Search results for "Membrane domain"

showing 10 items of 102 documents

Insertion and Topology of a Plant Viral Movement Protein in the Endoplasmic Reticulum Membrane

2002

Virus-encoded movement proteins (MPs) mediate cell-to-cell spread of viral RNA through plant membranous intercellular connections, the plasmodesmata. The molecular pathway by which MPs interact with viral genomes and target plasmodesmata channels is largely unknown. The 9-kDa MP from carnation mottle carmovirus (CarMV) contains two potential transmembrane domains. To explore the possibility that this protein is in fact an intrinsic membrane protein, we have investigated its insertion into the endoplasmic reticulum membrane. By using in vitro translation in the presence of dog pancreas microsomes, we demonstrate that CarMV p9 inserts into the endoplasmic reticulum without the aid of any addi…

BioquímicaGlycosylationMolecular Sequence DataPlasmodesmaBiologyEndoplasmic ReticulumTopologyBiochemistryProtein Structure SecondaryViral ProteinsAmino Acid SequenceMolecular BiologyEndoplasmic reticulumCarmovirusProteïnes de membranaMembrane ProteinsSTIM1Translation (biology)Cell Biologybiology.organism_classificationVirusCell biologyPlant Viral Movement ProteinsTobacco Mosaic VirusTransmembrane domainCytoplasmMembrane topologyCarmovirusJournal of Biological Chemistry
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The role of hydrophobic matching on transmembrane helix packing in cells

2017

Folding and packing of membrane proteins are highly influenced by the lipidic component of the membrane. Here, we explore how the hydrophobic mismatch (the difference between the hydrophobic span of a transmembrane protein region and the hydrophobic thickness of the lipid membrane around the protein) influences transmembrane helix packing in a cellular environment. Using a ToxRED assay in Escherichia coli and a Bimolecular Fluorescent Complementation approach in human-derived cells complemented by atomistic molecular dynamics simulations we analyzed the dimerization of Glycophorin A derived transmembrane segments. We concluded that, biological membranes can accommodate transmembrane homo-di…

Cancer ResearchPhysiologyCèl·luleslcsh:Medicine010402 general chemistry114 Physical sciences01 natural sciencesBiochemistry Genetics and Molecular Biology (miscellaneous)03 medical and health sciencesHydrophobic mismatchhydrophobic matchhelix packingLipid bilayerlcsh:QH301-705.5030304 developmental biology0303 health sciencesChemistrylcsh:RGlycophorin AProteïnes de membranaGlycophorin ABiological membranetransmembrane domain dimerizationmembrane protein foldingTransmembrane protein0104 chemical sciencesFolding (chemistry)Transmembrane domainMembranelcsh:Biology (General)Membrane proteinBiophysicsMolecular MedicinemismatchResearch ArticleCell Stress
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Increased stability of the TM helix oligomer abrogates the apoptotic activity of the human Fas receptor

2021

Human death receptors control apoptotic events during cell differentiation, cell homeostasis and the elimination of damaged or infected cells. Receptor activation involves ligand-induced structural reorganizations of preformed receptor trimers. Here we show that the death receptor transmembrane domains only have a weak intrinsic tendency to homo-oligomerize within a membrane, and thus these domains potentially do not significantly contribute to receptor trimerization. However, mutation of Pro183 in the human CD95/Fas receptor transmembrane helix results in a dramatically increased interaction propensity, as shown by genetic assays. The increased interaction of the transmembrane domain is co…

Cellular differentiationBiophysicsApoptosisLigandsmedicine.disease_causeBiochemistryProtein DomainsmedicineHomeostasisHumansfas ReceptorReceptorMutationChemistryCell DifferentiationReceptors Death DomainCell BiologyFas receptorTransmembrane proteinCell biologyTransmembrane domainApoptosisMutationProtein MultimerizationSignal transductionSignal TransductionBiochimica et Biophysica Acta (BBA) - Biomembranes
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Random mutations directed to transmembrane and loop domains of the light-harvesting chlorophyll a/b protein: impact on pigment binding.

1999

The major light-harvesting complex of photosystem II (LHCII) can be reconstituted in vitro by folding its bacterially expressed apoprotein, Lhcb, in detergent solution in the presence of chlorophylls and carotenoids. To compare the impact of alpha-helical transmembrane domains and hydrophilic loop domains of the apoprotein on complex formation and stability, we introduced random mutations into a segment of the protein comprising the stromal loop, the third (C-proximal) transmembrane helix, and part of the amphipathic helix in the C-terminal domain. The mutant versions of Lhcb were screened for the loss of their ability to form stable LHCII upon reconstitution in vitro. Most steps during the…

Chlorophyll bChlorophyllProtein FoldingPigment bindingMolecular Sequence DataPhotosynthetic Reaction Center Complex ProteinsLight-Harvesting Protein ComplexesBiologyBiochemistryProtein Structure Secondarychemistry.chemical_compoundProtein structureChlorophyll bindingAmino Acid SequencePeptide sequencePeasMembrane ProteinsPhotosystem II Protein ComplexCarotenoidsTransmembrane proteinProtein Structure TertiaryTransmembrane domainSpectrometry FluorescencechemistryBiochemistryEnergy TransferMutationMutagenesis Site-DirectedProtein foldingProtein BindingBiochemistry
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Structural and Functional Analysis of the Antiparallel Strands in the Lumenal Loop of the Major Light-harvesting Chlorophyll a/b Complex of Photosyst…

2007

The light-harvesting chlorophyll a/b-binding protein of photosystem II (LHCIIb) fulfills multiple functions, such as light harvesting and energy dissipation under different illuminations. The crystal structure of LHCIIb at the near atomic resolution reveals an antiparallel strands structure in the lumenal loop between the transmembrane helices B/C. To study the structural and functional significances of this structure, three amino acids (Val-119, His-120, and Ser-123) in this region have been exchanged to Phe, Leu, and Gly, respectively, and the influence of the mutagenesis on the structure and function of LHCIIb has been investigated. The results are as follows. 1) Circular dichroism spect…

ChlorophyllModels MolecularCircular dichroismPhotosystem IIRecombinant Fusion ProteinsLight-Harvesting Protein ComplexesAntiparallel (biochemistry)BiochemistryFluorescencechemistry.chemical_compoundNeoxanthinSite-directed mutagenesisMolecular BiologyPlant ProteinsPhotobleachingChemistryChlorophyll ACircular DichroismPeasPhotosystem II Protein ComplexCell BiologyFluorescenceTransmembrane domainB vitaminsCrystallographyMutationMutagenesis Site-DirectedProtein BindingJournal of Biological Chemistry
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Amino acids in the second transmembrane helix of the Lhca4 subunit are important for formation of stable heterodimeric light-harvesting complex LHCI-…

2007

Photosynthetic light-harvesting complexes (LHCs) are assembled from apoproteins (Lhc proteins) and non-covalently attached pigments. Despite a considerable amino acid sequence identity, these proteins differ in their oligomerization behavior. To identify the amino acid residues determining the heterodimerization of Lhca1 and Lhca4 to form LHCI-730, we mutated the poorly conserved second transmembrane helix of the two subunits. Mutated genes were expressed in Escherichia coli and the resultant proteins were refolded in vitro and subsequently analyzed by gel electrophoresis. Replacement of the entire second helix in Lhca4 by the one of Lhca3 abolished heterodimerization, whereas it had no eff…

ChlorophyllModels MolecularMolecular Sequence DataLight-Harvesting Protein ComplexesBiologyProtein Structure SecondarySerineSolanum lycopersicumStructural BiologyChlorophyll bindingConsensus sequenceHistidineHomology modelingAmino Acid SequenceAmino AcidsProtein Structure QuaternaryMolecular BiologyPeptide sequenceHistidinePlant Proteinschemistry.chemical_classificationPhotosystem I Protein ComplexAmino acidTransmembrane domainProtein SubunitschemistryBiochemistryMutagenesisChlorophyll Binding ProteinsDimerizationSequence AlignmentJournal of molecular biology
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What monomeric nucleotide binding domains can teach us about dimeric ABC proteins

2020

The classic conceptualization of ATP binding cassette (ABC) transporter function is an ATP-dependent conformational change coupled to transport of a substrate across a biological membrane via the transmembrane domains (TMDs). The binding of two ATP molecules within the transporter's two nucleotide binding domains (NBDs) induces their dimerization. Despite retaining the ability to bind nucleotides, isolated NBDs frequently fail to dimerize. ABC proteins without a TMD, for example ABCE and ABCF, have NBDs tethered via elaborate linkers, further supporting that NBD dimerization does not readily occur for isolated NBDs. Intriguingly, even in full-length transporters, the NBD-dimerized, outward-…

Conformational changeBiophysicsContext (language use)ATP-binding cassette transporterBiochemistry03 medical and health sciencesAdenosine TriphosphateProtein DomainsStructural BiologyGeneticsAnimalsHumansNucleotideMolecular Biology030304 developmental biologychemistry.chemical_classification0303 health sciencesBinding Sites030302 biochemistry & molecular biologyTransporterBiological membraneCell BiologyTransmembrane domainchemistryCyclic nucleotide-binding domainBiophysicsATP-Binding Cassette Transporterslipids (amino acids peptides and proteins)Protein MultimerizationProtein BindingFEBS Letters
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Selective targeting of avidin/mannose 6-phosphate receptor chimeras to early or late endosomes

2000

Summary In this study we have used the Semliki forest virus expression system to transiently express chimeric proteins that contain transmembrane and cytoplasmic domains of the cation-independent mannose 6-phosphate receptor (CI-MPR) fused to chicken avidin. Immunofluorescence and electron microscopy studies showed that the chimeric protein with the entire cytoplasmic domain of CI-MPR was transported to late endosomes, where it accumulated. We made use of the biotin-binding capacity of lumenal avidin, and found that, in agreement with this distribution, the chimeric protein could be labelled with biotinylated HRP endocytosed for a long, but not a brief, period of time. However, truncation o…

CytoplasmTime FactorsHistologyEndosomeRecombinant Fusion ProteinsAmino Acid MotifsGreen Fluorescent ProteinsEndosomesEndocytosisReceptor IGF Type 2Pathology and Forensic Medicine03 medical and health sciencesCationsCricetinaeAnimalsBiotinylation030304 developmental biologyProtein Synthesis Inhibitors0303 health sciencesBrefeldin AMannose 6-phosphate receptorbiologyCell Membrane030302 biochemistry & molecular biologyPovidoneBiological TransportCell BiologyGeneral MedicineAvidinSilicon DioxideSemliki forest virusFusion proteinMolecular biologyEndocytosisTransmembrane proteinProtein Structure TertiaryLuminescent ProteinsMicroscopy ElectronTransmembrane domainCross-Linking ReagentsMicroscopy FluorescenceBiotinylationbiology.proteinCattleChickensDimerizationAvidinEuropean Journal of Cell Biology
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A novel member of an ancient superfamily: sponge (Geodia cydonium, Porifera) putative protein that features scavenger receptor cysteine-rich repeats

1997

Proteins featuring scavenger receptor cysteine-rich (SRCR) domains are prominent receptors known from vertebrates and from one phylum of invertebrates, the echinoderms. In the present study we report the first putative SRCR protein from the marine sponge Geodia cydonium (Porifera), a member of the lowest phylum of contemporary Metazoans. Two forms of SRCR molecules were characterized, which apparently represent alternative splicing of the same transcript. The long putative SRCR protein, of 1536 aa, features twelve SRCR repeats, a C-terminal transmembrane domain and a cytoplasmic tail. The sequence of the short form is identical with the long form except that it lacks a coding region near th…

DNA ComplementaryMolecular Sequence DataCell-cell recognitionReceptors Cell SurfaceBiologyHomology (biology)PhylogeneticsSequence Homology Nucleic AcidGeneticsAnimalsCoding regionAmino Acid SequenceCysteineCloning MolecularReceptors ImmunologicScavenger receptorConserved SequenceReceptors LipoproteinRepetitive Sequences Nucleic AcidReceptors ScavengerGeneticsBase SequenceC-terminusAlternative splicingMembrane ProteinsGeneral MedicineScavenger Receptors Class BBiological EvolutionPoriferaTransmembrane domainGene
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Cloning and expression of new receptors belonging to the immunoglobulin superfamily from the marine sponge Geodia cydonium

1999

A cDNA encoding a receptor tyrosine kinase (RTK) was previously cloned and expressed from the marine sponge (Porifera) Geodia cydonium. In addition to the two intracellular regions characteristic for RTKs, two immunoglobulin (Ig)-like domains are found in the extracellular part of the sponge RTK. In the present study it is shown that no further Ig-like domain is present in the upstream region of the cDNA as well as of the gene hitherto known from the sponge RTK. Two different full-length cDNAs have been isolated and characterized in the present study, which possess two Ig-like domains, one transmembrane segment, and only a short intracellular part, without a TK domain. The two deduced polyp…

DNA ComplementaryTranscription GeneticMolecular Sequence DataImmunologyImmunoglobulinsBiologyReceptor tyrosine kinaseComplementary DNAGeneticsAnimalsHumansAmino Acid SequenceNorthern blotReceptors ImmunologicPeptide Chain Initiation TranslationalIntracellular partPolymorphism GeneticBase SequenceReceptor Protein-Tyrosine KinasesBlotting NorthernImmunohistochemistryMolecular biologyPoriferaProtein Structure TertiaryTransplantationOpen reading frameTransmembrane domainbiology.proteinImmunoglobulin superfamilyCell Adhesion MoleculesImmunogenetics
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