Search results for "Sequence motif"

showing 3 items of 23 documents

F-Type Lectins: A highly diversified family of fucose-binding proteins with a unique sequence motif and structural fold, involved in self/non-self-re…

2017

The F-type lectin (FTL) family is one of the most recent to be identified and structurally characterized. Members of the FTL family are characterized by a fucose recognition domain [F-type lectin domain (FTLD)] that displays a novel jellyroll fold (“F-type” fold) and unique carbohydrate- and calcium-binding sequence motifs. This novel lectin family comprises widely distributed proteins exhibiting single, double, or greater multiples of the FTLD, either tandemly arrayed or combined with other structurally and functionally distinct domains, yielding lectin subunits of pleiotropic properties even within a single species. Furthermore, the extraordinary variability of FTL sequences (isoforms) th…

lcsh:Immunologic diseases. Allergy0301 basic medicineGene isoformImmunologySettore BIO/05 - ZoologiaFucose bindingReviewFucoseF-type lectinsSelf/non-self-recognitionKelch motif03 medical and health scienceschemistry.chemical_compoundGene duplicationImmunology and AllergyStructural modelingGeneticsInnate immunitybiologyPhylogenetic treefucolectinsLectinGlycan recognition030104 developmental biologychemistrybiology.proteinFucose-bindingFucolectinlcsh:RC581-607Sequence motifF-type lectinF-type lectins; Fucolectins; Fucose-binding; Glycan recognition; Innate immunity; Self/non-self-recognition; Structural modeling; Immunology and Allergy; Immunology
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Prediction of Specific TCR-Peptide Binding From Large Dictionaries of TCR-Peptide Pairs

2019

Abstract The T cell repertoire is composed of T cell receptors (TCR) selected by their cognate MHC-peptides and naive TCR that do not bind known peptides. While the task of distinguishing a peptide-binding TCR from a naive TCR unlikely to bind any peptide can be performed using sequence motifs, distinguishing between TCRs binding different peptides requires more advanced methods. Such a prediction is the key for using TCR repertoires as disease-specific biomarkers. We here used large scale TCR-peptide dictionaries with state-of-the-art natural language processing (NLP) methods to produce ERGO (pEptide tcR matchinG predictiOn), a highly specific classifier to predict which TCR binds to which…

lcsh:Immunologic diseases. AllergyComputer scienceevaluation methodsT-LymphocytesT cellImmunologyReceptors Antigen T-CellEpitopes T-LymphocyteTarget peptidePeptide bindingPeptidechemical and pharmacologic phenomenaComputational biologyLigandsSoftware implementationautoencoder (AE)AntigenEvaluation methodsmedicineImmunology and AllergyHumansProtein Interaction Domains and MotifsEpitope specificityAntigensDatabases ProteinOriginal Researchchemistry.chemical_classificationBinding SitesT cell repertoireChemistryRepertoirelong short-term memory (LSTM)T-cell receptorepitope specificitydeep learninghemic and immune systemsmedicine.anatomical_structuremachine learningPeptidesSequence motiflcsh:RC581-607SoftwareProtein BindingSignal TransductionTCR repertoire analysisFrontiers in Immunology
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Impact of VP1-Specific Protein Sequence Motifs on Adeno-Associated Virus Type 2 Intracellular Trafficking and Nuclear Entry

2012

ABSTRACT Adeno-associated virus type 2 (AAV2) has gained much interest as a gene delivery vector. A hallmark of AAV2-mediated gene transfer is an intracellular conformational change of the virus capsid, leading to the exposure of infection-relevant protein domains. These protein domains, which are located on the N-terminal portion of the structural proteins VP1 and VP2, include a catalytic phospholipase A 2 domain and three clusters of basic amino acids. We have identified additional protein sequence motifs located on the VP1/2 N terminus that also proved to be obligatory for virus infectivity. These motifs include signals that are known to be involved in protein interaction, endosomal sort…

virusesImmunologyProtein domainAmino Acid MotifsMolecular Sequence DataSequence alignmentBiologyMicrobiologyVirusCell LineParvoviridae InfectionsVirologyHumansAmino Acid SequenceAdeno-Associated Virus Type 2Peptide sequenceCell NucleusDependovirusMolecular biologyTransport proteinCell biologyVirus-Cell InteractionsProtein TransportCapsidInsect ScienceCapsid ProteinsSequence motifSequence Alignment
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