Search results for "VBNC"

showing 3 items of 3 documents

Erwinia amylovora psychrotrophic adaptations: evidence of pathogenic potential and survival at temperate and low environmental temperatures

2017

The fire blight pathogenErwinia amylovoracan be considered a psychrotrophic bacterial species since it can grow at temperatures ranging from 4 °C to 37 °C, with an optimum of 28 °C. In many plant pathogens the expression of virulence determinants is restricted to a certain range of temperatures. In the case ofE. amylovora,temperatures above 18 °C are required for blossom blight epidemics under field conditions. Moreover, this bacterium is able to infect a variety of host tissues/organs apart from flowers, but it is still unknown how environmental temperatures, especially those below 18 °C, affect the pathogen ability to cause fire blight disease symptoms in such tissues/organs. There is als…

0301 basic medicineFire blight030106 microbiologylcsh:MedicineVirulenceSiderophoresBiologyErwiniaMicrobiologyGeneral Biochemistry Genetics and Molecular BiologyViable but nonculturableMicrobiologyVBNC03 medical and health sciencesBlightAgricultural SciencePathogenEcologyVirulenceGeneral Neurosciencelcsh:RBiofilmMotilityGeneral Medicinebiology.organism_classificationOxidative stressStarvationBiofilmsFire blightEPSGeneral Agricultural and Biological SciencesBacteriaPeerJ
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Viable But Not Culturable (VBNC) state of Brettanomyces bruxellensis in wine: New insights on molecular basis of VBNC behaviour using a transcriptomi…

2016

International audience; The spoilage potential of Brettanomyces bruxellensis in wine is strongly connected with the aptitude of this yeast to enter in a Viable But Non Culturable (VBNC) state when exposed to the harsh wine conditions. In this work, we characterized the VBNC behaviour of seven strains of B. bruxellensis representing a regional intraspecific biodiversity, reporting conclusive evidence for the assessment of VBNC as a strain-dependent character. The VBNC behaviour was monitored by fluorescein diacetate staining/flow cytometry for eleven days after addition of 0.4, 0.6, 0.8, 1 and 1.2 mg/L of molecular SO2 (entrance in the VBNC state) and after SO2 removal (exit from the VBNC st…

0301 basic medicine[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionColony Count MicrobialExpressionSaccharomyces-cerevisiaeTranscriptometranscriptomicsHomeostasisSulfur DioxideHeat-Shock Proteinsmedicine.diagnostic_testViabilityCarbohydrate MetabolismOxidation-ReductionVolatile phenol production030106 microbiologyBrettanomyces bruxellensisBrettanomycesBiologyFlow cytometryMicrobiology03 medical and health sciencesPhenolsHeat shock proteinsulphitemedicineSulfiteswineGeneRna-seqBrettanomyces; spoilage; sulphite; transcriptomics; Viable But Not Culturable (VBNC); wine; food science; microbiologyWineMicrobial ViabilityGene Expression ProfilingspoilagemicrobiologyDNA replicationNonculturable bacteriabiology.organism_classificationCampylobacter-jejuniSulfur-dioxideYeastYeastCulture MediaOxidative StressFood MicrobiologyViable But Not Culturable (VBNC)food science[SDV.AEN]Life Sciences [q-bio]/Food and NutritionSettore AGR/16 - Microbiologia Agraria
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Monitoring the Starvation–Survival Response of Edwardsiella piscicida and E. tarda in Freshwater Microcosms, at Various Temperatures

2022

Edwardsiella piscicida is an important fish pathogen responsible for economic losses in global aquaculture, and E. tarda is also a human zoonotic pathogen. In this study, the survival of E. piscicida and E. tarda strains kept in filtered and sterilized lake water microcosms was investigated during a 20-week period at 7 °C, 15 °C and 25 °C, as well as its pathogenicity retention during a starvation period. E. tarda V43.2 stayed culturable for 6 weeks at 7 °C, 9 weeks at 25 °C and 12 weeks at 15 °C. Both E. piscicida strains (V12.1 and V57.2) stayed culturable even longer, for at least 12 weeks at 7 °C, 15 °C and 25 °C under the same starvation conditions. …

Microbiology (medical)Virology<i>E. piscicida</i>; <i>E. tarda</i>; starvation survival; VBNC state; biofilm; retention of virulenceMicrobiologyMicroorganisms
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