Search results for "KLEBSIELLA-PNEUMONIAE"

showing 3 items of 3 documents

Antimicrobial Lessons From a Large Observational Cohort on Intra-abdominal Infections in Intensive Care Units

2021

Severe intra-abdominal infection commonly requires intensive care. Mortality is high and is mainly determined by disease-specific characteristics, i.e. setting of infection onset, anatomical barrier disruption, and severity of disease expression. Recent observations revealed that antimicrobial resistance appears equally common in community-acquired and late-onset hospital-acquired infection. This challenges basic principles in anti-infective therapy guidelines, including the paradigm that pathogens involved in community-acquired infection are covered by standard empiric antimicrobial regimens, and second, the concept of nosocomial acquisition as the main driver for resistance involvement. I…

Drug Resistancemedicine.disease_causeSeverity of Illness Indexlaw.invention0302 clinical medicineENTEROBACTERIACEAElawDrug Resistance Multiple BacterialMedicine and Health SciencesPharmacology (medical)Cross InfectionbiologyBacterialAntimicrobialIntensive care unitAnti-Bacterial AgentsCommunity-Acquired InfectionsEuropeIntensive Care UnitsAnti-Bacterial Agents; Community-Acquired Infections; Critical Illness; Cross Infection; Europe; Humans; Intensive Care Units; Intraabdominal Infections; Microbial Sensitivity Tests; Peritonitis; Sepsis; Severity of Illness Index; Drug Resistance Multiple BacterialESCHERICHIA-COLI030220 oncology & carcinogenesisKLEBSIELLA-PNEUMONIAEBLOOD-STREAM INFECTIONSPYELONEPHRITISMultiplemedicine.medical_specialtyCritical IllnessMicrobial Sensitivity TestsPeritonitisEnterococcus faecalisNO03 medical and health sciencesIntra‑abdominal InfectionsAntibiotic resistanceFOODSepsisIntensive careInternal medicinemedicineHumansFLUOROQUINOLONE RESISTANCEPseudomonas aeruginosabusiness.industrySeptic shockMORTALITYbiology.organism_classificationmedicine.diseaseRISK-FACTORSIntraabdominal Infectionsbusiness030217 neurology & neurosurgeryEnterococcus faecium
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Mechanism of the Citrate Transporters in Carbohydrate and Citrate Cometabolism in Lactococcus and Leuconostoc Species

1998

ABSTRACT Citrate metabolism in the lactic acid bacterium Leuconostoc mesenteroides generates an electrochemical proton gradient across the membrane by a secondary mechanism (C. Marty-Teysset, C. Posthuma, J. S. Lolkema, P. Schmitt, C. Divies, and W. N. Konings, J. Bacteriol. 178:2178–2185, 1996). Reports on the energetics of citrate metabolism in the related organism Lactococcus lactis are contradictory, and this study was performed to clarify this issue. Cloning of the membrane potential-generating citrate transporter (CitP) of Leuconostoc mesenteroides revealed an amino acid sequence that is almost identical to the known sequence of the CitP of Lactococcus lactis . The cloned gene was exp…

EXPRESSIONLactococcusMolecular Sequence DataApplied Microbiology and BiotechnologyCitric AcidMicrobiologyACID BACTERIAchemistry.chemical_compoundBacterial ProteinsNUCLEOTIDE-SEQUENCELactococcusLeuconostocAmino Acid SequenceCloning MolecularElectrochemical gradientchemistry.chemical_classificationEcologybiologySymportersLACTATE EFFLUXLactococcus lactisfood and beveragesMETABOLIC ENERGYMembrane transportHydrogen-Ion Concentrationbiology.organism_classificationENERGY GENERATIONLACTIS BIOVAR DIACETYLACTISAmino acidchemistryBiochemistryLeuconostoc mesenteroidesESCHERICHIA-COLIFood MicrobiologyCarbohydrate MetabolismbacteriaKLEBSIELLA-PNEUMONIAECitric acidCarrier ProteinsLeuconostocFood ScienceBiotechnologyMEMBRANE-VESICLESApplied Environmental Microbiology
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Salmonella bongori Provides Insights into the Evolution of the Salmonellae

2011

The genus Salmonella contains two species, S. bongori and S. enterica. Compared to the well-studied S. enterica there is a marked lack of information regarding the genetic makeup and diversity of S. bongori. S. bongori has been found predominantly associated with cold-blooded animals, but it can infect humans. To define the phylogeny of this species, and compare it to S. enterica, we have sequenced 28 isolates representing most of the known diversity of S. bongori. This cross-species analysis allowed us to confidently differentiate ancestral functions from those acquired following speciation, which include both metabolic and virulence-associated capacities. We show that, although S. bongori…

Salmonellamedicine.disease_causeSettore MED/42 - Igiene Generale E ApplicataTranslocation GeneticEnteropathogenic Escherichia coli1108 Medical MicrobiologySalmonellaCOMPLETE GENOME SEQUENCEIII SECRETION SYSTEMBiology (General)PATHOGENICITY ISLAND 2PhylogenyGenetics0303 health sciencesbiologyVirulenceEffectorPARASITOLOGYENTERICA SEROVAR TYPHIMURIUMSalmonella entericaGenomicsSalmonella bongori evolutionary genomicsBiological EvolutionUREIDOGLYCOLLATE LYASEInfectious DiseasesSalmonella enterica1107 ImmunologyQR180MedicineKLEBSIELLA-PNEUMONIAELife Sciences & BiomedicineResearch Article0605 MicrobiologySalmonella bongoriMICROBIOLOGYESCHERICHIA-COLI K-12Genomic IslandsQH301-705.5Sequence analysisVirulence FactorsImmunologyVirulenceVIROLOGYENCODED EFFECTORsalmonella; salmonella bongori; evoluzione geneticaMicrobiologyQH30103 medical and health sciencesVirologyGeneticsmedicineMICROARRAY ANALYSISAnimalsHumansEnteropathogenic Escherichia coliBiologyMolecular BiologyGene030304 developmental biologyEvolutionary BiologyScience & Technology030306 microbiologyANTIBIOTIC-RESISTANCESequence Analysis DNARC581-607biology.organism_classificationGenes BacterialImmunologic diseases. Allergy
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