Search results for "Lactic acid"

showing 10 items of 660 documents

Modelling the effect of temperature, pH, water activity, and organic acids on the germination time of Penicillium camemberti and Penicillium roquefor…

2017

International audience; In this study, the influence of environmental factors on the germination time of Penicillium camemberti and Penicillium roqueforti conidia was evaluated. To do so, the effects of i/temperature, pH, water activity, and ii/organic acids were determined using models based on i/cardinal values, and ii/minimum inhibitory concentration (MIC) respectively. Cardinal values for germination of conidia were not observed to be species dependent. Minimum temperatures were estimated to be below the freezing point, with an optimum of 26.9 degrees C, and a maximum of 33.5 degrees C. For both species, minimal and optimal a(w) values were found to be 0.83 and 0.99, respectively, while…

0301 basic medicineStarter culturesWater activity030106 microbiologyFungal startersStrainsFood spoilage moldsMicrobial Sensitivity TestsSodium ChlorideMicrobiologyAflatoxin productionFungal growthModels Biological03 medical and health scienceschemistry.chemical_compoundPredictive mycologyCheeseBotany[SDV.IDA]Life Sciences [q-bio]/Food engineeringSpore germinationChrysogenumFood scienceLactic AcidSpore germinationOrganic ChemicalsbiologyMycelium[ SDV.IDA ] Life Sciences [q-bio]/Food engineeringPenicilliumTemperatureWaterPenicillium roquefortiGeneral MedicineHydrogen-Ion ConcentrationSpores Fungalbiology.organism_classificationPropionic acidLactic acidFreezing pointAspergillus-parasiticus030104 developmental biologychemistryGerminationPenicillium camembertiPenicilliumGrowth-rateFood MicrobiologyPropionatesFood ScienceInternational journal of food microbiology
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The individual contribution of starter and non-starter lactic acid bacteria to the volatile organic compound composition of Caciocavallo Palermitano …

2017

Abstract The contribution of two starter ( Lactobacillus delbrueckii and Streptococcus thermophilus ) and nine non-starter ( Enterococcus casselliflavus , Enterococcus faecalis , Enterococcus durans , Enterococcus gallinarum , Lactobacillus casei , Lactobacillus paracasei , Lactobacillus rhamnosus , Pediococcus acidilactici and Pediococcus pentosaceus ) species of lactic acid bacteria (LAB) to the volatile organic compounds (VOCs) of Caciocavallo Palermitano cheese was investigated. The strains used in this study were isolated during the production/ripening of the stretched cheese and tested in a cheese-based medium (CBM). The fermented substrates were analyzed for the growth of the single …

0301 basic medicineStreptococcus thermophilusLactobacillus caseiSettore AGR/19 - Zootecnica SpecialeCheese based mediumLactobacillus paracaseiButanols030106 microbiologyCaciocavallo PalermitanoCaciocavallo Palermitano; Cheese based medium; Lactic acid bacteria; Ripened cheese; Volatile organic compounds; Food Science; MicrobiologyDiacetylXylenesMicrobiology03 medical and health sciencesEnterococcus gallinarumLactobacillus rhamnosusCheeseLactobacillusLactic acid bacteriaAnimalsLactobacillus rhamnosusStreptococcus thermophilusFood scienceLactobacillus delbrueckiiVolatile Organic CompoundsbiologyChemistryLacticaseibacillus rhamnosusPediococcus acidilacticifood and beveragesGeneral MedicineVolatile organic compoundbiology.organism_classificationCaciocavallo Palermitano; Cheese based medium; Lactic acid bacteria; Ripened cheese; Volatile organic compounds; Animals; Butanols; Butanones; Cheese; Diacetyl; Enterococcus; Fermentation; Hexanols; Lactobacillus casei; Lactobacillus delbrueckii; Lactobacillus rhamnosus; Milk; Streptococcus thermophilus; Volatile Organic Compounds; Xylenes; Food Science; MicrobiologyEnterococcus duransRipened cheeseButanonesLactic acid bacteria Caciocavallo Palermitano Ripened cheese Volatile organic compounds Cheese based mediumLacticaseibacillus casei030104 developmental biologyMilkFermentationbacteriaHexanolsLactobacillus caseiEnterococcusSettore AGR/16 - Microbiologia AgrariaFood Science
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Dextran production by Lactobacillus sakei MN1 coincides with reduced autoagglutination, biofilm formation and epithelial cell adhesion

2017

40 p.-7 fig.-4 fig.supl.

0301 basic medicineVibrio anguillarumPolymers and Plastics030106 microbiologyBacterial AdhesionMicrobiology03 medical and health scienceschemistry.chemical_compoundLatilactobacillus sakeiMaterials ChemistryLactic acid bacteriaAnimalsVibrio anguillarumDextranZebrafish modelsZebrafishAutoagglutinationbiologyOrganic ChemistryBiofilmfood and beveragesDextransEpithelial CellsColonisationbiology.organism_classificationLactobacillus sakeiLactic acidMeat Products030104 developmental biologyDextranBiochemistrychemistryLeuconostoc mesenteroidesBiofilmsFermentationFermented FoodsFish probioticsBacteria
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Development of a method for the direct fermentation of semolina by selected sourdough lactic acid bacteria

2016

Three obligately heterofermentative lactic acid bacteria (LAB) strains (Lactobacillus sanfranciscensis PON100336, Leuconostoc citreum PON10079 and Weissella cibaria PON10030) were used in this study as a multi-species starter culture for sourdough production. The starter inoculum was prepared and propagated in sterile semolina extract (SSE) broth. Acidification kinetics, microbiological counts detected on specific media for sourdough LAB, polymorphic profile comparison and species-specific PCRs evidenced a stability of the liquid inoculum over time determining its suitability for direct addition to semolina. In order to validate this innovative method for the production of durum wheat (Trit…

0301 basic medicineWeissellaFlour030106 microbiologyLactobacillus sanfranciscensisFermentation; Lactic acid bacteria; Quality parameters; Sourdough; Starter culture; Triticum durum genotypes; Volatile organic compounds; Microbiology; Food Science; Safety Risk Reliability and Qualitymedicine.disease_causePolymerase Chain ReactionMicrobiology03 medical and health sciencesStarterLeuconostoc citreumLactobacillusLactic acid bacteriamedicineLeuconostocLactic AcidFood scienceWeissella cibariaSafety Risk Reliability and QualityTriticumbiologyChemistryfood and beveragesBreadSettore AGR/15 - Scienze E Tecnologie AlimentariGeneral MedicineVolatile organic compoundbiology.organism_classificationTriticum durum genotypeSettore AGR/02 - Agronomia E Coltivazioni ErbaceeQuality parameterLactobacillusStarter culture030104 developmental biologyItalyWeissellaSourdoughFermentationFermentationLeuconostocSettore AGR/16 - Microbiologia AgrariaFood ScienceInternational Journal of Food Microbiology
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Molecular Identification of Lactic Acid Bacteria Occurring in Must and Wine

2016

A specifically amplified polymorphic DNA-polymerase chain reaction (SAPD-PCR), a molecular fingerprinting method based on the amplification of specific gene sequences, was applied in order to allow a rapid identification of lactic acid bacteria (LAB) occurring in must and wine. The applicability of this method was confirmed with isolated strains from different wine samples from the German wine growing region Palatinate. In addition, the formation of biogenic amines by the isolated strains was studied. More than half of the bacterial isolates from 50 red and white wine samples were able to produce biogenic amines. General health concerns related to biogenic amines in must and wine underline …

0301 basic medicineWinebiologyLactobacillus brevisdigestive oral and skin physiology030106 microbiologyfood and beveragesTyraminebiology.organism_classificationHigh-performance liquid chromatographyLactic acid03 medical and health scienceschemistry.chemical_compoundchemistryBiochemistryDNA profilingWhite WineFood scienceBacteriaSouth African Journal of Enology and Viticulture
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The Antisense RNA Approach: a New Application for In Vivo Investigation of the Stress Response of Oenococcus oeni, a Wine-Associated Lactic Acid Bact…

2015

ABSTRACT Oenococcus oeni is a wine-associated lactic acid bacterium mostly responsible for malolactic fermentation in wine. In wine, O. oeni grows in an environment hostile to bacterial growth (low pH, low temperature, and ethanol) that induces stress response mechanisms. To survive, O. oeni is known to set up transitional stress response mechanisms through the synthesis of heat stress proteins (HSPs) encoded by the hsp genes, notably a unique small HSP named Lo18. Despite the availability of the genome sequence, characterization of O. oeni genes is limited, and little is known about the in vivo role of Lo18. Due to the lack of genetic tools for O. oeni , an efficient expression vector in O…

0301 basic medicine[SDV.BIO]Life Sciences [q-bio]/Biotechnology[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutrition030106 microbiologyLactobacillus-plantarumWineEscherichia-coliApplied Microbiology and Biotechnologymolecular characterization03 medical and health sciencesGrowth-phaseBacterial ProteinsMembrane stabilizationHeat shock protein[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Antisense TechnologyGene expression[SDV.IDA]Life Sciences [q-bio]/Food engineeringMalolactic fermentationEnvironmental MicrobiologyRNA AntisenseGene-expressionLactic AcidHeat-Shock ProteinsOenococcusOenococcus oeniLeuconostoc-oenosEcologybiologyEthanolLactococcus lactisMalolactic fermentation[ SDV.BIO ] Life Sciences [q-bio]/BiotechnologyGene Expression Regulation Bacterialbiology.organism_classification[SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/BacteriologyAntisense RNABiochemistryLactococcus-lactisHeat-shock-proteinFermentationOenococcusFood ScienceBiotechnology
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Lactic Acid Bacteria Combinations for Wheat Sourdough Preparation and Their Influence on Wheat Bread Quality and Acrylamide Formation

2017

Different lactic acid bacteria (LAB) from spontaneous wheat sourdough were isolated, identified, and characterized by their growth, acidification rate, and carbohydrate metabolism. The combinations of isolated LAB (Pediococcus pentosaceus LUHS183 and Leuconostoc mesenteroides LUHS242, P. pentosaceus LUHS183 and Lactobacillus brevis LUHS173, P. pentosaceus LUHS183 and Enterococcus pseudoavium LUHS 234, P. pentosaceus LUHS183 and Lactobacillus curvatus LUHS51, Lactobacillus plantarum LUHS135 and L. curvatus LUHS51, L. plantarum LUHS135 and P. pentosaceus LUHS183) were used for wheat sourdough production, and the effects of LAB fermentation in sourdoughs on wheat bread quality parameters and a…

0301 basic medicinebiologyLactobacillus brevisGram-positive bacteria030106 microbiologyfood and beveragesbiology.organism_classificationLactic acid03 medical and health scienceschemistry.chemical_compound030104 developmental biologychemistryLeuconostoc mesenteroidesAcrylamideFermentationFood scienceFood qualityLactobacillus plantarumFood ScienceJournal of Food Science
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Disclosing diversity of exopolysaccharide-producing lactobacilli from Spanish natural ciders

2018

24 p.-2 fig.-2 tab.-1 fig. supl.-1 tab.supl.

0301 basic medicinebiologyMolecular massChemistryExopolysaccharides (EPS)030106 microbiologyFood spoilagebiology.organism_classificationlaw.inventionLactic acidHomopolysaccharide03 medical and health scienceschemistry.chemical_compoundLactobacillusCiderslawLactobacillusRopy isolatesFermentationFood sciencePolymerase chain reactionBacteriaFood Science
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Use of starter cultures ofLactobacillusto induce malolactic fermentation in wine

2017

Background and Aims Oenococcus oeni is the lactic acid bacteria species that best adapts to harsh wine conditions. This species is currently the main component of the malolactic starter cultures used in winemaking. Other species of lactic acid bacteria, however, such as Lactobacillus, can also conduct the malolactic fermentation, especially in low acidity wines. This study aimed to identify suitable Lactobacillus strains and inoculation methods to undertake the malolactic fermentation in wines with pH > 3.5. Methods and Results Six Lactobacillus strains of species L. mali (E4634), L. paracasei (E4539, E4541), L. plantarum (E4538, E4608) and L. satsumensis (E4555) were selected for their goo…

0301 basic medicinebiologyfungifood and beverages04 agricultural and veterinary sciencesHorticulturebiology.organism_classificationYeast040501 horticultureLactic acid03 medical and health scienceschemistry.chemical_compound030104 developmental biologyStarterchemistryLactobacillusMalolactic fermentationFood scienceMalic acid0405 other agricultural sciencesOenococcus oeniWinemakingAustralian Journal of Grape and Wine Research
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Lactic Acid Bacteria

2008

A typical lactic acid bacterium grown under standard conditions is aerotolerant, acid tolerant, organotrophic, and a strictly fermentative rod or coccus, producing lactic acid as a major end product. It lacks cytochromes and is unable to synthesize porphyrins. Its features can vary under certain conditions. Catalase and cytochromes may be formed in the presence of hemes and lactic acid can be further metabolized, resulting in lower lactic acid concentrations. Cell division occurs in one plane, except pediococci. The cells are usually nonmotile. They have a requirement for complex growth factors such as vitamins and amino acids. An unequivocal definition of LAB is not possible (Axelsson, Lac…

0301 basic medicinechemistry.chemical_classificationBacillibiology030106 microbiologyCoccusfood and beveragesbiology.organism_classificationLactic acidAmino acid03 medical and health scienceschemistry.chemical_compound030104 developmental biologyClostridiumchemistryBiochemistryLactic acid fermentationBacteriaBifidobacterium
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