0000000000716672

AUTHOR

Michel-philippe Jobin

showing 2 related works from this author

Regulation of stress response in Oenococcus oeni as a function of environmental changes and growth phase

2000

International audience; Oenococcus oeni is a lactic acid bacterium which is able to grow in wine and perform malolactic fermentation. To survive and grow in such a harsh environment as wine, O. oeni uses several mechanisms of resistance including stress protein synthesis. The molecular characterisation of three stress genes hsp18, clpX, trxA encoding for a small heat shock protein, an ATPase regulation component of ClpP protease and a thioredoxin, respectively, allow us to suggest the existence in O. oeni of multiple regulation mechanisms as is the case in Bacillus subtilis. One common feature of these genes is that they are expressed under the control of housekeeping promoters. The express…

Transcription Geneticmedicine.medical_treatment[SDV]Life Sciences [q-bio]bactérie lactiqueBacillus subtilisatpaseMicrobiologygène clppoenococcus oenicaractérisation moléculaire03 medical and health sciencesBacterial ProteinsHeat shock proteinOenococcus;Malolactic fermentation;Stress gene;ATPaseMalolactic fermentationmedicineprotéine de choc thermiquePromoter Regions GeneticGeneHeat-Shock ProteinsOenococcus030304 developmental biologyOenococcus oeniAdenosine Triphosphatases0303 health sciencesProteasebiology030306 microbiologyMalolactic fermentationStress genefood and beveragesGeneral MedicineHydrogen-Ion Concentrationbiology.organism_classificationGram-Positive CocciBiochemistryThioredoxinOenococcusLeuconostocFood Scienceexpression des gènes
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Increase of sulfite tolerance in Oenococcus oeni by means of acidic adaptation

1998

International audience; Sulfite is an antimicrobial agent used at the beginning of winemaking to avoid development of undesirable microorganisms. However, Oenococcus oeni, which is mainly responsible for the malolactic fermentation, has to grow in wine and therefore has to be resistant to sulfite. This study showed that acid-adapted cells of O. oeni survived better than non-adapted cells in the presence of a high sulfite concentration (30 mg l-1). Addition of a sub-lethal concentration of sulfite (15 mg l31) during the adaptation step in acidic medium increases the sulfite tolerance. Moreover, sulfite appeared to be able to induce a heat shocklike response. Our results suggest that pH homeo…

Microorganism[SDV]Life Sciences [q-bio]Microbiology03 medical and health scienceschemistry.chemical_compoundSulfite[SDV.IDA]Life Sciences [q-bio]/Food engineeringGeneticsMalolactic fermentation[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringMolecular Biology030304 developmental biologyWinemakingOenococcus oeniWine0303 health sciencesbiologyHeat shock protein030306 microbiologyChemistryMalolactic fermentationbiology.organism_classificationAntimicrobialBiochemistrySulfite toleranceOenococcus oeniBacteria
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