Search results for "DOMAIN"

showing 10 items of 2485 documents

Disentangling the complexity of low complexity proteins

2020

Abstract There are multiple definitions for low complexity regions (LCRs) in protein sequences, with all of them broadly considering LCRs as regions with fewer amino acid types compared to an average composition. Following this view, LCRs can also be defined as regions showing composition bias. In this critical review, we focus on the definition of sequence complexity of LCRs and their connection with structure. We present statistics and methodological approaches that measure low complexity (LC) and related sequence properties. Composition bias is often associated with LC and disorder, but repeats, while compositionally biased, might also induce ordered structures. We illustrate this dichot…

Protein ConformationComputer scienceReview ArticleComputational biologyMeasure (mathematics)Evolution MolecularLow complexity03 medical and health sciencesProtein DomainsAmino Acid Sequencestructure[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]Databases ProteinMolecular Biology030304 developmental biologyStructure (mathematical logic)0303 health sciencesSequence[SCCO.NEUR]Cognitive science/Neurosciencecomposition bias030302 biochemistry & molecular biologyProteinsdisorderlow complexity regionsStructure and function[INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM]AlgorithmsInformation SystemsBriefings in Bioinformatics
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Peptides Derived from the Transmembrane Domain of Bcl-2 Proteins as Potential Mitochondrial Priming Tools

2014

The Bcl-2 family of proteins is crucial for apoptosis regulation. Members of this family insert through a specific C-terminal anchoring trans membrane domain (TMD) in the mitochondrial outer membrane where they hierarchically interact to determine cell fate. While the mitochondrial membrane has been proposed to actively participate in these protein protein interactions, the influence of the TMD in the membrane-mediated interaction is poorly understood. Synthetic peptides (TMD-pepts) corresponding to the putative TMD of antiapoptotic (Bcl-2, Bcl-xL, Bcl-w, and Mcl-1) and pro-apoptotic (Bax, Bak) members were synthesized and characterized. TMD-pepts bound more efficiently to mitochondria-like…

Protein ConformationMolecular Sequence DataCell fate determinationBiochemistryHumansCell LineageAmino Acid SequenceInner mitochondrial membranebiologyChemistryCircular DichroismCytochrome cGeneral MedicineMolecular biologyMitochondriaCell biologystomatognathic diseasesTransmembrane domainMembraneProto-Oncogene Proteins c-bcl-2Cell cultureApoptosisbiology.proteinMolecular MedicinePeptidesBacterial outer membranehuman activitiesHeLa Cells
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Evolutionary and structural analyses of GDAP1, involved in Charcot-Marie-Tooth disease, characterize a novel class of glutathione transferase-related…

2003

Mutations in the Ganglioside-induced differentiation-associated protein-1 (GDAP1) gene cause autosomal recessive Charcot-Marie-Tooth disease type 4A. The protein encoded by GDAP1 shows clear similarity to glutathione transferases (also known as glutathione S-transferases or GSTs). The human genome contains a paralog of GDAP1 called GDAP1L1. Using comparative genomics, we show that orthologs of GDAP1 and GDAP1L1 are found in mammals, birds, amphibians, and fishes. Likely orthologs of those genes in invertebrates and a low but consistent similarity with some plant and eubacterial genes have also been found. We demonstrate that GDAP1 and GDAP1L1 do not belong to any of the known classes of GST…

Protein ConformationMolecular Sequence DataSequence alignmentNerve Tissue ProteinsBiologyEvolution MolecularProtein structurePhylogeneticsCharcot-Marie-Tooth DiseaseDatabases GeneticGeneticsCluster AnalysisHumansAmino Acid SequenceMolecular BiologyPeptide sequenceGeneEcology Evolution Behavior and SystematicsPhylogenyGlutathione TransferaseComparative genomicsGeneticsTransmembrane domainMultigene FamilyHuman genomeSequence AlignmentMolecular biology and evolution
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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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Two amino acid residues determine the low substrate affinity of human cationic amino acid transporter-2A.

2003

Mammalian cationic amino acid transporters (CAT) differ in their substrate affinity and sensitivity to trans-stimulation. The apparent Km values for cationic amino acids and the sensitivity to trans-stimulation of CAT-1, -2B, and -3 are characteristic of system y+. In contrast, CAT-2A exhibits a 10-fold lower substrate affinity and is largely independent of substrate at the trans-side of the membrane. CAT-2A and -2B demonstrate such divergent transport properties, even though their amino acid sequences differ only in a stretch of 42 amino acids. Here, we identify two amino acid residues within this 42-amino acid domain of the human CAT-2A protein that are responsible for the apparent low af…

Protein ConformationRecombinant Fusion ProteinsBlotting WesternGreen Fluorescent ProteinsMolecular Sequence DataGene ExpressionArginineTransfectionBiochemistryStructure-Activity RelationshipXenopus laevisExtracellularAnimalsHumansBiotinylationAmino acid transporterAmino Acid SequenceAmino AcidsCationic Amino Acid Transporter 2Molecular BiologyGlutathione Transferasechemistry.chemical_classificationBinding SitesSubstrate (chemistry)Biological TransportCell BiologyPhoto-reactive amino acid analogAmino acidTransmembrane domainLuminescent ProteinsS-tagchemistryBiochemistryMutagenesis Site-DirectedOocytesElectrophoresis Polyacrylamide GelFemaleIntracellularThe Journal of biological chemistry
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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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The Recent Crystal Structure of Human Tyrosinase Related Protein 1 (HsTYRP1) Solves an Old Problem and Poses a New One

2017

Show your metal: l-Tyrosine is converted into the protective antioxidative polymer melanin in a sequence of reactions. In humans, the catalytic pathway starts with the tyrosinase HsTYR and two tyrosinase-related proteins HsTYRP1 and HsTYRP2. All three enzymes have the same active site but the latter two contain two zinc ions instead of copper ions.

Protein ConformationTyrosinasechemistry.chemical_elementNanotechnologyZincCrystallography X-Ray010402 general chemistry01 natural sciencesAntioxidantsCatalysisMelaninProtein structureCatalytic DomainHumansTYRP1MelanosomeMelaninschemistry.chemical_classificationMembrane Glycoproteinsbiology010405 organic chemistryActive siteGeneral ChemistryCombinatorial chemistry0104 chemical sciencesZincEnzymechemistrybiology.proteinTyrosineOxidoreductasesCopperAngewandte Chemie International Edition
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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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158 Study of the Role of FAS-associated Death Domain Protein FADD in Brain Pathology by Conditional Gene Inactivation

2007

Protein FADDImmunologyImmunology and AllergyHematologyBiologyMolecular BiologyBiochemistryGeneDeath domainCell biologyCytokine
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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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