Search results for "cell cycle"

showing 10 items of 804 documents

Rot1 plays an antagonistic role to Clb2 in actin cytoskeleton dynamics throughout the cell cycle.

2007

ROT1 is an essential gene whose inactivation causes defects in cell cycle progression and morphogenesis in budding yeast. Rot1 affects the actin cytoskeleton during the cell cycle at two levels. First, it is required for the maintenance of apical growth during bud growth. Second, Rot1 is necessary to polarize actin cytoskeleton to the neck region at the end of mitosis; because of this defect, rot1 cells do not properly form a septum to complete cell division. The inability to polarize the actin cytoskeleton at the end of mitosis is not due to a defect in the recruitment of the polarisome scaffold protein Spa2 or the actin cytoskeleton regulators Cdc42 and Cdc24 in the neck region. Previous …

Saccharomyces cerevisiae ProteinsGenes FungalArp2/3 complexmacromolecular substancesSaccharomyces cerevisiaeCyclin BActin remodeling of neuronsGene Expression Regulation FungalCDC2-CDC28 KinasesCytoskeletonCytoskeletonPolarisomebiologyCell CycleActin remodelingCell PolarityMembrane ProteinsCell BiologyActin cytoskeletonActinsCell biologyProfilinParacytophagyMutationbiology.proteinMolecular ChaperonesJournal of cell science
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Characterization of the Viable but Nonculturable (VBNC) State in Saccharomyces cerevisiae

2013

The Viable But Non Culturable (VBNC) state has been thoroughly studied in bacteria. In contrast, it has received much less attention in other microorganisms. However, it has been suggested that various yeast species occurring in wine may enter in VBNC following sulfite stress.In order to provide conclusive evidences for the existence of a VBNC state in yeast, the ability of Saccharomyces cerevisiae to enter into a VBNC state by applying sulfite stress was investigated. Viable populations were monitored by flow cytometry while culturable populations were followed by plating on culture medium. Twenty-four hours after the application of the stress, the comparison between the culturable populat…

Saccharomyces cerevisiae ProteinsMicroorganismAnion Transport ProteinsSaccharomyces cerevisiaePopulationMutantlcsh:MedicineSaccharomyces cerevisiaeViable but nonculturableMicrobiologySulfiteslcsh:Scienceeducationeducation.field_of_studyMultidisciplinarybiologyCell Cyclelcsh:RHydrogen-Ion Concentrationbiology.organism_classificationYeastCulture MediaMolecular mechanismlcsh:QBacteriaResearch ArticlePLoS ONE
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Functional Connection Between the Clb5 Cyclin, the Protein Kinase C Pathway and the Swi4 Transcription Factor in Saccharomyces cerevisiae

2005

Abstract The rsf12 mutation was isolated in a synthetic lethal screen for genes functionally interacting with Swi4. RSF12 is CLB5. The clb5 swi4 mutant cells arrest at G2/M due to the activation of the DNA-damage checkpoint. Defects in DNA integrity was confirmed by the increased rates of chromosome loss and mitotic recombination. Other results suggest the presence of additional defects related to morphogenesis. Interestingly, genes of the PKC pathway rescue the growth defect of clb5 swi4, and pkc1 and slt2 mutations are synthetic lethal with clb5, pointing to a connection between Clb5, the PKC pathway, and Swi4. Different observations suggest that like Clb5, the PKC pathway and Swi4 are in…

Saccharomyces cerevisiae ProteinsMitotic crossoverBlotting WesternMutantSaccharomyces cerevisiaeSaccharomyces cerevisiaeInvestigationsCyclin BBiologymedicine.disease_causeGeneticsmedicineHydroxyureaImmunoprecipitationDNA FungalFluorescent Antibody Technique IndirectTranscription factorProtein Kinase CProtein kinase CCyclinRecombination GeneticGeneticsMutationKinaseCell CyclefungiFlow Cytometrybiology.organism_classificationMolecular biologyCell biologyDNA-Binding ProteinsMutationChromosomes FungalTranscription FactorsGenetics
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Unveiling novel interactions of histone chaperone Asf1 linked to TREX-2 factors Sus1 and Thp1

2014

13 páginas, 7 figuras, 2 yablas

Saccharomyces cerevisiae ProteinsTranscription Genetic(5-10) yAsf1Histone H2B ubiquitinationCell Cycle ProteinsSAGASaccharomyces cerevisiaeBiologyyeastMethylationTREX-2RNA TransportHistonesSus1Histone H3Histone H1Gene Expression Regulation FungalhistonesHistone H2ANucleosomeHistone codeTAP-MS strategyHistone ChaperonesRNA MessengerHistone octamerGeneticsNuclear ProteinsRNA-Binding ProteinsAcetylationCell BiologyYeastCell biologyRibonucleoproteinsHistone methyltransferaseProtein Processing Post-TranslationalMolecular ChaperonesResearch Paper
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A DNA region ofTorulaspora delbrueckii containing theHIS3 gene: sequence, gene order and evolution

2003

We cloned a genomic DNA fragment of the yeast Torulaspora delbrueckii by complementation of a Saccharomyces cerevisiae his3 mutant strain. DNA sequence analysis revealed that the fragment contained two complete ORFs, which share a high similarity with S. cerevisiae His3p and Mrp51p, respectively. The cloned TdHIS3 gene fully complemented the his3 mutation of S. cerevisiae, confirming that it encodes for the imidazoleglycerol-phosphate dehydrate of T. delbrueckii. Two additional ORFs, with a high homology to S. cerevisiae PET56 and DED1 genes, were mapped upstream and downstream from TdHIS3 and TdMRP51, respectively. This genetic organization is analogous to that previously found in Saccharo…

Saccharomyces cerevisiae ProteinsTranscription GeneticSequence analysisMolecular Sequence DataSaccharomyces cerevisiaeCell Cycle ProteinsBioengineeringBiologyApplied Microbiology and BiotechnologyBiochemistryHomology (biology)DEAD-box RNA HelicasesEvolution MolecularFungal ProteinsOpen Reading FramesTorulaspora delbrueckiiGeneticsAmino Acid SequenceCloning MolecularORFSDNA FungalGeneHydro-LyasesPhylogenyGeneticsBase SequenceMethyltransferasesbiology.organism_classificationMolecular biologygenomic DNASaccharomycetalesChromosomal regionSequence AlignmentRNA HelicasesBiotechnologyYeast
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Scaffold protein harmonin (USH1C) provides molecular links between Usher syndrome type 1 and type 2.

2005

Contains fulltext : 48386.pdf (Publisher’s version ) (Closed access) Usher syndrome (USH) is the most frequent cause of combined deaf-blindness in man. USH is clinically and genetically heterogeneous with at least 11 chromosomal loci assigned to the three USH types (USH1A-G, USH2A-C, USH3A). Although the different USH types exhibit almost the same phenotype in human, the identified USH genes encode for proteins which belong to very different protein classes and families. We and others recently reported that the scaffold protein harmonin (USH1C-gene product) integrates all identified USH1 molecules in a USH1-protein network. Here, we investigated the relationship between the USH2 molecules a…

Scaffold proteinGenetics and epigenetic pathways of disease [NCMLS 6]Usher syndromeStereocilia (inner ear)Cell Cycle ProteinsBiologyInteractomeReceptors G-Protein-CoupledMiceotorhinolaryngologic diseasesGeneticsmedicineAnimalsNeurosensory disorders [UMCN 3.3]Photoreceptor CellsRats WistarMolecular BiologyGeneGenetics (clinical)Renal disorder [IGMD 9]GeneticsExtracellular Matrix ProteinsStereociliumBinding SitesHair Cells Auditory InnerSodium-Bicarbonate SymportersUsher Syndrome Type 1General Medicinemedicine.diseasePhenotypeRatsMice Inbred C57BLCytoskeletal ProteinsCarrier ProteinsUsher Syndromes
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A novel Usher protein network at the periciliary reloading point between molecular transport machineries in vertebrate photoreceptor cells.

2008

Contains fulltext : 69178.pdf (Publisher’s version ) (Closed access) The human Usher syndrome (USH) is the most frequent cause of combined deaf-blindness. USH is genetically heterogeneous with at least 12 chromosomal loci assigned to three clinical types, USH1-3. Although these USH types exhibit similar phenotypes in human, the corresponding gene products belong to very different protein classes and families. The scaffold protein harmonin (USH1C) was shown to integrate all identified USH1 and USH2 molecules into protein networks. Here, we analyzed a protein network organized in the absence of harmonin by the scaffold proteins SANS (USH1G) and whirlin (USH2D). Immunoelectron microscopic anal…

Scaffold proteinGenetics and epigenetic pathways of disease [NCMLS 6]XenopusCell Cycle ProteinsNerve Tissue ProteinsBiologyIn Vitro TechniquesNeuroinformatics [DCN 3]TransfectionModels BiologicalReceptors G-Protein-CoupledMiceChlorocebus aethiopsProtein Interaction MappingGeneticsPerception and Action [DCN 1]otorhinolaryngologic diseasesAnimalsHumansNeurosensory disorders [UMCN 3.3]Cell Cycle ProteinMicroscopy ImmunoelectronMolecular BiologyIntegral membrane proteinGenetics (clinical)Adaptor Proteins Signal TransducingRenal disorder [IGMD 9]GeneticsMice KnockoutExtracellular Matrix ProteinsCiliumSignal transducing adaptor proteinMembrane ProteinsGeneral MedicineTransmembrane proteinCell biologyMice Inbred C57BLCytoskeletal ProteinsEctodomainGenetic defects of metabolism [UMCN 5.1]COS CellsNIH 3T3 CellsCervical collarUsher SyndromesFunctional Neurogenomics [DCN 2]Photoreceptor Cells VertebrateSubcellular FractionsImmunity infection and tissue repair [NCMLS 1]
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Molecular basis of human Usher syndrome: deciphering the meshes of the Usher protein network provides insights into the pathomechanisms of the Usher …

2006

Usher syndrome (USH) is the most frequent cause of combined deaf-blindness in man. It is clinically and genetically heterogeneous and at least 12 chromosomal loci are assigned to three clinical USH types, namely USH1A-G, USH2A-C, USH3A (Davenport, S.L.H., Omenn, G.S., 1977. The heterogeneity of Usher syndrome. Vth Int. Conf. Birth Defects, Montreal; Petit, C., 2001. Usher syndrome: from genetics to pathogenesis. Annu. Rev. Genomics Hum. Genet. 2, 271-297). Mutations in USH type 1 genes cause the most severe form of USH. In USH1 patients, congenital deafness is combined with a pre-pubertal onset of retinitis pigmentosa (RP) and severe vestibular dysfunctions. Those with USH2 have moderate to…

Scaffold proteinModels MolecularUsher syndromePDZ domainProtocadherinCadherin Related ProteinsCell Cycle ProteinsNerve Tissue ProteinsBiologyDeafnessMyosinsCellular and Molecular NeuroscienceRetinitis pigmentosaotorhinolaryngologic diseasesmedicineAnimalsHumansAdaptor Proteins Signal TransducingGeneticsExtracellular Matrix ProteinsModels GeneticCadherinRetinal DegenerationSignal transducing adaptor proteinDyneinsMembrane Proteinsmedicine.diseaseCadherinsSensory SystemsOphthalmologyCytoskeletal ProteinsDisease Models AnimalMembrane proteinMyosin VIIaMutationMicrotubule ProteinsVestibule LabyrinthUsher SyndromesExperimental eye research
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Ethics appraisal procedure in 79,670 Marie Skłodowska-Curie proposals from the entire European HORIZON 2020 research and innovation program (2014–202…

2021

Introduction Horizon 2020 was the most significant EU Research and Innovation programme ever implemented and included the Marie Skłodowska-Curie Actions (MSCA). Proposals submitted to the MSCA actions awere subject to the Ethics Appraisal Procedure. In this work we explored the ethics appraisal procedure in MSCA H2020. Methods Using a retrospective analysis of pooled anonymized data, we explored the ethics appraisal procedure on proposals submitted to Marie Skłodowska-Curie Actions (MSCA) during the entire Horizon 2020 program period (N = 79,670). Results Our results showed that one of the most frequently identified ethics categories was Data protection. We also detected slight differences…

Science and Technology WorkforceScience PolicyScienceLegislationPublication EthicsSocial SciencesCareers in ResearchResearch EthicsGeographical locationsEthics ResearchInformed consentData AnonymizationMedicine and Health SciencesCurieRetrospective analysisData Protection Act 1998Public and Occupational HealthEuropean UnionCell Cycle and Cell DivisionResearch IntegrityRetrospective StudiesMedical educationResearch ethicsMultidisciplinaryHorizon (archaeology)QMSCA H2020 Ethics appraisal procedure research integrityRBiology and Life SciencesSubject (documents)Cell BiologyEuropeHealth CareWork (electrical)Cell ProcessesMedicineLaw and Legal SciencesPeople and placesPsychologyEnvironmental HealthResearch ArticlePLOS ONE
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Inhibition of the pro-inflammatory mediators' production and anti-inflammatory effect of the iridoid scrovalentinoside.

2007

We have studied scrovalentinoside, an iridoid with anti-inflammatory properties isolated from Scrophularia auriculata ssp. pseudoauriculata, as an anti-inflammatory agent in different experimental models of delayed-type hypersensitivity. We found that scrovalentinoside reduced the edema induced by oxazolone at 0.5 mg/ear and sheep red blood cells at 10 mg/kg. The observed effect occurred during the last phase or inflammatory response; during the earlier phase or induction of the delayed-type hypersensitivity reaction, no significant activity was noted. Thus, scrovalentinoside reduced both the edema and cell infiltration in vivo and reduced lymphocyte proliferation in vitro, affecting the cy…

ScrophulariaLeukotriene B4medicine.medical_treatmentT-LymphocytesBlotting WesternAnti-Inflammatory AgentsInflammationLymphocyte proliferationPharmacologyOxazolonechemistry.chemical_compoundMiceReceptors GlucocorticoidEdemaDrug DiscoverymedicineAnimalsEdemaHumansHypersensitivity DelayedIridoidsGlycosidesPhytohemagglutininsUnsaturated fatty acidCell ProliferationPharmacologyPlants MedicinalChemistryMacrophagesCell CycleOxazoloneRatsDisease Models AnimalCytokineEicosanoidImmunologyIridoid GlycosidesFemalePlant Preparationsmedicine.symptomInflammation MediatorsJournal of ethnopharmacology
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