Search results for "C-terminus"

showing 10 items of 14 documents

The structural plasticity of the C terminus of p21Cip1 is a determinant for target protein recognition.

2003

The cyclin-dependent kinase inhibitory protein p21(Cip1) might play multiple roles in cell-cycle regulation through interaction of its C-terminal domain with a defined set of cellular proteins such as proliferating cell nuclear antigen (PCNA), calmodulin (CaM), and the oncoprotein SET. p21(Cip1) could be described as an intrinsically unstructured protein in solution although the C-terminal domain adopts a well-defined extended conformation when bound to PCNA. However, the molecular mechanism of the interaction with CaM and the oncoprotein SET is not well understood, partly because of the lack of structural information. In this work, a peptide derived from the C-terminal domain of p21(Cip1) …

Cyclin-Dependent Kinase Inhibitor p21Models MolecularMagnetic Resonance SpectroscopyCalmodulinChromosomal Proteins Non-HistoneProtein ConformationPeptideBiologyLigandsBiochemistryBinding CompetitiveDomain (software engineering)Molecular recognitionCalmodulinCyclinsProliferating Cell Nuclear AntigenEscherichia coliHumansHistone ChaperonesMolecular Biologychemistry.chemical_classificationC-terminusCircular DichroismOrganic ChemistryCell CycleProteinsPeptide FragmentsCell biologyDNA-Binding ProteinschemistryBiochemistrybiology.proteinMolecular MedicineTarget proteinAlpha helixBinding domainTranscription FactorsChembiochem : a European journal of chemical biology
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Concomitant loss of conformation and superantigenic activity of staphylococcal enterotoxin B deletion mutant proteins.

1993

The T-cell-stimulating activity of staphylococcal enterotoxin B (SEB) is an important factor in the pathogenesis of certain staphylococcal diseases. To investigate the immunologically active domains of the SEB molecule, we have produced truncated fragments of recombinant SEB by C-terminal and N-terminal deletions. The fragments were expressed as fusion proteins with protein A, including a cleavage site to remove the protein A part. Mutant proteins were tested for the ability to stimulate human resting T cells and SEB-reactive T-cell clones. Deletion of only 9 amino acids from the C terminus leads to complete loss of T-cell-stimulating activity. Removing further amino acids from the SEB mole…

DNA BacterialStaphylococcus aureusRecombinant Fusion ProteinsImmunologyMutantMolecular Sequence DataBiologyMicrobiologyEpitopeEnterotoxinsMiceStructure-Activity RelationshipMutant proteinAnimalsAmino Acid SequencePeptide sequencechemistry.chemical_classificationAntigens BacterialMice Inbred BALB CBase SequenceC-terminusFusion proteinMolecular biologyAmino acidInfectious DiseaseschemistryMutationParasitologyGene DeletionConformational epitopeResearch Article
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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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A membrane-destabilizing peptide in capsid protein L2 is required for egress of papillomavirus genomes from endosomes

2005

ABSTRACT Papillomaviruses are internalized via clathrin-dependent endocytosis. However, the mechanism by which viral genomes pass endosomal membranes has not been elucidated. In this report we show that the minor capsid protein L2 is required for egress of viral genomes from endosomes but not for initial uptake and uncoating and that a 23-amino-acid peptide at the C terminus of L2 is necessary for this function. Pseudogenomes encapsidated by L1 and L2 lacking this peptide accumulated in vesicular compartments similar to that observed with L1-only viral particles, and these mutant pseudoviruses were noninfectious. This L2 peptide displayed strong membrane-disrupting activity, induced cytolys…

EndosomevirusesImmunologyMutantMolecular Sequence DataPeptideEndosomesGenome ViralBiologyEndocytosisVirus ReplicationMicrobiologyGreen fluorescent proteinCell LineVirologyAnimalsHumansAmino Acid SequencePapillomaviridaechemistry.chemical_classificationC-terminusStructure and AssemblyPapillomavirus InfectionsMolecular biologyCell biologyMembrane proteinchemistryCapsidInsect ScienceMutationCapsid Proteins
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Oligomerization and hemolytic properties of the C-terminal domain of pyolysin, a cholesterol-dependent cytolysin

2013

Pyolysin (PLO) belongs to the homologous family of the cholesterol- dependent cytolysins (CDCs), which bind to cell membranes containing cholesterol to form oligomeric pores of large size. The CDC monomer structure consists of 4 domains. Among these, the C-terminal domain 4 has been implicated in membrane binding of the monomer, while the subsequent processes of oligomerization and membrane insertion have primarily been assigned to other domains of the molecule. Recombinantly expressed or proteolytic fragments that span domain 4 of the CDCs streptolysin O and perfringolysin O bind to membranes but fail to oligomerize, and they inhibit the activity of the respective wild-type toxins. We repo…

ErythrocytesMembrane bindingCellprotein bindingBiochemistryoligomerHemolysin Proteinschemistry.chemical_compoundReaction kineticsToxic materialsMonomersprotein domainRecombinant ProteinsHemolysisunclassified drugcytolysinmedicine.anatomical_structureMembraneBiochemistryStreptolysinsStreptolysinLarge sizeBacterial ToxinsBiologyCholesterol-dependent cytolysinHemolysisoligomerizationMembrane LipidsBacterial ProteinsProteolytic fragmentsEscherichia colimedicineAnimalsMonomer structuresMolecular BiologySheep Domesticcarboxy terminal sequenceC-terminal domainsCholesterolC-terminusCell MembraneHemolytic activitycholesterolCell Biologymedicine.diseaseProtein Structure TertiaryCell membranesKineticschemistryOligomersProtein MultimerizationPyolysinprotein pyolysinMembrane insertionCytology
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Nouvelles perspectives concernant la structure et la fonction du domaine carboxyl terminal de Hfq

2015

Accumulating evidence indicates that RNA metabolism components assemble into supramolecular cellular structures to mediate functional compartmentalization within the cytoplasmic membrane of the bacterial cell. This cellular compartmentalization could play important roles in the processes of RNA degradation and maturation. These components include Hfq, the RNA chaperone protein, which is involved in the post-transcriptional control of protein synthesis mainly by the virtue of its interactions with several small regulatory ncRNAs (sRNA). The Escherichia coli Hfq is structurally organized into two domains. An N-terminal domain that folds as strongly bent β-sheets within individual protomers to…

IDP intrinsically-disordered proteinslcsh:Lifelcsh:QR1-502sub-membrane macromolecular assemblyPlasma protein bindingsRNA small non-coding RNABiochemistrylcsh:Microbiologyamyloid fibrilsProtein biosynthesis0303 health sciences[SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry Molecular Biology/Structural Biology [q-bio.BM]Escherichia coli Proteins030302 biochemistry & molecular biologyHfqCTRp Hfq C-terminal peptideFTIR Fourier transform infrared spectroscopyNTR N-terminal regionCompartmentalization (psychology)Cell biology[SDV.BBM.BP]Life Sciences [q-bio]/Biochemistry Molecular Biology/BiophysicsRNA Bacterialsmall non-coding ribonucleic acid (RNA)BiochemistryFSD Fourier self-deconvolutionTransfer RNAAmyloid fibrilProtein BindingBiophysicsBiologyHost Factor 1 Protein03 medical and health sciencesEscherichia coliThT thioflavin T[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyProtein Structure QuaternaryncRNA regulatory non-coding RNAPost-transcriptional regulationMolecular Biology030304 developmental biologyOriginal PaperC-terminusRNA[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyCell Biologycellular compartmentalizationWT wild-typeProtein Structure Tertiarylcsh:QH501-531Host Factor 1 ProteinCTR Hfq C-terminal regionribonucleic acid (RNA) processing and degradationBiophysicpost-transcriptional regulationBioscience Reports
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Transient structural ordering of the RNA-binding domain of carnation mottle virus p7 movement protein modulates nucleic acid binding.

2005

Plant viral movement proteins bind to RNA and participate in the intra- and intercellular movement of the RNAs from plant viruses. However, the role and magnitude of the conformational changes associated with the formation of RNA-protein complexes are not yet defined. Here we describe studies on the relevance of a preexisting nascent alpha-helix at the C terminus of the RNA-binding domain of p7, a movement protein from carnation mottle virus, to RNA binding. Synthetic peptide analogues and single amino acid mutation at the RNA-binding domain of recombinant p7 protein were used to correlate the transient structural order in aqueous solution with RNA-binding potential.

Magnetic Resonance SpectroscopyMolecular Sequence DataBiochemistryViral ProteinsPlant virusAmino Acid SequenceBinding siteMovement proteinMolecular BiologyBinding SitesbiologyC-terminusOrganic ChemistryRNARNA-Binding Proteinsbiology.organism_classificationRecombinant ProteinsProtein Structure TertiarySpectrometry FluorescenceBiochemistryCarnation mottle virusMutationNucleic acidMolecular MedicineRNAPeptidesBinding domainChembiochem : a European journal of chemical biology
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The deletion of six amino acids at the C-terminus of the alpha 1 (II) chain causes overmodification of type II and type XI collagen: further evidence…

1996

We have identified an 18 bp deletion in exon 49 of the type II procollagen gene (COL2A1) in a patient with Kniest dysplasia. The deletion is located at the very C-terminus of the helical domain and removes two of three Gly-Pro-Pro triplets at positions 1007-1012, which are thought to be involved in helix formation and stability. Morphological investigation of an iliac crest biopsy showed large inclusions in the endoplasmic reticulum of chondrocytes, reflecting impaired secretion of type II collagen. Electrophoretic analysis of collagens extracted from cartilage or synthesised by cultured chondrocytes showed that type II and also type XI procollagen molecules containing mutant alpha 1 (II) c…

MaleDNA Mutational AnalysisMolecular Sequence DataMutantType II collagenBiologyOsteochondrodysplasiasChondrocyteIliumExonKniest dysplasiaGeneticsmedicineHumansAmino Acid SequencePeptide sequenceCells CulturedGenetics (clinical)Sequence DeletionInclusion BodiesGeneticsBase SequenceC-terminusExonsmedicine.diseaseMolecular biologyProcollagen peptidaseCartilagemedicine.anatomical_structureGenesChild PreschoolCollagenEndoplasmic Reticulum RoughProcollagenResearch ArticleJournal of Medical Genetics
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The Major Conformational IgE-binding Epitopes of Hevein (Hev b6.02) Are Identified by a Novel Chimera-based Allergen Epitope Mapping Strategy

2002

A novel approach to localize and reconstruct conformational IgE-binding epitope regions of hevein (Hev b6.02), a major natural rubber latex allergen, is described. An antimicrobial protein (AMP) from the amaranth Amaranthus caudatus was used as an immunologically non-IgE-binding adaptor molecule to which terminal or central parts of hevein were fused. Hevein and AMP share a structurally identical core region but have different N-terminal and C-terminal regions. Only 1 of 16 hevein-allergic patients showed weak IgE binding to purified native or recombinant AMP. Chimeric AMP with the hevein N terminus was recognized by IgE from 14 (88%) patients, and chimeric AMP with the hevein C terminus wa…

MaleModels MolecularProtein ConformationImmunoglobulin Emedicine.disease_causeBiochemistryEpitopelaw.inventionEpitopes0302 clinical medicineAllergenlawLectinsPlant Proteins0303 health sciencesbiologyMiddle Aged3. Good healthDatabases as TopicBiochemistryRecombinant DNAFemalePlant LectinsProtein BindingAdultPeptide BiosynthesisAdolescentRecombinant Fusion ProteinsEnzyme-Linked Immunosorbent Assay03 medical and health sciencesChimera (genetics)medicineAnimalsHumansMolecular BiologyAged030304 developmental biologyDose-Response Relationship DrugC-terminusCell BiologyAllergensImmunoglobulin EMolecular biologyAdenosine MonophosphateProtein Structure TertiaryN-terminusEpitope mappingSpectrometry Mass Matrix-Assisted Laser Desorption-Ionizationbiology.proteinChickensEpitope MappingAntimicrobial Cationic Peptides030215 immunologyJournal of Biological Chemistry
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Membrane-penetrating Domain of Streptolysin O Identified by Cysteine Scanning Mutagenesis

1996

Streptolysin O (SLO), a polypeptide of 571 amino acids, belongs to a family of highly homologous toxins that bind to cell membranes containing cholesterol and then polymerize to form large transmembrane pores. A conserved region close to the C terminus contains the single cysteine residue of SLO and has been implicated in membrane binding, which has been the only clear assignment of function to a part of the sequence. We have used a cysteine-less active mutant of SLO to introduce single cysteine residues at 19 positions distributed throughout the sequence. The cysteines were derivatized with the polarity-sensitive fluorophore acrylodan, and the fluorescence emission of the label was examine…

Membrane lipidsDetergentsBiochemistryCell membraneBiopolymersBacterial Proteins2-NaphthylaminemedicineCysteineCloning MolecularLipid bilayerMolecular Biologychemistry.chemical_classificationC-terminusCell MembraneCell BiologyTransmembrane proteinAmino acidmedicine.anatomical_structureSolubilitychemistryBiochemistryMutagenesisStreptolysinsStreptolysinCysteineJournal of Biological Chemistry
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