Search results for "Tremblaya"

showing 6 items of 6 documents

Complete Genome Sequence of “Candidatus Tremblaya princeps” Strain PCVAL, an Intriguing Translational Machine below the Living-Cell Status

2011

ABSTRACT The sequence of the genome of “ Candidatus Tremblaya princeps” strain PCVAL, the primary endosymbiont of the citrus mealybug Planococcus citri , has been determined. “ Ca . Tremblaya princeps” presents an unusual nested endosymbiosis and harbors a gammaproteobacterial symbiont within its cytoplasm in all analyzed mealybugs. The genome sequence reveals that “ Ca . Tremblaya princeps” cannot be considered an independent organism but that the consortium with its gammaproteobacterial symbiotic associate represents a new composite living being.

GeneticsWhole genome sequencingbiologyEndosymbiosisStrain (biology)Molecular Sequence Databiochemical phenomena metabolism and nutritionbiology.organism_classificationMicrobiologyHemipteraGenomeGenome AnnouncementsHemipteraHelicobacterCandidatus Tremblaya princepsBotanyPlanococcus citriAnimalsbacteriaMolecular BiologyGenome BacterialSequence (medicine)

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Characterization of the mutualistic endosymbiosis between intracellular bacteria and mealybugs (Hemiptera: Pseudococcidae)

2015

Simbiosis, del griego sym “con” y biosis “vivir”, hace referencia a la asociación estable entre individuos de dos o más especies (simbiontes) que muestran interdependencia a cualquier nivel biológico. La ubicuidad de las asociaciones simbióticas en las ramas principales del árbol de la vida evidencia la relevancia global de éstas en la evolución de la vida. Las asociaciones más estudiadas son aquellas que se establecen entre procariotas y eucariotas que, habitualmente, suponen la ampliación de las capacidades metabólicas de los últimos. En este sentido, la simbiosis con bacterias intracelulares se considera un factor clave en el éxito adaptativo de los insectos. En función de su relevancia …

mealybugsmoranellamutualismevolutionUNESCO::CIENCIAS DE LA VIDAtremblaya:CIENCIAS DE LA VIDA [UNESCO]

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The link between independent acquisition of intracellular gamma-endosymbionts and concerted evolution in Tremblaya princeps

2015

Many insect species establish mutualistic symbiosis with intracellular bacteria that complement their unbalanced diets. The betaproteobacterium "Candidatus Tremblaya" maintains an ancient symbiosis with mealybugs (Hemiptera: Pseudococcidae), which are classified in subfamilies Phenacoccinae and Pseudococcinae. Most Phenacoccinae mealybugs have "Candidatus Tremblaya phenacola" as their unique endosymbiont, while most Pseudococcinae mealybugs show a nested symbiosis (a bacterial symbiont placed inside another one) where every "Candidatus Tremblaya princeps" cell harbors several cells of a gammaproteobacterium. Genomic characterization of the endosymbiotic consortium from Planococcus citri, co…

Microbiology (medical)Comparative genomicsGeneticsmealybugsConcerted evolutionbiologyEndosymbiosisCandidatus Tremblayalcsh:QR1-502homologous recombinationbiochemical phenomena metabolism and nutritionbiology.organism_classificationGenomeMicrobiologyPseudococcus viburnilcsh:Microbiologynested endosymbiosisSymbiosisPlanococcus citriBotanyCandidatusconcerted evolutionOriginal ResearchFrontiers in Microbiology

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Mealybugs nested endosymbiosis: going into the 'matryoshka' system in Planococcus citri in depth.

2013

Abstract Background In all branches of life there are plenty of symbiotic associations. Insects are particularly well suited to establishing intracellular symbiosis with bacteria, providing them with metabolic capabilities they lack. Essential primary endosymbionts can coexist with facultative secondary symbionts which can, eventually, establish metabolic complementation with the primary endosymbiont, becoming a co-primary. Usually, both endosymbionts maintain their cellular identity. An exception is the endosymbiosis found in mealybugs of the subfamily Pseudoccinae, such as Planococcus citri, with Moranella endobia located inside Tremblaya princeps. Results We report the genome sequencing …

Microbiology (medical)DNA BacterialSubfamilyMoranella endobiaMolecular Sequence DataMicrobiologyGenomeDNA sequencingBacterial geneticsMicrobiologyHemipteraEnterobacteriaceaePlanococcus citriNested endosymbiosisAnimalsSymbiosisTremblaya princepsOrganismComparative genomicsEndosymbiosisbiologyBetaproteobacteriaSequence Analysis DNAbiology.organism_classificationPlanococcus citriEvolutionary biologyfunctional complementationGenome BacterialResearch ArticleBMC microbiology

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Unity Makes Strength: A Review on Mutualistic Symbiosis in Representative Insect Clades

2019

Settled on the foundations laid by zoologists and embryologists more than a century ago, the study of symbiosis between prokaryotes and eukaryotes is an expanding field. In this review, we present several models of insect–bacteria symbioses that allow for the detangling of most known features of this distinctive way of living, using a combination of very diverse screening approaches, including molecular, microscopic, and genomic techniques. With the increasing the amount of endosymbiotic bacteria genomes available, it has been possible to develop evolutionary models explaining the changes undergone by these bacteria in their adaptation to the intracellular host environment. The establishmen…

0301 basic medicineBuchneraSulcia030106 microbiologyPopulationminimal genomesSymbiotic replacementconsortiumTremblayaReviewsymbiotic replacementPrimary endosymbiontGenomeGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesMinimal genomesBuchneraSymbiosisgenome-reduction syndromelcsh:ScienceCladeeducationEcology Evolution Behavior and Systematicseducation.field_of_studyendosymbiosisEndosymbiosisEndosymbiosisbiologyHost (biology)secondary endosymbiontPaleontologyprimary endosymbiontTremblayaGenome-reduction syndromebiology.organism_classificationSecondary endosymbiont030104 developmental biologySulciaSpace and Planetary ScienceEvolutionary biologylcsh:QAdaptationBuchneraConsortiumLife

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Molecular evidence for ongoing complementarity and horizontal gene transfer in endosymbiotic systems of mealybugs

2014

[EN] Intracellular bacterial supply of essential amino acids is common among sap-feeding insects, thus complementing the scarcity of nitrogenous compounds in plant phloem. This is also the role of the two mealybug endosymbiotic systems whose genomes have been sequenced. In the nested endosymbiotic system from Planococcus citri (Pseudococcinae), “Candidatus Tremblaya princeps” and “Candidatus Moranella endobia” cooperate to synthesize essential amino acids, while in Phenacoccus avenae (Phenacoccinae) this function is performed by its single endosymbiont “Candidatus Tremblaya phenacola.” However, little is known regarding the evolution of essential amino acid supplementation strategies in oth…

Microbiology (medical)SubfamilyECOSISTEMAS AGROFORESTALES (UPV)“Candidatus Tremblaya phenacola”lcsh:QR1-502Amino acidbiosynthesisGenomeMicrobiologyCandidatus Tremblayaphenacolalcsh:MicrobiologyCandidatus Tremblayaprincepscandidatus tremblaya phenacolaBotanyPlanococcus citriPRODUCCION VEGETALOriginal Research Articlecandidatus tremblaya princepsMealybugAmino acid synthesischemistry.chemical_classificationGeneticsmealybugsendosymbiosisEndosymbiosisEndosymbiosisbiologyamino acid biosynthesisfungiHorizontal gene transferbiochemical phenomena metabolism and nutritionbiology.organism_classificationAmino acidMealybugschemistryHorizontal gene transferhorizontal gene transfer“Candidatus Tremblaya princeps”Frontiers in Microbiology

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