0000000000530647

AUTHOR

Rafael Patiño-navarrete

0000-0003-4226-8374

showing 5 related works from this author

Metabolic stasis in an ancient symbiosis: genome-scale metabolic networks from two Blattabacterium cuenoti strains, primary endosymbionts of cockroac…

2012

Abstract Background Cockroaches are terrestrial insects that strikingly eliminate waste nitrogen as ammonia instead of uric acid. Blattabacterium cuenoti (Mercier 1906) strains Bge and Pam are the obligate primary endosymbionts of the cockroaches Blattella germanica and Periplaneta americana, respectively. The genomes of both bacterial endosymbionts have recently been sequenced, making possible a genome-scale constraint-based reconstruction of their metabolic networks. The mathematical expression of a metabolic network and the subsequent quantitative studies of phenotypic features by Flux Balance Analysis (FBA) represent an efficient functional approach to these uncultivable bacteria. Resul…

Microbiology (medical)Models GeneticbiologyObligateBacteroidetesResearchIn silicoCitric Acid Cyclelcsh:QR1-502Metabolic networkZoologyCockroachesComputational biologybiology.organism_classificationMicrobiologyGenomelcsh:MicrobiologyFlux balance analysisBlattabacteriumAnimalsSymbiosisGenome BacterialMetabolic Networks and PathwaysBacteriaPeriplanetaBMC Microbiology
researchProduct

The cockroach Blattella germanica obtains nitrogen from uric acid through a metabolic pathway shared with its bacterial endosymbiont.

2014

Uric acid storedin the fat bodyof cockroaches is a nitrogen reservoirmobilized in times of scarcity. The discovery of urease in Blattabacterium cuenoti, the primary endosymbiont of cockroaches, suggests that the endosymbiont may participate in cockroach nitrogen economy. However, bacterial urease may only be one piece in the entire nitrogen recycling process from insect uric acid. Thus, in addition to the uricolytic pathway to urea, there must be glutamine synthetase assimilating the released ammonia by the urease reaction to enable the stored nitrogen to be metabolically usable. None of the Blattabacterium genomes sequenced to date possess genes encoding for those enzymes. To test the host…

UreaseProlinePhysiologyNitrogenGlutamineFat BodyGenome InsectMolecular Sequence DataGlycinechemistry.chemical_compoundBlattabacteriumGlutamine synthetaseAnimalsAsparagineNitrogen metabolismAmino AcidsSymbiosischemistry.chemical_classificationBlattabacteriumBase SequencebiologyBacteroidetesBlattellidaebiology.organism_classificationAgricultural and Biological Sciences (miscellaneous)Uric AcidAmino acidGlutamineMetabolic pathwayGene Expression RegulationBiochemistrychemistrybiology.proteinUric acidDietary ProteinsAsparagineGeneral Agricultural and Biological SciencesMetabolic Networks and Pathways
researchProduct

Comparative Genomics of Blattabacterium cuenoti: The Frozen Legacy of an Ancient Endosymbiont Genome

2013

Many insect species have established long-term symbiotic relationships with intracellular bacteria. Symbiosis with bacteria has provided insects with novel ecological capabilities, which have allowed them colonize previously unexplored niches. Despite its importance to the understanding of the emergence of biological complexity, the evolution of symbiotic relationships remains hitherto a mystery in evolutionary biology. In this study, we contribute to the investigation of the evolutionary leaps enabled by mutualistic symbioses by sequencing the genome of Blattabacterium cuenoti, primary endosymbiont of the omnivorous cockroach Blatta orientalis, and one of the most ancient symbiotic associa…

NitrogenCockroachesGenomenitrogen metabolismEvolution MolecularBlattabacteriumSymbiosisMastotermes darwiniensisPhylogeneticsGeneticsAnimalsSymbiosisBlattabacterium endosymbiontgenome reductionEcology Evolution Behavior and SystematicsPhylogenyComparative genomicsureasebiologyBase SequenceEcologyBacteroidetesBlattafungiPan-genomebiology.organism_classificationEvolutionary biologyBlatta orientalispan-genomeGenome BacterialMetabolic Networks and PathwaysResearch Article
researchProduct

Evolutionary convergence and nitrogen metabolism in Blattabacterium strain Bge, primary endosymbiont of the cockroach Blattella germanica.

2009

Bacterial endosymbionts of insects play a central role in upgrading the diet of their hosts. In certain cases, such as aphids and tsetse flies, endosymbionts complement the metabolic capacity of hosts living on nutrient-deficient diets, while the bacteria harbored by omnivorous carpenter ants are involved in nitrogen recycling. In this study, we describe the genome sequence and inferred metabolism of Blattabacterium strain Bge, the primary Flavobacteria endosymbiont of the omnivorous German cockroach Blattella germanica. Through comparative genomics with other insect endosymbionts and free-living Flavobacteria we reveal that Blattabacterium strain Bge shares the same distribution of functio…

Cancer Researchfood.ingredientlcsh:QH426-470NitrogenBlochmanniaZoologyCockroachesEvolution Molecular03 medical and health sciencesBlattabacteriumfoodSymbiosisEnterobacteriaceaePhylogeneticsAmmoniabiology.animalBotanyGeneticsAnimalsAmino AcidsSymbiosisMolecular BiologyGenetics (clinical)Ecology Evolution Behavior and SystematicsPhylogeny030304 developmental biology0303 health sciencesGerman cockroachCockroachbiologyPhylogenetic treeEvolutionary Biology/Evolutionary and Comparative Genetics030306 microbiologyAntsBacteroidetesfungiGenomicsbiochemical phenomena metabolism and nutritionbiology.organism_classificationGenetics and Genomics/Microbial Evolution and Genomicslcsh:GeneticsGenetics and Genomics/Genome ProjectsEvolutionary Biology/Microbial Evolution and GenomicsHost-Pathogen InteractionsBacteriaGenome BacterialMetabolic Networks and PathwaysResearch ArticlePLoS genetics
researchProduct

Blattabacteria, the endosymbionts of cockroaches, have small genome sizes and high genome copy numbers.

2008

Summary Blattabacteria are intracellular endosymbionts of cockroaches and primitive termites that belong to the class Flavobacteria and live only in specialized cells in the abdominal fat body of their hosts. In the present study we determined genome sizes as well as genome copy numbers for the endosymbionts of three cockroach species, Blattella germanica, Periplaneta americana and Blatta orientalis. The sole presence of blattabacteria in the fat body was demonstrated by rRNA-targeting techniques. The genome sizes of the three blattabacteria were determined by pulsed field gel electrophoresis. The resulting total genome sizes for the three symbionts were all approximately 650 15 kb. Compari…

DNA Bacterialanimal structuresmedia_common.quotation_subjectFat BodyCockroachesInsectBiologyMicrobiologyGenomechemistry.chemical_compoundbiology.animalAnimalsPeriplanetaEcology Evolution Behavior and SystematicsIn Situ Hybridizationmedia_commonGeneticsCockroachBacteroidetesIntracellular parasitefungiBlattaBacteroidetesBlattellidaebiology.organism_classificationElectrophoresis Gel Pulsed-FieldchemistryDNAGenome BacterialPeriplanetaEnvironmental microbiology
researchProduct