Search results for "translatio"

showing 10 items of 1331 documents

Sequence of the M28 dsRNA: Preprotoxin Is Processed to an α/β Heterodimeric Protein Toxin

1995

The killer and immunity phenotypes of K28 killer strains of Saccharomyces cerevisiae are determined by the 1.75-kb M28 dsRNA virus. In the plus strand, M28p, the K28 preprotoxin gene, comprises bases 13-1047 and is followed, after an additional 85 bases, by a 63-bp poly(A) sequence and a 553-base 3'-sequence. This 3'-sequence contains two potential stem-loop structures predicted to bind the L-A encoded cap-pol protein, initiating encapsidation; high-level expression results in curing of M1 dsRNA. Expression of M28p confers the complete K28 killer and immunity phenotype on a cell lacking M28 dsRNA. K28 toxin is a disulfide-bonded heterodimer of alpha (10.5 kDa) and beta (11 kDa) components w…

Signal peptideDNA ComplementaryGlycosylationSaccharomyces cerevisiae ProteinsGlycosylationMolecular Sequence DataMutantCarboxypeptidasesSaccharomyces cerevisiaeBiologymedicine.disease_causeCleavage (embryo)Fungal Proteinschemistry.chemical_compoundGene Expression Regulation FungalVirologyEndopeptidasesmedicineSecretionAmino Acid SequenceSubtilisinsGeneDNA PrimersRNA Double-StrandedBase SequenceToxinSerine EndopeptidasesMembrane ProteinsRNA FungalMycotoxinsMolecular biologyKiller Factors YeastRNA silencingchemistryProprotein ConvertasesProtein Processing Post-TranslationalVirology
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Isolation and characterization of two T-box genes from sponges, the phylogenetically oldest metazoan taxon

2003

It is now well established that all metazoan phyla derived from one common ancestor, the hypothetical Urmetazoa. Due to the basal position of Porifera (Demospongiae) in the phylogenetic tree of Metazoa, studies on the mechanisms controlling the development of these animals can provide clues on the understanding of the origin of multicellular animals and on how the first organization of the body plan evolved. In this report we describe the isolation and genomic characterization of two T-box genes from the siliceous sponge Suberites domuncula. The phylogenetic analysis classifies one into the subfamily of Brachyury, Sd-Bra, and the second into the Tbx2 subfamily, Sd-Tbx2. Analyses of the Sd-B…

Siliceous spongeBrachyuryDNA ComplementarySubfamilyMolecular Sequence DataMolecular evolutionPhylogeneticsGeneticsAnimalsProtein IsoformsElectrophoresis Gel Two-DimensionalAmino Acid SequencePhylogenyBase SequencebiologyPhylogenetic treeSequence Analysis DNAAnatomybiology.organism_classificationPoriferaSuberites domunculaAlternative SplicingBody planEvolutionary biologyT-Box Domain ProteinsProtein Processing Post-TranslationalDevelopmental BiologyDevelopment Genes and Evolution
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Targeted delivery of siRNAs against hepatocellular carcinoma-related genes by a galactosylated polyaspartamide copolymer

2021

Given the lack of effective treatments for Hepatocellular carcinoma (HCC), the development of novel therapeutic approaches is very urgent. Here, siRNAs were delivered to HCC cells by a synthetic polymer containing α,β-poly-(N-2-hydroxyethyl)-D,L-aspartamide-(PHEA) derivatized with diethylene triamine (DETA) and bearing in the side chain galactose (GAL) linked via a polyethylene glycol (PEG) to obtain (PHEA-DETA-PEG-GAL, PDPG). The GAL residue allows the targeting to the asialo-glycoprotein receptor (ASGPR), overexpressed in HCC cells compared to normal hepatocytes. Uptake studies performed using a model siRNA or a siRNA targeted against the enhanced green fluorescence protein, demonstrated …

Small interfering RNACarcinoma HepatocellularPolymersHepatocellular carcinomaCellASGPR targeted delivery; E2F1; Eukaryotic elongation Factor 1A; Hepatocellular carcinoma; siRNAPharmaceutical Science02 engineering and technologyEukaryotic elongation Factor 1AMice03 medical and health sciencesIn vivomedicineAnimalsE2F1RNA Small InterferingReceptor030304 developmental biology0303 health sciencesChemistryLiver NeoplasmsASGPR targeted deliveryGalactose021001 nanoscience & nanotechnologymedicine.diseasedigestive system diseasesEukaryotic translation elongation factor 1 alpha 1In vitromedicine.anatomical_structureE2F1Settore CHIM/09 - Farmaceutico Tecnologico ApplicativoHepatocellular carcinomasiRNACancer research0210 nano-technology
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Enhancing Gene Knockdown Efficiencies by Comparing siRNA-Loaded Cationic Nanogel Particles of Different Sizes

2015

lt;pgt;In order to silence the expression levels of pathogenic genes, small interfering RNA (siRNA) requires a nano-sized carrier for its safe and stable delivery into cells. In this research highlight, we focus on well-defined cationic nanohydrogel particles developed in our group for such purposes. To investigate the nanogels’ mechanism for enhanced knockdown efficiencies, we recently synthesized two sets of particles with similar material composition and siRNA-loading characteristics, but – according to the manufacturing process – of different sizes. Within this study, 100-nm-sized nanogel particles loaded with siRNA accumulated inside the lysosomes already after 4 h and could not induce…

Small interfering RNAGene knockdownRNA interferenceCationic polymerizationBiophysicsDistribution (pharmacology)Translation (biology)General MedicineBiologyMolecular biologyIntracellularNanogelRNA & DISEASE
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Considerations About Translation: Strategies About Frontiers

2017

SociologyTranslation (geometry)Linguistics
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Translation and terminology. On two Spanish versions (Madrid, 1800) of Dumarsais’ Logique

2013

This article is the Spanish version of “Traduction et terminologie. A propos de deux versions espagnoles (Madrid, 1800) de la Logique de Dumarsais” by Brigitte Lépinette. It was not published on the print version of MonTI for reasons of space. The online version of MonTI does not suffer from these limitations, and this is our way of promoting plurilingualism. Framed in the field of philosophical translation (lato sensu), this article deals with two different versions of Logique by Dumarsais (Paris, 1730) published in Spain. We show that these two “Lógicas”, translated by two different persons, who also had distinct purposes as is evidenced by their respective bibliographical context and met…

Space (punctuation)Linguistics and LanguageTranslationUnderstandingTraducciónLogicTerminologíamedia_common.quotation_subjectTranslation (geometry)Language and LinguisticsEducationTerminologyDumarsaisSpiritPlurilingualismÂmeEspritmedia_commonLiteratureUNESCO::CIENCIAS DE LAS ARTES Y LAS LETRASbusiness.industryEnlightenmentSiglo XVIIISoulTraducción e InterpretaciónEnlightenmentLógicaArtTerminologyPrint versionLinguistics:CIENCIAS DE LAS ARTES Y LAS LETRAS [UNESCO]English versionbusinessSoulEntendement
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Detranslation: Spanglish from a neurolinguistic point of view

2014

Despite currently growing sociolinguistic research on Spanglish, it is a very peculiar linguistic variety, which cannot be understood without a careful analysis of its neurolinguistic background. This paper argues that a theoretical neurolinguistic view on Spanglish has to consider the cortex, where English-like words are located, the limbic system, where Spanish paradigms are stored, and the bundles of nerves that bind up both of them. Spanglish is an example of detranslation, a kind of negative translation.

SpanglishLinguistics and LanguageneurolinguisticsPoint (typography)languagedetranslationVariety (linguistics)PsychologySpanglishLanguage and LinguisticsLinguisticslanguage.human_languagenegative translation
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Where Does Nε-Trimethyllysine for the Carnitine Biosynthesis in Mammals Come from?

2014

N(ε)-trimethyllysine (TML) is a non-protein amino acid which takes part in the biosynthesis of carnitine. In mammals, the breakdown of endogenous proteins containing TML residues is recognized as starting point for the carnitine biosynthesis. Here, we document that one of the main sources of TML could be the vegetables which represent an important part of daily alimentation for most mammals. A HPLC-ESI-MS/MS method, which we previously developed for the analysis of N(G)-methylarginines, was utilized to quantitate TML in numerous vegetables. We report that TML, believed to be rather rare in plants as free amino acid, is, instead, ubiquitous in them and at not negligible levels. The occurrenc…

Spectrometry Mass Electrospray IonizationLysinelcsh:MedicineGene ExpressionEndogenyPlant ScienceBiologyBiosynthesisFree aminoBiochemistryFluorescenceAnalytical Chemistrychemistry.chemical_compoundBiosynthesisCarnitineChemical BiologyVegetablesGeneticsmedicineAnimalsCarnitinelcsh:ScienceBiologyProtein MetabolismNutritionMammalschemistry.chemical_classificationChromatographyChromatography Reverse-PhaseMultidisciplinaryPlant ExtractsLysinelcsh:RApplied ChemistryBiosynthetic PathwaysAmino acidChemistryProtein catabolismMetabolismBiochemistrychemistryCarnitine biosynthesisMedicinelcsh:QProtein TranslationResearch ArticleChromatography Liquidmedicine.drugPLoS ONE
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Identification of a silicatein(-related) protease in the giant spicules of the deep-sea hexactinellid Monorhaphis chuni.

2008

SUMMARYSilicateins, members of the cathepsin L family, are enzymes that have been shown to be involved in the biosynthesis/condensation of biosilica in spicules from Demospongiae (phylum Porifera), e.g. Tethya aurantium and Suberites domuncula. The class Hexactinellida also forms spicules from this inorganic material. This class of sponges includes species that form the largest biogenic silica structures on earth. The giant basal spicules from the hexactinellids Monorhaphis chuni and Monorhaphis intermedia can reach lengths of up to 3 m and diameters of 10 mm. The giant spicules as well as the tauactines consist of a biosilica shell that surrounds the axial canal, which harbours the axial f…

SpiculePhysiologyOceans and SeasMolecular Sequence DataAquatic ScienceCysteine Proteinase InhibitorsCathepsin LDemospongeSponge spiculeAnimalsAmino Acid SequenceTethya aurantiumMolecular BiologyEcology Evolution Behavior and SystematicsPhylogenyBinding SitesbiologyHexactinellidAnimal StructuresAnatomybiology.organism_classificationCathepsinsCystatinsPoriferaSuberites domunculaMolecular WeightSpongeBiochemistryInsect ScienceMolecular Probesbiology.proteinAnimal Science and ZoologyProtein Processing Post-TranslationalThe Journal of experimental biology
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A subunit of eukaryotic translation initiation factor 2α-phosphatase (CreP/PPP1R15B) regulates membrane traffic.

2012

The constitutive reverter of eIF2α phosphorylation (CReP)/PPP1r15B targets the catalytic subunit of protein phosphatase 1 (PP1c) to phosphorylated eIF2α (p-eIF2α) to promote its dephosphorylation and translation initiation. Here, we report a novel role and mode of action of CReP. We found that CReP regulates uptake of the pore-forming Staphylococcus aureus α-toxin by epithelial cells. This function was independent of PP1c and translation, although p-eIF2α was involved. The latter accumulated at sites of toxin attack and appeared conjointly with α-toxin in early endosomes. CReP localized to membranes, interacted with phosphomimetic eIF2α, and, upon overexpression, induced and decorated a pop…

Staphylococcus aureusanimal structuresEndosomePopulationPhosphataseBacterial ToxinsEukaryotic Initiation Factor-2EndosomesBiologyBiochemistryExocytosisProtein Structure SecondaryEukaryotic translationProtein Phosphatase 1Initiation factorAnimalsHumansPhosphorylationeducationPeptide Chain Initiation TranslationalMolecular Biologyeducation.field_of_studyCell MembraneTranslation (biology)Epithelial CellsCell BiologyCell biologyProtein Structure TertiaryProtein TransportPhosphorylationRabbitsK562 CellsThe Journal of biological chemistry
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