Search results for "Multigene"

showing 10 items of 145 documents

Identification of a positively evolving putative binding region with increased variability in posttranslational motifs in zonadhesin MAM domain 2.

2005

Positive selection has been shown to be pervasive in sex-related proteins of many metazoan taxa. However, we are only beginning to understand molecular evolutionary processes on the lineage to humans. To elucidate the evolution of proteins involved in human reproduction, we studied the sequence evolution of MAM domains of the sperm-ligand zonadhesin in respect to single amino acid sites, solvent accessibility, and posttranslational modification. GenBank-data were supplemented by new cDNA-sequences of a representative non-human primate panel. Solvent accessibility predictions identified a probably exposed fragment of 30 amino acids belonging to MAM domain 2 (i.e., MAM domain 3 in mouse). The…

GlycosylationGlycosylationMolecular Sequence DataBiologyProtein Serine-Threonine Kinaseschemistry.chemical_compoundMiceN-linked glycosylationGenetic variationGeneticsAnimalsAmino Acid SequenceBinding sitePhosphorylationSelection GeneticMolecular BiologyPeptide sequenceEcology Evolution Behavior and SystematicsBinding selectivitychemistry.chemical_classificationGeneticsBinding SitesBase SequenceSequence Homology Amino AcidGenetic VariationMembrane ProteinsAmino acidRepressor ProteinsSperm MaturationchemistryMultigene FamilyPhosphorylationProtein Processing Post-TranslationalTranscription FactorsMolecular phylogenetics and evolution
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Molecular evolution of the metazoan protein kinase C multigene family

1996

Protein kinases C (PKCs) comprise closely related Ser/Thr kinases, ubiquitously present in animal tissues ; they respond to second messengers, e.g., Ca2+ and/or diacylglycerol, to express their activities. Two PKCs have been sequenced from Geodia cydonium, a member of the lowest multicellular animals, the sponges (Porifera). One sponge G. cydonium PKC, GCPKC1, belongs to the ''novel'' (Ca2+-independent) PKC (nPKC) subfamily while the second one, GCPKC2, has the hall-marks of the ''conventional'' (Ca2+-dependent) PKC (cPKC) subfamily. The alignment of the Ser/Thr catalytic kinase domains, of the predicted aa sequences for these cDNAs with respective segments from previously reported sequence…

SubfamilyMolecular Sequence DataProtein Serine-Threonine KinasesHomology (biology)CatalysisEvolution MolecularGeneticsAnimalssponges ; Geodia cydonium ; serine/threonine kinases ; phylogeny ; molecular systematics ; molecular evolutionAmino Acid SequenceMolecular BiologyEcology Evolution Behavior and SystematicsProtein kinase CPhylogenyProtein Kinase CGeneticsProtein-Serine-Threonine KinasesbiologyBase SequenceSequence Homology Amino AcidKinaseCyclin-dependent kinase 2PKCSCell biologyPoriferaenzymes and coenzymes (carbohydrates)Protein kinase domainMultigene Familybiology.proteinbiological phenomena cell phenomena and immunity
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Immunoglobulin-like domain is present in the extracellular part of the receptor tyrosine kinase from the marine sponge Geodia cydonium.

1994

We have isolated and characterized two cDNAs from the marine sponge Geodia cydonium coding for a new member of a receptor tyrosine kinase of class II. The deduced amino acid sequence shows two characteristic domains: (i) the tyrosine kinase domain; and (ii) and immunoglobulin-like domain. The latter part shows high homology to the vertebrate C2 type immunoglobulin domain. This result demonstrates that immunoglobulin domains are not recent achievements of higher animals but exist also in those animals which have diverged from other organisms about 800 million years ago.

DNA ComplementarybiologySequence Homology Amino AcidMolecular Sequence DatamyrImmunoglobulinsReceptor Protein-Tyrosine KinasesImmunoglobulin domainSH2 domainBiological EvolutionReceptor tyrosine kinasePoriferaProtein Structure TertiaryBiochemistryStructural BiologyPhylogeneticsMultigene FamilyROR1biology.proteinAnimalsAmino Acid SequenceMolecular BiologyPeptide sequenceTyrosine kinaseSequence AlignmentJournal of molecular recognition : JMR
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Susceptibility to Heart Defects in Down Syndrome Is Associated with Single Nucleotide Polymorphisms in HAS 21 Interferon Receptor Cluster and VEGFA G…

2020

Background: Congenital heart defects (CHDs) are present in about 40&ndash

0301 basic medicineVEGFAAdultHeart Defects CongenitalMaleVascular Endothelial Growth Factor ADown syndromelcsh:QH426-470AdolescentChromosomes Human Pair 21Down syndromeSNPSingle-nucleotide polymorphismBiologyPolymorphism Single NucleotideArticle03 medical and health sciencesHeart disorder0302 clinical medicineGenotypeGeneticsmedicineHumansGeneGenetics (clinical)IFNRReceptors InterferonGeneticsmedicine.diseasePhenotypeHeart defectlcsh:GeneticsVascular endothelial growth factor A030104 developmental biologySettore MED/03 - Genetica Medica030220 oncology & carcinogenesisMultigene Familyheart defectsFemaleChromosome 21SNPsGenes
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Human type I cytokeratin genes are a compact cluster

1997

A YAC clone (211F11) containing approximately 0.5 Mb of human DNA was isolated from a human genomic library by PCR-based screening with cytokeratin (KRT) 13-specific primers. The YAC clone was mapped by FISH to the long arm of chromosome 17 (17q12→q21), a region to which several other type I KRT genes had been mapped previously. We now show by Southern blot hybridization and PFGE analyses that KRT13, 14, 15, and 16 are all contained within YAC clone 211F11. Long-range restriction mapping analysis of clone 211F11 and of two smaller YAC clones that were also isolated with KRT13-specific primers, suggests that KRT13, 14, 15, 16 and their linked type I genes KRT17 and 19, are contained in less …

Genetic LinkageLocus (genetics)BiologyPolymerase Chain ReactionRestriction mapGene mappingGene clusterGeneticsHumansGenomic libraryCloning MolecularChromosomes Artificial YeastMolecular BiologyIn Situ Hybridization FluorescenceGenetics (clinical)Southern blotGeneticsBase SequenceChromosome MappingMolecular biologyChromosome 17 (human)genomic DNAMultigene FamilyKeratinsDNA ProbesChromosomes Human Pair 17
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Characterization of three different clusters of 18S-26S ribosomal DNA genes in the sea urchin P. lividus: Genetic and epigenetic regulation synchrono…

2015

We previously reported the characterization 5S ribosomal DNA (rDNA) clusters in the common sea urchin Paracentrotus lividus and demonstrated the presence of DNA methylation-dependent silencing of embryo specific 5S rDNA cluster in adult tissue. In this work, we show genetic and epigenetic characterization of 18S-26S rDNA clusters in this specie. The results indicate the presence of three different 18S-26S rDNA clusters with different Non-Transcribed Spacer (NTS) regions that have different chromosomal localizations. Moreover, we show that the two largest clusters are hyper-methylated in the promoter-containing NTS regions in adult tissues, as in the 5S rDNA. These findings demonstrate an an…

MSRE-PCR analysi0301 basic medicineMethylation statuSea urchinBiologyRibosomeDNA RibosomalParacentrotus lividusEpigenesis Genetic03 medical and health scienceschemistry.chemical_compound0302 clinical medicinebiology.animalSequence Homology Nucleic AcidGeneticsRNA Ribosomal 18SGene silencingAnimalsEpigeneticsGeneRibosomal DNASea urchinGeneticsBase SequenceRNA Ribosomal 5SGeneral MedicineSequence Analysis DNAbiology.organism_classificationRibosomeSettore BIO/18 - Genetica030104 developmental biologychemistryRNA Ribosomal030220 oncology & carcinogenesisMultigene Family18S-26S rDNAParacentrotusDNAGene
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Evolution of Snake Venom Disintegrins by Positive Darwinian Selection

2008

PII-disintegrins, cysteine-rich polypeptides broadly distributed in the venoms of geographically diverse species of vipers and rattlesnakes, antagonize the adhesive functions of beta(1) and beta(3) integrin receptors. PII-disintegrins evolved in Viperidae by neofunctionalization of disintegrin-like domains of duplicated PIII-snake venom hemorrhagic metalloproteinase (SVMP) genes recruited into the venom proteome before the radiation of the advanced snakes. Minimization of the gene (loss of introns and coding regions) and the protein structures (successive loss of disulfide bonds) underpins the postduplication divergence of disintegrins. However, little is known about the underlying genetic …

Models MolecularProtein ConformationDisintegrinsMolecular Sequence DataEvolution MolecularNegative selectionPhylogeneticsMolecular evolutionViperidaeGeneticsDisintegrinAnimalsAmino Acid SequenceSelection GeneticMolecular BiologyGenePhylogenyEcology Evolution Behavior and SystematicsGeneticsEvolution of snake venomBinding SitesbiologyPhylogenetic treeMultigene Familybiology.proteinNeofunctionalizationProtein MultimerizationSnake VenomsMolecular Biology and Evolution
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Unravelling the biosynthesis of pyriculol in the rice blast fungus Magnaporthe oryzae

2017

Pyriculol was isolated from the rice blast fungus Magnaporthe oryzae and found to induce lesion formation on rice leaves. These findings suggest that it could be involved in virulence. The gene MoPKS19 was identified to encode a polyketide synthase essential for the production of the polyketide pyriculol in the rice blast fungus M. oryzae. The transcript abundance of MoPKS19 correlates with the biosynthesis rate of pyriculol in a time-dependent manner. Furthermore, gene inactivation of MoPKS19 resulted in a mutant unable to produce pyriculol, pyriculariol and their dihydro derivatives. Inactivation of a putative oxidase-encoding gene MoC19OXR1, which was found to be located in the genome cl…

0106 biological sciences0301 basic medicineMagnaportheMutantSecondary Metabolism01 natural sciencesMicrobiologyMicrobiology03 medical and health sciencesPolyketideGene Expression Regulation FungalPolyketide synthaseAxenicGenePlant DiseasesRegulation of gene expressionbiologyFungal geneticsfood and beveragesOryzabiology.organism_classificationPlant LeavesMagnaporthe030104 developmental biologyBenzaldehydesMultigene FamilyPolyketidesbiology.proteinFatty AlcoholsPolyketide SynthasesTranscription FactorsResearch Article010606 plant biology & botanyMicrobiology
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Characterization of denitrification gene clusters of soil bacteria via a metagenomic approach

2009

International audience; Denitrification is a microbial respiratory process contributing to the emission of greenhouse gas. The study of denitrifying bacteria, like that of others, is hindered by characteristics that can prevent up to 99% of soil bacteria from being cultivated in vitro. New approaches based on the direct extraction of DNA from the natural environment and PCR amplifications can overcome limitations due to bacterial unculturability, but until now their application to denitrification genes has led only to the recovery of partial sequences for some of these genes.Our goals in this study were to apply a metagenomic approach characterized by cloning of DNA extracted from soil and …

Denitrification[SDV]Life Sciences [q-bio]Microbial metabolismNIRKApplied Microbiology and Biotechnology[ SPI.NRJ ] Engineering Sciences [physics]/Electric powerGene OrderGene clusterPHYLOGENETIC ANALYSISNITROUS-OXIDE REDUCTASESoil MicrobiologyComputingMilieux_MISCELLANEOUS2. Zero hunger0303 health sciencesdenitrificationEcologyfood and beveragesFAMILYCOMMUNITYPCRMultigene Family[SDE]Environmental SciencesSoil microbiologyMetabolic Networks and PathwaysBiotechnologyDNA BacterialDOMAINSNitrogenMolecular Sequence DataComputational biologyBiologyMicrobial Ecologysoil03 medical and health sciencesmetagenomic;n-cycle;denitrification;soil Bacterial ProteinsOperonBotanymetagenomicNitrogen cycle030304 developmental biology[ SDE.BE ] Environmental Sciences/Biodiversity and EcologyNITRIC-OXIDEBacteriaSequence Homology Amino Acid030306 microbiology[SPI.NRJ]Engineering Sciences [physics]/Electric powerSequence Analysis DNAn-cyclebiology.organism_classificationDENITRIFYING PSEUDOMONAS-STUTZERIMetagenomicsPyrosequencing[SDE.BE]Environmental Sciences/Biodiversity and EcologyBacteria[SPI.NRJ] Engineering Sciences [physics]/Electric powerFood ScienceNOSZ GENES
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Genome-Wide Profiling and Phylogenetic Analysis of the SWEET Sugar Transporter Gene Family in Walnut and Their Lack of Responsiveness to Xanthomonas …

2020

Following photosynthesis, sucrose is translocated to sink organs, where it provides the primary source of carbon and energy to sustain plant growth and development. Sugar transporters from the SWEET (sugar will eventually be exported transporter) family are rate-limiting factors that mediate sucrose transport across concentration gradients, sustain yields, and participate in reproductive development, plant senescence, stress responses, as well as support plant&ndash

0106 biological sciences0301 basic medicinephylogeny01 natural scienceslcsh:Chemistrywalnut blightTAL effectorType III Secretion Systems2.1 Biological and endogenous factorsAetiologylcsh:QH301-705.5SpectroscopyPlant Proteins<i>Xanthomonas</i>GeneticsGenomebiologyfood and beveragesSWEET sugar transportersGeneral MedicineSucrose transportComputer Science ApplicationsInfectious DiseasesMultigene Familygene familyJuglansXanthomonasPlant DevelopmentJuglansCatalysisInorganic Chemistry03 medical and health sciencesTAL effectorXanthomonasGeneticsGene familySugar transporterPhysical and Theoretical ChemistryMolecular BiologyGenePlant DiseasesChemical PhysicsOrganic ChemistryfungiMembrane Transport ProteinsBiological TransportXanthomonas arboricolaPlantbiology.organism_classification030104 developmental biologylcsh:Biology (General)lcsh:QD1-999Gene Expression Regulationgene expressionOther Biological SciencesOther Chemical Sciences010606 plant biology & botanyInternational Journal of Molecular Sciences
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