Search results for "membrane proteins"

showing 10 items of 713 documents

Activation of TRK Genes in Ewingʼs Sarcoma Trk A Receptor Expression Linked to Neural Differentiation

1997

Trk receptors have been identified by immunohistochemical methods in primitive neuroectodermal tumor (PNET)/Ewing's sarcoma (ES). However, the presence of different members of the Trk family of receptors in PNET/ES has not been specified. We have examined whether Trk A, B, and C receptors are specifically expressed in ES both with and without features of neural differentiation. Ten ES tumors (five primary tumors of bone and five extraosseous tumors transplanted into nude mice) were investigated for expression of Trk receptors by immunohistochemistry and reverse transcription-polymerase chain reaction. One primary ES and the five grafted ES tumors exhibited signs of neural differentiation; t…

animal structuresReceptor expressionReceptors Nerve Growth FactorSarcoma EwingBiologyPathology and Forensic MedicineMiceProto-Oncogene ProteinsmedicineAnimalsNeuroectodermal Tumors PrimitiveReceptor trkCReceptor trkAReceptorReceptor Ciliary Neurotrophic FactorMolecular BiologyNeuronsMembrane ProteinsReceptor Protein-Tyrosine KinasesEwing's sarcomaCell DifferentiationCell BiologyProtein-Tyrosine Kinasesmedicine.diseaseMolecular biologyGene Expression Regulation Neoplasticenzymes and coenzymes (carbohydrates)nervous systemTrk receptorPrimitive neuroectodermal tumorembryonic structuresImmunohistochemistrySarcomaImmunostainingDiagnostic Molecular Pathology
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The binding of G-protein to rod outer segment phospholipids at the nitrogen–water interface

1989

In the visual process, one photoexcited rhodopsin (R*) catalyzes the activation of hundreds of G-proteins. It remains to be determined whether G-protein and R* find one another by membrane surface diffusion of these components (diffusion model) or by diffusion of G-protein through the aqueous phase (hopping model). A monolayer of each main rod outer segment (ROS) phospholipid interacting with a subphase containing G-protein, has been used to simulate the interaction of G-protein with the cytoplasmic surface of discal membranes. The possible diffusion of G-protein through the aqueous phase was then measured by observing its adsorption–desorption in the monolayer of each main ROS phospholipi…

biologyChemistryAqueous two-phase systemPhospholipidMembrane ProteinsCell BiologySurface pressureBiochemistryCrystallographychemistry.chemical_compoundMembraneGTP-Binding ProteinsCytoplasmRhodopsinMonolayerbiology.proteinAnimalsCattlePhotoreceptor CellsDiffusion (business)Molecular BiologyPhospholipidsBiochemistry and Cell Biology
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Synergistic effects of neurons and astrocytes on the differentiation of brain capillary endothelial cells in culture

2003

Brain capillary endothelial cells form a functional barrier between blood and brain, based on the existence of tight junctions that limit paracellular permeability. Occludin is one of the major transmembrane proteins of tight junctions and its peripheral localization gives indication of tight junction formation. We previously reported that RBE4.B cells (brain capillary endothelial cells), cultured on collagen IV, synthesize occludin and correctly localize it at the cell periphery only when cocultured with neurons. In the present study, we describe a three-cell type-culture system that allowed us to analyze the combined effects of neurons and astrocytes on differentiation of brain capillary …

brain capillary cortical neurons Coculture occludin tight junctionsCellDrug delivery to the brainblood brain barrierBiologyBlood–brain barrierOccludinArticleRats Sprague-DawleyastrocyteOccludinmedicineAnimalsCells CulturedNeuronsTight junctionMembrane ProteinsCell DifferentiationCell BiologyTransmembrane proteinCoculture TechniquesCell biologyCapillariesRatsmedicine.anatomical_structureBlood-Brain BarrierParacellular transportAstrocytesMolecular MedicineEndothelium VascularAstrocyte
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p63 role in breast cancer

2016

cancer stem cells0301 basic medicineOncologyCA15-3Agingmedicine.medical_specialtyBreast Neoplasms03 medical and health sciencesbreast cancer0302 clinical medicineBreast cancerCancer stem cellInternal medicinemedicineHumansProtein Isoformsp63business.industryEMTMembrane ProteinsCell Biologymedicine.diseaseGene Expression Regulation NeoplasticEditorial030104 developmental biologyMembrane protein030220 oncology & carcinogenesis p63 breast cancer cancer stem cells EMT.Femalebusiness
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Proteins and enzymes of the peroxisomal membrane in mammals.

1993

Proteins of the peroxisomal membrane can be schematically divided into two groups, one being made up of more or less characterized proteins with generally unknown functions and the other consisting of enzyme activities of which the corresponding proteins have not been characterized. In the present report, these proteins and enzymes are described with the addition of unpublished results regarding their induction by peroxisome proliferators at the post-transcriptional level. Integral membrane proteins (IMPs) can be isolated using an alkaline solution of sodium carbonate. A dozen of preponderant IMPs can be seen on sodium dodecyl sulfate polyacrylamide gel electrophoresis, and the major band c…

chemistry.chemical_classificationMammalsEndoplasmic reticulumMembrane ProteinsCell BiologyGeneral MedicineIntracellular MembranesPeroxisomeBiologyMicrobodieschemistry.chemical_compoundMembrane LipidsEnzymechemistryMembrane proteinBiochemistryBiosynthesisAcyltransferaseAnimalsHumansElectrophoresis Polyacrylamide GelIntegral membrane proteinPolyacrylamide gel electrophoresisBiology of the cell
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Structure-based statistical analysis of transmembrane helices

2012

Recent advances in determination of the high-resolution structure of membrane proteins now enable analysis of the main features of amino acids in transmembrane (TM) segments in comparison with amino acids in water-soluble helices. In this work, we conducted a large-scale analysis of the prevalent locations of amino acids by using a data set of 170 structures of integral membrane proteins obtained from the MPtopo database and 930 structures of water-soluble helical proteins obtained from the protein data bank. Large hydrophobic amino acids (Leu, Val, Ile, and Phe) plus Gly were clearly prevalent in TM helices whereas polar amino acids (Glu, Lys, Asp, Arg, and Gln) were less frequent in this …

chemistry.chemical_classificationModels MolecularChemistryCell MembraneBiophysicsComputational BiologyMembrane ProteinsWaterHelix-turn-helixGeneral MedicineBiofísicaProtein Structure SecondaryAmino acidTransmembrane domainCrystallographyMembrane proteinSolubilitySeqüència d'aminoàcidsHelixChou–Fasman methodThermodynamicsDatabases ProteinIntegral membrane proteinHydrophobicity scales
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The dynamic orientation of membrane-bound peptides: bridging simulations and experiments.

2007

AbstractThe structural organization in a peptide/membrane supramolecular complex is best described by knowledge of the peptide orientation plus its time-dependent and spatial fluctuations. The static orientation, defined by the peptide tilt and a rotation about its molecular axis, is accessible through a number of spectroscopic methods. However, peptide dynamics, although relevant to understand the functionality of these systems, remains largely unexplored. Here, we describe the orientation and dynamics of Trp-flanked and Lys-flanked hydrophobic peptides in a lipid bilayer from molecular dynamics simulations. A novel view is revealed, where collective nontrivial distributions of time-evolvi…

chemistry.chemical_classificationModels MolecularMembranesProtein ConformationLipid BilayersBiophysicsSupramolecular chemistryAnchoringMembrane ProteinsPeptideOrientation (graph theory)CrystallographyMolecular dynamicsMembraneProtein structurechemistryModels ChemicalChemical physicsComputer SimulationLipid bilayerDimyristoylphosphatidylcholinePeptidesBiophysical journal
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Intra-Helical Salt Bridge Contribution to Membrane Protein Insertion.

2021

ABSTRACTSalt bridges between negatively (D, E) and positively charged (K, R, H) amino acids play an important role in protein stabilization. This has a more prevalent effect in membrane proteins where polar amino acids are exposed to a very hydrophobic environment. In transmembrane (TM) helices the presence of charged residues can hinder the insertion of the helices into the membrane. This can sometimes be avoided by TM region rearrangements after insertion, but it is also possible that the formation of salt bridges could decrease the cost of membrane integration. However, the presence of intra-helical salt bridges in TM domains and their effect on insertion has not been properly studied ye…

chemistry.chemical_classificationProtein Conformation alpha-HelicalCell MembraneStatic ElectricityMembrane ProteinsElectrostaticsTransmembrane proteinAmino acidMembraneMembrane proteinchemistryStructural BiologyBiophysicsSalt bridgeProtein stabilizationAmino AcidsMolecular BiologyHydrophobic and Hydrophilic InteractionsBiogenesisJournal of molecular biology
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Aggregation of sponge cells. Isolation and characterization of an inhibitor of aggregation receptor from the cell surface.

1979

From the cell membranes of the sponge Geodia cydonium a component was isolated and purified which inhibits the aggregation factor isolated from the same source; the component was termed anti-aggregation receptor. This molecule was characterized as a glycoprotein (54% neutral carbohydrate) and its molecular weight is in the range of 180,000 One biological site of the anti-aggregation receptor was determined to be D-galactose. Indirect evidence presented seems to indicate that this molecule is present in an active form in aggregation-deficient cells and absent in aggregation-susceptible cells.

chemistry.chemical_classificationbiologyCellCell MembraneGuanosine MonophosphateMembrane ProteinsCarbohydratebiology.organism_classificationBiochemistryPoriferaMolecular WeightSpongeKineticsMembranemedicine.anatomical_structurechemistryBiochemistrymedicineMoleculeAnimalsGeodiaGlycoproteinReceptorCell AggregationEuropean journal of biochemistry
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The hedgehog receptor patched is involved in cholesterol transport.

2011

International audience; BACKGROUND: Sonic hedgehog (Shh) signaling plays a crucial role in growth and patterning during embryonic development, and also in stem cell maintenance and tissue regeneration in adults. Aberrant Shh pathway activation is involved in the development of many tumors, and one of the most affected Shh signaling steps found in these tumors is the regulation of the signaling receptor Smoothened by the Shh receptor Patched. In the present work, we investigated Patched activity and the mechanism by which Patched inhibits Smoothened. METHODOLOGY/PRINCIPAL FINDINGS: Using the well-known Shh-responding cell line of mouse fibroblasts NIH 3T3, we first observed that enhancement …

ciliumlcsh:MedicineyeastBiochemistryReceptors G-Protein-CoupledTransmembrane Transport ProteinsMicechemistry.chemical_compound0302 clinical medicineMolecular Cell Biology[SDV.IDA]Life Sciences [q-bio]/Food engineeringMembrane Receptor SignalingBiomacromolecule-Ligand InteractionsSonic hedgehoglcsh:ScienceComputingMilieux_MISCELLANEOUS0303 health sciencesMultidisciplinaryMechanisms of Signal TransductionVeratrum Alkaloids[SDV.IDA] Life Sciences [q-bio]/Food engineeringdrosophilaSmoothened ReceptorLipidsHedgehog signaling pathwayCell biologySterolsSmoothened ReceptorAlimentation et Nutritionembryonic structurescilMembranes and Sorting[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Signal transductionvesicular traffickingSignal TransductionResearch Articleprimary ciliumPatched ReceptorsPatchedsignal-transductionanimal structuresCyclopamine[SPI.GPROC] Engineering Sciences [physics]/Chemical and Process EngineeringBiophysicsReceptors Cell Surfacepathway activationSaccharomyces cerevisiaetransduction du signalBiology03 medical and health sciencessonic hedgehoglipidAnimalsHumansFood and NutritionHedgehog Proteins[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringBiology030304 developmental biologyPatched Receptorsprotein signalsCell Membranelcsh:RProteinscholesterolBiological TransportTransmembrane Proteinssterol-sensing domainchemistry[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]NIH 3T3 Cellscholesterol;lipid;cell trafficking; yeast;drosophila;cells ; pathway activation; vesicular trafficking; signal-transduction; sonic hedgehog;sterol-sensing domain; primary cilium;protein signalsbiology.proteincellslcsh:Qcell traffickingSmoothened030217 neurology & neurosurgery
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