Search results for "binding"

showing 10 items of 3896 documents

Evolutionary plasticity of SH3 domain binding by Nef proteins of the HIV-1/SIVcpz lentiviral lineage

2021

ABSTRACTThe accessory protein Nef of human and simian immunodeficiency viruses (HIV and SIV) is an important pathogenicity factor known to interact with cellular protein kinases and other signaling proteins. A canonical SH3 domain binding motif in Nef is required for most of these interactions. For example, HIV-1 Nef activates the tyrosine kinase Hck by tightly binding to its SH3 domain. An archetypal contact between a negatively charged SH3 residue and a highly conserved arginine in Nef (Arg77) plays a key role here. Combining structural analyses with functional assays, we here show that Nef proteins have also developed a distinct structural strategy - termed the “R-clamp” - that favors th…

Geneticschemistry.chemical_classification0303 health sciencesLineage (genetic)Kinaseviruses030302 biochemistry & molecular biologyHuman immunodeficiency virus (HIV)virus diseasesBiologymedicine.disease_causeSH3 domainAmino acid03 medical and health scienceschemistrymedicineSalt bridgeBinding siteTyrosine kinase030304 developmental biology
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An approach to determining anthocyanin synthesis enzyme gene expression in an evolutionary context: an example from Erica plukenetii

2019

Abstract Background and Aims Floral colour in angiosperms can be controlled by variations in the expression of the genes of the anthocyanin pathway. Floral colour shifts influence pollinator specificity. Multiple shifts in floral colour occurred in the diversification of the genus Erica (Ericaceae), from plesiomorphic pink to, for example, red or white flowers. Variation in anthocyanin gene expression and its effects on floral colour in the red-, pink- and white-flowered Erica plukenetii species complex was investigated. Methods Next generation sequencing, reverse transcriptase PCR and real-time reverse transcriptase quantitative PCR were used to quantify anthocyanin gene expression. Key Re…

GeneticsfungiColorfood and beveragesContext (language use)FlowersOriginal ArticlesPlant ScienceBiologybiology.organism_classificationDNA sequencingAnthocyaninsWhite (mutation)DNA binding siteReverse transcription polymerase chain reactionErica plukenetiiGene Expression Regulation PlantGene expressionEricaceaeGene
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A Major Effect Gene Controlling Development and Pathogenicity in Botrytis cinerea Identified Through Genetic Analysis of Natural Mycelial Non-pathoge…

2021

Botrytis cinerea is a necrotrophic plant pathogenic fungus with a wide host range. Its natural populations are phenotypically and genetically very diverse. A survey of B. cinerea isolates causing gray mold in the vineyards of Castilla y León, Spain, was carried out and as a result eight non-pathogenic natural variants were identified. Phenotypically these isolates belong to two groups. The first group consists of seven isolates displaying a characteristic mycelial morphotype, which do not sporulate and is unable to produce sclerotia. The second group includes one isolate, which sporulates profusely and does not produce sclerotia. All of them are unresponsive to light. Crosses between a repr…

Geneticsgray moldBulked segregant analysisLocus (genetics)bulked segregant analysiPlant SciencePathogenic fungusBiologylcsh:Plant cultureacetyl transferasebiology.organism_classificationGenetic analysisLaboratorium voor PhytopathologieDNA binding domainComplementationbulked segregant analysisLaboratory of Phytopathologygenetic complementationlcsh:SB1-1110AlleleEPSGeneBotrytis cinereaOriginal ResearchFrontiers in Plant Science
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New point mutation (R243W) in the hormone binding domain of the c‐erbA β1 gene in a family with generalized resistance to thyroid hormone

1996

Two years after the first mutation on exon 7 in the carboxy-terminal part of the hinge domain (D) was reported (Behr and Loos 1992), we have identified the second mutation on exon 7 in patients with GRTH. Interestingly, our mutation it is not located in the two previously described "hot spot regions", but instead very close to the hinge domain (D) of the receptor protein that is essential for the function of the hormone binding domain (E) (Lin et al., 1991). Confirming the observation that the majority of single base substitutions causing human genetic diseases or DNA polymorphisms follow the hot spot mutation rule of CG to TG and CG to CA transition (Barker et al., 1984), an additional CpG…

Geneticsmedicine.medical_specialtyThyroid hormone receptorPoint mutationBiologyThyroid hormone receptor betaExonEndocrinologyCpG siteInternal medicinemedicineGeneticsReceptorGeneGenetics (clinical)Binding domainHuman Mutation
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Hypoxia and anemia: effects on tumor biology and treatment resistance

2004

In locally advanced solid tumors, oxygen (O2) delivery is frequently reduced or even abolished. This is due to abnormalities of the tumor microvasculature, adverse diffusion geometries, and tumor-associated and/or therapy-induced anemia. Up to 50-60% of locally advanced solid tumors may exhibit hypoxic and/or anoxic tissue areas that are heterogeneously distributed within the tumor mass. In approximately 30% of pretreatment patients, a decreased O2 transport capacity of the blood as a result of tumor-associated anemia can greatly contribute to the development of tumor hypoxia. While normal tissues can compensate for this O2 deficiency status by a rise in blood flow rate, locally advanced tu…

Genome instabilityAnemiaClinical BiochemistryDrug resistanceBiologyRadiation ToleranceNeoplasmsmedicineHumansHypoxiaRegulation of gene expressionTumor hypoxiaBiochemistry (medical)NF-kappa BNuclear ProteinsAnemiaHematologyHypoxia (medical)Hypoxia-Inducible Factor 1 alpha SubunitPrognosismedicine.diseaseNeoplasm ProteinsDNA-Binding ProteinsGene Expression Regulation NeoplasticOxygenHypoxia-inducible factorsDrug Resistance NeoplasmTumor progressionImmunologyDisease ProgressionCancer researchHypoxia-Inducible Factor 1medicine.symptomCell DivisionTranscription FactorsTransfusion Clinique et Biologique
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MAD2 depletion triggers premature cellular senescence in human primary fibroblasts by activating a P53 pathway preventing aneuploid cells propagation.

2012

The spindle assembly checkpoint (SAC) is a cellular surveillance mechanism that ensures faithful chromosome segregation during mitosis and its failure can result in aneuploidy. Previously, it was suggested that reduction of the MAD2 gene, encoding a major component of the SAC, induced aneuploidy in human tumor cells. However, tumor cell lines contain multiple mutations that might affect or exacerbate the cellular response to Mad2 depletion. Thus, the scenario resulting by Mad2 depletion in primary human cells could be different and more complex that the one depicted so far. We used primary human fibroblasts (IMR90) and epithelial breast cells (MCF10A) to gain further insight on the effects …

Genome instabilityCyclin-Dependent Kinase Inhibitor p21Cell cycle checkpointMad2PhysiologyClinical BiochemistryMAD2 depletion Aneuploidy Premature cellular senescence TP53Cell Cycle ProteinsBiologyCyclin-dependent kinaseChromosome instabilityChromosomal InstabilityTumor Suppressor Protein p14ARFHumansGene SilencingRNA Small InterferingMitosisCells CulturedCellular SenescenceCell ProliferationCalcium-Binding ProteinsCell BiologyCell Cycle CheckpointsFibroblastsAneuploidybeta-GalactosidaseCell biologyRepressor ProteinsSpindle checkpointSettore BIO/18 - GeneticaGene Expression RegulationMad2 Proteinsbiology.proteinM Phase Cell Cycle CheckpointsTumor Suppressor Protein p53Cell agingSignal Transduction
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Deficiency of the Cockayne syndrome B (CSB) gene aggravates the genomic instability caused by endogenous oxidative DNA base damage in mice.

2007

The Cockayne syndrome B protein (CSB) has long been known to be involved in the repair of DNA modifications that block the RNA polymerase in transcribed DNA sequences (transcription-coupled repair). Recent evidence suggests that it also has a more general role in the repair of oxidative DNA base modifications such as 7,8-dihydro-8-oxo-2'-deoxyguanosine (8-oxoG). In mammalian cells, 8-oxoG is a substrate of the repair glycosylase OGG1. Mice without this enzyme accumulate 8-oxoG in the genome and have elevated spontaneous mutation rates. To elucidate the role of CSB in the prevention of mutations by oxidative DNA base damage, we have generated mice that are deficient in Csb or Ogg1 or both ge…

Genome instabilityMaleCancer ResearchDNA repairDNA damageMice Inbred StrainsMice TransgenicBiologymedicine.disease_causeCockayne syndromeGenomic InstabilityDNA GlycosylasesMiceBacterial ProteinsGeneticsmedicineLac RepressorsAnimalsPoint MutationPoly-ADP-Ribose Binding ProteinsMolecular BiologyGeneSequence DeletionGeneticsMice KnockoutMutationPoint mutationmedicine.diseaseMolecular biologyRepressor ProteinsMutagenesis InsertionalOxidative StressDNA Repair EnzymesLiverDNA glycosylaseMutationFemaleDNA DamageOncogene
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Redox regulation of genome stability by effects on gene expression, epigenetic pathways and DNA damage/repair

2015

Reactive oxygen and nitrogen species (e.g. H2O2, nitric oxide) confer redox regulation of essential cellular signaling pathways such as cell differentiation, proliferation, migration and apoptosis. In addition, classical regulation of gene expression or activity, including gene transcription to RNA followed by translation to the protein level, by transcription factors (e.g. NF-κB, HIF-1α) and mRNA binding proteins (e.g. GAPDH, HuR) is subject to redox regulation. This review will give an update of recent discoveries in this field, and specifically highlight the impact of reactive oxygen and nitrogen species on DNA repair systems that contribute to genomic stability. Emphasis will be placed …

Genome instabilityRedox signalingRNA UntranslatedEpigenetic regulation of neurogenesisDNA RepairHuR mRNA-binding protein in the 3′-untranslated regionClinical BiochemistryHDAC histone deacetylaseReview ArticleAP-1 activator protein 1BiochemistryApe-1 apurinic/apyrimidinic endonuclease 1GPx-1 glutathione peroxidase-1Epigenesis GeneticHistonesTrx thioredoxinPHD prolylhydroxylaseBER base excision repairlcsh:QH301-705.5HO-1 heme oxygenase-1EpigenomicsGeneticsRegulation of gene expressionNox member of the NADPH oxidase familylcsh:R5-920JmjC Jumonji C domain-containing histone demethylasesHIF-1α hypoxia inducible factor-1α5-hmC 5-hydroxymethylcytosineddc:Cell biologyMMP matrix metalloproteinaseGrx glutaredoxinGAPDH glyceraldehyde-3-phosphate dehydrogenaseNrf2 nuclear factor erythroid related factor 2DNA methylationEpigeneticslcsh:Medicine (General)Oxidation-ReductionSignal Transduction5-mC 5-methylcytosineDNA repairDNA damageNF-κB nuclear factor-κBBiologyGenomic InstabilityRNS reactive nitrogen speciesROS reactive oxygen speciesNER nucleotide excision repairSOD superoxide dismutaseOxyR transcription factor (hydrogen peroxide-inducible genes activator)HumansEpigeneticsOrganic ChemistryPETN pentaerithrityl tetranitrateGene regulationOxidative StressDNMT DNA methyltransferaseGene Expression Regulationlcsh:Biology (General)AREs AU-rich elementsHAT histone acetyltransferaseKeap1 kelch-like ECH-associated protein 1BiomarkersCOPD chronic obstructive pulmonary disorderDNA DamageRedox Biology
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Genotype and Allele Frequencies of Drug-Metabolizing Enzymes and Drug Transporter Genes Affecting Immunosuppressants in the Spanish White Population

2013

Interpatient variability in drug response can be widely explained by genetically determined differences in metabolizing enzymes, drug transporters, and drug targets, leading to different pharmacokinetic and/or pharmacodynamic behaviors of drugs. Genetic variations affect or do not affect drug responses depending on their influence on protein activity and the relevance of such proteins in the pathway of the drug. Also, the frequency of such genetic variations differs among populations, so the clinical relevance of a specific variation is not the same in all of them. In this study, a panel of 33 single nucleotide polymorphisms in 14 different genes (ABCB1, ABCC2, ABCG2, CYP2B6, CYP2C19, CYP2C…

GenotypeCYP2B6Nod2 Signaling Adaptor ProteinOrganic Anion TransportersSingle-nucleotide polymorphismCYP2C19PharmacologyPolymorphism Single NucleotideWhite PeopleCytochrome P-450 Enzyme SystemGene FrequencyGenetic variationGenotypeHumansPharmacology (medical)ATP Binding Cassette Transporter Subfamily B Member 1GlucuronosyltransferaseAllele frequencyCYP2C9Methylenetetrahydrofolate Reductase (NADPH2)PharmacologyGeneticsbiologyMethyltransferasesMultidrug Resistance-Associated Protein 2Tissue DonorsTransplant RecipientsSpainInactivation MetabolicUDP-Glucuronosyltransferase 1A9biology.proteinSLCO1B1Immunosuppressive AgentsTherapeutic Drug Monitoring
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Chromatin structure of the yeast SUC2 promoter in regulatory mutants

1992

We have previously suggested that two positioned nucleosomes are removed from the promoter of the Saccharomyces cerevisiae SUC2 gene upon derepression by glucose starvation. To gain further insight into the changes accompanying derepression at the chromatin level we have studied the chromatin structure of the SUC2 promoter in several mutants affecting SUC2 expression. The non-derepressible mutants snf1, snf2 and snf5 present a chromatin structure characteristic of the repressed state, irrespective of the presence or absence of glucose. The non-repressible mutants, mig1 and ssn6, as well as the double mutant snfs sn6 exhibit an opened chromatin structure even in the presence of glucose. Thes…

GenotypeGenes FungalRestriction MappingMutantSaccharomyces cerevisiaeSaccharomyces cerevisiaeGeneticsMicrococcal NucleaseNucleosomeChromatin structure remodeling (RSC) complexDNA FungalPromoter Regions GeneticMolecular BiologyChIA-PETDerepressionBase SequenceModels Geneticbiologyfungibiology.organism_classificationChromatinChromatinDNA-Binding ProteinsGlucoseBiochemistryMutationbiology.proteinBivalent chromatinMolecular and General Genetics MGG
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