Search results for "ACYRTHOSIPHON PISUM"

showing 4 items of 34 documents

Mapping and quantification of cryptochrome expression in the brain of the pea aphid Acyrthosiphon pisum.

2021

Aphids are paradigmatic photoperiodic animals often used to study the role of the circadian clock in the seasonal response. Previously, we described some elements of the circadian clock core (genes period and timeless) and output (melatonin, AANATs and PTTH) that could have a role in the regulation of the aphid seasonal response. More recently we identified two opsins (C-ops and SWO4) as candidate input photoperiodic receptors. In the present report, we focus on the study of cryptochromes (cry) as photoreceptors of the circadian clock and discuss their involvement in the seasonal response. We analyze the expression of cry1 and cry2 genes in a circadian and seasonal context, and map their ex…

endocrine systemanimal structuresTimelessPeriod (gene)Circadian clockPeasBrainContext (language use)Biologybiology.organism_classificationCell biologyAcyrthosiphon pisumCircadian RhythmCLOCKCryptochromesCryptochromeInsect ScienceAphidsCircadian ClocksGeneticsAnimalssense organsCircadian rhythmMolecular BiologyTranscription FactorsInsect molecular biologyREFERENCES
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Data from: Multi-modal defenses in aphids offer redundant protection and increased costs likely impeding a protective mutualism

2018

1.The pea aphid, Acyrthosiphon pisum, maintains extreme variation in resistance to its most common parasitoid wasp enemy, Aphidius ervi, which is sourced from two known mechanisms: protective bacterial symbionts, most commonly Hamiltonella defensa, or endogenously encoded defenses. We have recently found that individual aphids may employ each defense individually, occasionally both defenses together, or neither. 2.In field populations, Hamiltonella-infected aphids are found at low to moderate frequencies and while less is known about the frequency of resistant genotypes, they show up less often than susceptible genotypes in field collections. To better understand these patterns, we sought t…

medicine and health careHamiltonella defensaAphidius erviAcyrthosiphon pisumLife SciencesMedicinefood and beveragesnatural enemy defenseInsect symbiosismicrobe mediatedPopulation Ecologygenotype by genotype
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A genomic reappraisal of symbiotic function in the aphid/Buchnera symbiosis: reduced transporter sets and variable membrane organisations.

2011

International audience; Buchnera aphidicola is an obligate symbiotic bacterium that sustains the physiology of aphids by complementing their exclusive phloem sap diet. In this study, we reappraised the transport function of different Buchnera strains, from the aphids Acyrthosiphon pisum, Schizaphis graminum, Baizongia pistaciae and Cinara cedri, using the re-annotation of their transmembrane proteins coupled with an exploration of their metabolic networks. Although metabolic analyses revealed high interdependencies between the host and the bacteria, we demonstrate here that transport in Buchnera is assured by low transporter diversity, when compared to free-living bacteria, being mostly bas…

multidisciplinary scienceslcsh:MedicinePlant ScienceinterdépendanceBiochemistryTransmembrane Transport ProteinsBacterial Physiologylcsh:ScienceIntegral membrane proteinGeneticsbactérie0303 health sciencesPlant PestsMultidisciplinaryMicroscopy ConfocalbiologyMembrane transport protein030302 biochemistry & molecular biologybuchnera aphidicolamicroscopy confocalGenomicsHydrogen-Ion ConcentrationTransmembrane proteinFunctional GenomicsBiochemistrysymbiosis geneticsMetabolic PathwaysMetabolic Networks and PathwaysResearch Articlecell membrane ultrastructurescience and technologyMicrobiology03 medical and health sciencesMetabolic NetworksBuchneraAnimalsSymbiosisBiology030304 developmental biologyObligateCell Membranelcsh:RProteinsComputational BiologyMembrane Transport ProteinsBiological TransportBacteriologyPlant Pathologybiochemical phenomena metabolism and nutritionbiology.organism_classificationAcyrthosiphon pisumTransmembrane ProteinsaphidsMESH: SymbioseMetabolismMembrane proteinGenes Bacterialbiology.proteinlcsh:QBuchnerabuchnera aphidicola;aphids;microscopy confocal;symbiosis genetics;cell membrane ultrastructure;multidisciplinary sciences;science and technologyFunction (biology)[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/SymbiosisPLoS ONE
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Identification, characterization and analysis of expression of genes encoding arylalkylamine N-acetyltransferases in the pea aphidAcyrthosiphon pisum

2013

Most organisms exhibit some kind of rhythmicity in their behaviour and/or physiology as an adaptation to the cyclical movements of the Earth. In addition to circadian rhythms, many organisms have an annual rhythmicity in certain activities, such as reproduction, migration or induction of diapause. Current knowledge of the molecular basis controlling seasonal rhythmicity, especially in insects, is scarce. One element that seems to play an essential role in the maintenance of both circadian and seasonal rhythms in vertebrates is the hormone melatonin. In vertebrates, the limiting enzyme in its synthesis is the arylalkylamine N-acetyltransferase (AANAT). Melatonin is also present in insects bu…

photoperiodismAphidbiologyAANATfood and beveragesZoologyDiapausebiology.organism_classificationAcyrthosiphon pisumMelatoninInsect ScienceBotanyGeneticsArylalkylaminemedicineMolecular BiologyGenemedicine.drugInsect Molecular Biology
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