Search results for "evolutionary"

showing 10 items of 4392 documents

Origin and evolution of arthropod hemocyanins and related proteins.

2002

Arthropod hemocyanins are large, multimeric, (n x 6) copper-containing proteins that deliver oxygen in the haemolymph of many chelicerate, crustacean, myriapod, and also possibly some insect species. The arthropod hemocyanins belong to a large protein superfamily that also includes the arthropod phenoloxidases, certain crustacean and insect storage proteins (pseudo-hemocyanins and hexamerins), and the insect hexamerin receptors. Here I summarise the present knowledge of the origin, functional adaptations, and evolution of these proteins. Arthropod and mollusc hemocyanins are, if at all, only distantly related. As early as in the arthropod stem line, the hemocyanins emerged from a phenoloxid…

Physiologymedia_common.quotation_subjectProtein subunitmedicine.medical_treatmentchemical and pharmacologic phenomenaInsectBiochemistryEvolution MolecularEndocrinologyPhylogeneticsHemolymphmedicineAnimalsArthropodsEcology Evolution Behavior and SystematicsPhylogenymedia_commonbiologyfungihemic and immune systemsHemocyaninAnatomyProtein superfamilybiology.organism_classificationEvolutionary biologyHemocyaninsAnimal Science and ZoologyChelicerataArthropodJournal of comparative physiology. B, Biochemical, systemic, and environmental physiology
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Globally defining the effects of mutations in a picornavirus capsid

2021

The capsids of non-enveloped viruses are highly multimeric and multifunctional protein assemblies that play key roles in viral biology and pathogenesis. Despite their importance, a comprehensive understanding of how mutations affect viral fitness across different structural and functional attributes of the capsid is lacking. To address this limitation, we globally define the effects of mutations across the capsid of a human picornavirus. Using this resource, we identify structural and sequence determinants that accurately predict mutational fitness effects, refine evolutionary analyses, and define the sequence specificity of key capsid-encoded motifs. Furthermore, capitalizing on the derive…

PicornavirusViral proteinQH301-705.5Sciencevirusesmedicine.medical_treatmentPicornaviridaeComputational biologymedicine.disease_causeGenomeGeneral Biochemistry Genetics and Molecular BiologyVirusImmune systemcapsidmedicineSingle amino acidBiology (General)GeneTropismHost proteinGeneticsEvolutionary BiologyMicrobiology and Infectious DiseaseMutationmutational fitness effectsProteaseGeneral Immunology and MicrobiologybiologyGeneral NeuroscienceQRviral proteaseGeneral Medicinebiochemical phenomena metabolism and nutritionbiology.organism_classificationViruspicornavirusViral proteaseCapsidMutationMedicineCapsid ProteinsHuman genomeDeep mutational scanningResearch ArticleHuman
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Origin of the natural variation in the storage of dietary carotenoids in freshwater amphipod crustaceans

2020

16 pages; International audience; Carotenoids are diverse lipophilic natural pigments which are stored in variable amounts by animals. Given the multiple biological functions of carotenoids, such variation may have strong implications in evolutionary biology. Crustaceans such as Gammarus amphipods store large amounts of these pigments and inter-population variation occurs. While differences in parasite selective pressure have been proposed to explain this variation, the contribution of other factors such as genetic differences in the gammarid ability to assimilate and/or store pigments, and the environmental availability of carotenoids cannot be dismissed. This study investigates the relati…

Pigments0106 biological sciencesSpeciationMarine and Aquatic SciencesFresh Water01 natural sciencesGammarusMedicine and Health SciencesNatural variabilityMaterialsCarotenoidchemistry.chemical_classificationEnzyme Precursors0303 health sciencesMultidisciplinarybiologyQREukaryotafood and beveragesCrustaceansPhysical SciencesMedicineCatechol OxidaseResearch ArticleFreshwater EnvironmentsEvolutionary ProcessesArthropodaScienceMaterials ScienceZoologyNatural variation010603 evolutionary biology03 medical and health sciencesRiversCryptic SpeciationGeneticsParasitic DiseasesAnimalsAmphipodaParasitesNutrition030304 developmental biologyEvolutionary BiologyOrganic PigmentsPopulation BiologyEcology and Environmental SciencesOrganismsBiology and Life SciencesAquatic EnvironmentsEnvironmental availabilityBodies of Waterbiology.organism_classificationCarotenoidsInvertebratesCrustaceanDiet[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologychemistryFood supplementMicrosporidiaGammarus fossarumEarth SciencesGenetic PolymorphismPopulation GeneticsPLOS ONE
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Disentangling temporal patterns in our perception of the fossil history of gymnosperms

2012

By taking gymnosperms as a case study, this article evaluates the perception of plant life history from the fossil record to test the biases associated with the time-dependent aspects of the taxonomy, following a stepwise modelling procedure based on two divergent sets of time units. The idea that the effects of the temporal component of paleobiological inference need to be evaluated to remove any possible bias in our interpretation and perception of plant evolution based on analyses of large-scale data sets is investigated. The results reveal important differences in our perception of the tempo of gymnosperm evolution and how it is biased in terms of time unit length due to the loss of inf…

Plant evolutionFossil RecordUnit of timemedia_common.quotation_subjectInferenceBiologybiology.organism_classificationPaleontologyGymnospermTaxonEvolutionary biologyPerceptionTaxonomic rankGeneral Agricultural and Biological Sciencesmedia_commonHistorical Biology
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Polar marine biology science in Portugal and Spain: Recent advances and future perspectives

2013

Xavier, José C. et al.

Polar science0106 biological sciencesEcology (disciplines)BiodiversityClimate changeAquatic ScienceOceanography010603 evolutionary biology01 natural sciencesArcticMarine ecosystem14. Life underwaterMedio MarinoCentro Oceanográfico de GijónEcology Evolution Behavior and SystematicsApex predatorMarine biologyPortugalEcology010604 marine biology & hydrobiologyPelagic zoneMarine Biology (journal)Marine SciencesGeographyArcticSpain13. Climate actionAntarctic
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Nectar sugar production across floral phases in the Gynodioecious Protandrous Plant Geranium sylvaticum [corrected].

2013

Many zoophilous plants attract their pollinators by offering nectar as a reward. In gynodioecious plants (i.e. populations are composed of female and hermaphrodite individuals) nectar production has been repeatedly reported to be larger in hermaphrodite compared to female flowers even though nectar production across the different floral phases in dichogamous plants (i.e. plants with time separation of pollen dispersal and stigma receptivity) has rarely been examined. In this study, sugar production in nectar standing crop and secretion rate were investigated in Geranium sylvaticum, a gynodioecious plant species with protandry (i.e. with hermaphrodite flowers releasing their pollen before th…

PollinationPlant NectarGeraniumCarbohydrateslcsh:MedicineFlowersPlant ScienceBiologymedicine.disease_causeHermaphroditeRewardPollinatorPollenPlant-Environment InteractionsBotanymedicineNectarAnimalsHermaphroditic OrganismsPollinationlcsh:ScienceC200 BotanyBiologyFlowering PlantsEvolutionary BiologyMultidisciplinaryEcologyPopulation BiologyPlant Ecologylcsh:RPlant NectarPlantsbiology.organism_classificationEvolutionary EcologyGeranium sylvaticumSeedsNectar guideta1181Pollenlcsh:QPopulation EcologyC180 EcologyResearch ArticlePLoS ONE
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Phylogeny of Polycnemoideae (Amaranthaceae): Implications for biogeography, character evolution and taxonomy

2013

PolycnemoideaeCharacter evolutionbiologyEvolutionary biologyPhylogeneticsPolycnemumBiogeographyTaxonomy (biology)Plant ScienceAmaranthaceaebiology.organism_classificationMolecular clockEcology Evolution Behavior and SystematicsTAXON
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C3 reference typing report and nomenclature revision.

1990

As the result of reference typing, two 'new' variants could be provisionally accepted (C3F045 and C3F015). The list of variants of the C3 polymorphism includes now 2 common and 29 rare variants.

Polymorphism GeneticEvolutionary biologyReference ValuesC3 polymorphismTerminology as TopicImmunologyGenetic VariationHumansHematologyTypingComplement C3BiologyNomenclatureComplement and inflammation
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Benchmarking parameter-free AMaLGaM on functions with and without noise.

2013

We describe a parameter-free estimation-of-distribution algorithm (EDA) called the adapted maximum-likelihood Gaussian model iterated density-estimation evolutionary algorithm (AMaLGaM-ID[Formula: see text]A, or AMaLGaM for short) for numerical optimization. AMaLGaM is benchmarked within the 2009 black box optimization benchmarking (BBOB) framework and compared to a variant with incremental model building (iAMaLGaM). We study the implications of factorizing the covariance matrix in the Gaussian distribution, to use only a few or no covariances. Further, AMaLGaM and iAMaLGaM are also evaluated on the noisy BBOB problems and we assess how well multiple evaluations per solution can average ou…

PolynomialMathematical optimizationLikelihood FunctionsCovariance matrixGaussianEvolutionary algorithmNormal DistributionComputational BiologyComputational Mathematicssymbols.namesakeNoiseEstimation of distribution algorithmArtificial IntelligenceBlack boxsymbolsIncremental build modelComputer SimulationAlgorithmsSoftwareMathematicsEvolutionary computation
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Cracking the nut: Geographical adjacency of sister taxa supports vicariance in a polytomic salamander clade in the absence of node support

2008

The urodelan genus Lyciasalamandra, which inhabits a relatively small area along the southern Turkish coast and some Aegean islands, provides an outstanding example of a diverse but phylogenetically unresolved taxon. Molecular trees contain a single basal polytomy that could be either soft or hard. We here use the information of nuclear (allozymes) and mitochondrial (fractions of the 16S rRNA and ATPase genes) datasets in combination with area relationships of lineages to resolve the phylogenetic relationships among Lyciasalamandra species in the absence of sufficient node support. We can show that neither random processes nor introgressive hybridization can be invoked to explain that the m…

PolytomyLineage (evolution)LyciasalamandraUrodelaLyciasalamandraDNA Mitochondrialsalamandersvicariancesoft polytomyGeneticsVicarianceAnimalsInbreedingCladeMolecular BiologyPhylogenyEcology Evolution Behavior and SystematicsAdenosine TriphosphatasesCell NucleusamphibiansGeographynode supportbiologyPhylogenetic treeEcologybiology.organism_classificationgeographical adjacency of sister taxaMitochondriaTaxonHaplotypesSister groupEvolutionary biologyhard polytomy
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