStructure-Activity RelationshipGramicidin AOrganic chemistryMolecular BiologyChromatography High Pressure Liquidchemistry.chemical_classificationChemistrytechnology industry and agricultureGramicidinTryptophanMembrane ProteinsMembranes ArtificialCell BiologyCrystallographyMembraneMonomerlipids (amino acids peptides and proteins)Double strandedBiochemical and biophysical research communications

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Activation of the p75 neurotrophin receptor through conformational rearrangement of disulphide-linked receptor dimers.

2009

Ligand-mediated dimerization has emerged as a universal mechanism of growth factor receptor activation. Recent structural studies have shown that neurotrophins interact with dimers of the p75 neurotrophin receptor (p75NTR), but the actual mechanism of receptor activation has remained elusive. Here we show that p75NTR forms disulphide-linked dimers independently of neurotrophin binding through the highly conserved Cys257 in its transmembrane domain. Mutation of Cys257 abolished neurotrophin-dependent receptor activity but did not affect downstream signaling by the p75NTR/NgR/Lingo-1 complex in response to MAG, indicating the existence of distinct, ligand-specific activation mechanisms for p7…

Protein ConformationMutantNeuronesReceptor Nerve Growth FactorMiceProtein structureChlorocebus aethiopsNerve Growth FactorLow-affinity nerve growth factor receptorRNA Small InterferingReceptorskin and connective tissue diseasesReceptors neuralsCells CulturedNeuronsCell DeathGeneral NeuroscienceNF-kappa BCell biologyTransmembrane domainSIGNALINGOligopeptidesNeurotrophinProtein BindingSignal Transductionmusculoskeletal diseasesPROTEINSNeuroscience(all)Green Fluorescent ProteinsNerve Tissue ProteinsReceptors Nerve Growth FactorSuperior Cervical GanglionBiologyTransfectionMOLNEUROArticleGrowth factor receptorAnimalsHumansProtein Interaction Domains and MotifsReceptors Growth FactorCysteineBinding SitesMembrane Proteinsbiological factorsRatsnervous systemAnimals NewbornNeurotrophin bindingMutationbiology.proteinsense organsProtein MultimerizationrhoA GTP-Binding ProteinProteïnesNeuron

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Conformational clamping by a membrane ligand activates the EphA2 receptor

2021

AbstractThe EphA2 receptor is a promising drug target for cancer treatment, since EphA2 activation can inhibit metastasis and tumor progression. It has been recently described that the TYPE7 peptide activates EphA2 using a novel mechanism that involves binding to the single transmembrane domain of the receptor. TYPE7 is a conditional transmembrane (TM) ligand, which only inserts into membranes at neutral pH in the presence of the TM region of EphA2. However, how membrane interactions can activate EphA2 is not known. We systematically altered the sequence of TYPE7 to identify the binding motif used to activate EphA2. With the resulting six peptides, we performed biophysical and cell migratio…

Protein ConformationSequence HomologyTm ligandsPeptideMolecular Dynamics SimulationLigandsReceptor tyrosine kinaseArticleBimolecular fluorescence complementationProtein DomainsStructural BiologyCell MovementCell surface receptorTumor Cells CulturedHumansAmino Acid SequenceReceptorMolecular BiologyMelanomachemistry.chemical_classificationBinding SitesMembranesbiologyChemistryReceptor EphA2Membrane ProteinsLigand (biochemistry)Peptide FragmentsTransmembrane proteinTransmembrane domainMembranebiology.proteinBiophysicsProtein MultimerizationProtein Binding

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Refolding of the integral membrane protein light-harvesting complex II monitored by pulse EPR

2009

The major light-harvesting chlorophyll a / b complex (LHCII) of the photosynthetic apparatus in plants self-organizes in vitro. The recombinant apoprotein, denatured in dodecyl sulfate, spontaneously folds when it is mixed with its pigments, chlorophylls, and carotenoids in detergent solution, and assembles into structurally authentic LHCII in the course of several minutes. Pulse EPR techniques, specifically double-electron-electron resonance (DEER), have been used to analyze protein folding during this process. Pairs of nitroxide labels were introduced site-specifically into recombinant LHCII and shown not to affect the stability and function of the pigment-protein complex. Interspin dist…

Protein DenaturationProtein FoldingTime FactorsMultidisciplinaryPulsed EPRSuperhelixChemistryElectron Spin Resonance SpectroscopyLight-Harvesting Protein ComplexesPeasMembrane ProteinsElectronsBiological SciencesModels BiologicalProtein Structure SecondaryTransmembrane domainB vitaminsCrystallographyProtein structureMutationHelixSpin LabelsProtein foldingApoproteinsIntegral membrane proteinProceedings of the National Academy of Sciences

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Methodological approaches for the analysis of transmembrane domain interactions: A systematic review

2021

The study of protein-protein interactions (PPI) has proven fundamental for the understanding of the most relevant cell processes. Any protein domain can participate in PPI, including transmembrane (TM) segments that can establish interactions with other TM domains (TMDs). However, the hydrophobic nature of TMDs and the environment they occupy complicates the study of intramembrane PPI, which demands the use of specific approaches and techniques. In this review, we will explore some of the strategies available to study intramembrane PPI in vitro, in vivo, and, in silico, focusing on those techniques that could be carried out in a standard molecular biology laboratory regarding its previous e…

Protein FoldingBacteriaChemistryIn silicoProtein domainBiophysicsMembrane ProteinsCell CommunicationCell BiologyComputational biologyBiochemistryTransmembrane proteinIn vitroProtein–protein interactionTransmembrane domainProtein DomainsMembrane proteinProtein foldingProtein Interaction MapsHydrophobic and Hydrophilic InteractionsBiochimica et Biophysica Acta (BBA) - Biomembranes

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Folding energetics and oligomerization of polytopic α-helical transmembrane proteins

2014

While interactions of single-span transmembrane helices have been studied to a significant extent in the past years, the folding of polytopic α-helical transmembrane proteins as well as their oligomerization, are far less analyzed and understood. The goal of the few thus far performed thermodynamic studies, in which unfolding of polytopic TM proteins was described, was to achieve a mild, potentially reversible unfolding process, to finally derive thermodynamic parameters for the reverse folding pathway. In the first part of this review, we summarize the studies analyzing the thermodynamic stability and folding pathways of polytopic transmembrane proteins. Based on these studies, we deduce s…

Protein FoldingCell MembraneBiophysicsMembrane ProteinsPhi value analysisBiochemistryProtein Structure SecondaryTransmembrane proteinFolding (chemistry)chemistry.chemical_compoundTransmembrane domainMonomerchemistryMembrane proteinBiochemistryα helicalBiophysicsAnimalsHumansProtein foldingProtein MultimerizationMolecular BiologyArchives of Biochemistry and Biophysics

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The membrane environment modulates self-association of the human GpA TM domain--implications for membrane protein folding and transmembrane signaling.

2010

Abstract The influence of lipid bilayer properties on a defined and sequence-specific transmembrane helix–helix interaction is not well characterized yet. To study the potential impact of changing bilayer properties on a sequence-specific transmembrane helix–helix interaction, we have traced the association of fluorescent-labeled glycophorin A transmembrane peptides by fluorescence spectroscopy in model membranes with varying lipid compositions. The observed changes of the glycophorin A dimerization propensities in different lipid bilayers suggest that the lipid bilayer thickness severely influences the monomer–dimer equilibrium of this transmembrane domain, and dimerization was most effici…

Protein FoldingLipid BilayersMolecular Sequence DataBiophysicsGpABiochemistryFluorescenceMembrane LipidsOrientations of Proteins in Membranes databaseMembrane fluidityFluorescence Resonance Energy TransferHumansAmino Acid SequenceGlycophorinsBilayerLipid bilayerIntegral membrane proteinBinding SitesChemistryBilayerPeripheral membrane proteinTemperatureMembrane ProteinsCell BiologyTransmembrane proteinCell biologyTransmembrane domainCholesterolSpectrometry FluorescenceFRETPhosphatidylcholineslipids (amino acids peptides and proteins)Transmembrane helix–helix interactionProtein MultimerizationPeptidesHydrophobic and Hydrophilic InteractionsSignal TransductionBiochimica et biophysica acta

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Missense mutations of dual oxidase 2 (DUOX2) implicated in congenital hypothyroidism have impaired trafficking in cells reconstituted with DUOX2 matu…

2007

Abstract Dual oxidase 2 (DUOX2), a reduced NAD phosphate:O2 oxidoreductase flavoprotein, is a component of the thyrocyte H2O2 generator required for hormone synthesis at the apical plasma membrane. We recently identified a specific DUOX2 maturation factor (DUOXA2) that is necessary and sufficient for expression of functional DUOX2 in mammalian cell lines. We have now used a DUOXA2 reconstituted system to provide the first characterization of natural DUOX2 missense variants (Q36H, R376W, D506N) at the molecular level, analyzing their impact on H2O2 generation, trafficking, stability, folding, and DUOXA2 interaction. The Q36H and R376W mutations completely prevent routing of DUOX2 to the cell…

Protein FoldingMutantMutation MissenseBiologyEndoplasmic ReticulumCell membranesymbols.namesakeEndocrinologyMutant proteinPolysaccharidesCalnexinmedicineCongenital HypothyroidismAnimalsHumansMolecular BiologyCells CulturedFlavoproteinsOxidative foldingEndoplasmic reticulumCell MembraneMembrane ProteinsNADPH OxidasesDual oxidase 2General MedicineHydrogen PeroxideGolgi apparatusDual OxidasesRatsProtein Transportmedicine.anatomical_structureMannosyl-Glycoprotein Endo-beta-N-AcetylglucosaminidaseBiochemistrysymbolsOxidation-ReductionMolecular endocrinology (Baltimore, Md.)

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