Search results for "Lactobacillus hilgardii"

showing 8 items of 8 documents

Comparative survey of putrescine production from agmatine deamination in different bacteria

2008

This article aims to study putrescine production in Lactobacillus hilgardii strain X1B, an agmatine degrader isolated from wine, and to compare it with three other different species, previously reported as putrescine producers from agmatine: Pseudomonas aeruginosa PAO1, Enterococcus faecalis ATCC11700 and Bacillus cereus CECT 148T. The effect of different biogenic amines, organic acids, cofactors, amino acids and sugars on putrescine production was evaluated. In some cases, a similar effect was found in all the strains studied but the magnitude differed. Arginine, glucose and fructose showed an inhibitory effect, whereas the presence of agmatine induced the production of putrescine in all m…

Biogenic AminesAgmatineArginineOtras Ciencias Biológicasved/biology.organism_classification_rank.speciesSpermineWineLactobacillus hilgardiiBiologyArginineMicrobiologyEnterococcus faecalisCiencias Biológicaschemistry.chemical_compoundBacillus cereusSpecies SpecificityEnterococcus faecalisPutrescineved/biologyBIOGENIC AMINESWINEbiology.organism_classificationPUTRESCINESpermidineAgmatine deiminaseLactobacilluschemistryBiochemistryPseudomonas aeruginosaPutrescineAGMATINE DEIMINASEAgmatineCIENCIAS NATURALES Y EXACTASFood ScienceFood Microbiology

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Effect of the natural winemaking process applied at industrial level on the microbiological and chemical characteristics of wine.

2013

The composition of yeast and lactic acid bacteria (LAB) communities and the chemical evolution of the large-scale commercial vinification of Catarratto IGT Sicilia, carried out under the biological regime, was followed from grape harvest until bottling. Simultaneously to the maximum growth of yeasts, LAB counts reached high level of concentration (6-7 log CFU mL(-1)) during the first steps of the alcoholic fermentation. Yeast identification was determined applying different molecular methods. The highest species biodiversity was observed on grape and must samples taken soon after pressing. Saccharomyces cerevisiae was detected at dominant concentrations during the entire winemaking process.…

Chemical analysiColony Countved/biology.organism_classification_rank.speciesColony Count MicrobialCatarratto grapevine; Chemical analysis; Lactic acid bacteria; Lactobacillus plantarum; Natural wine; Saccharomyces cerevisiae; Sicily; Spontaneous fermentation; Yeasts; Biodiversity; Colony Count Microbial; Ethanol; Fermentation; Italy; Lactobacillaceae; Leuconostoc; Phenols; Vitis; Volatile Organic Compounds; Wine; Yeasts; Food-Processing IndustryBioengineeringWineLactic acid bacteria; Yeasts; Lactobacillus plantarum; Saccharomyces cerevisiae; Chemical analysis; Spontaneous fermentation; Catarratto grapevine; Sicily; Natural wineLactobacillus hilgardiiSaccharomyces cerevisiaeEthanol fermentationSpontaneous fermentationApplied Microbiology and BiotechnologyMicrobialPhenolsYeastsMaceration (wine)Lactic acid bacteriaLeuconostocChemical analysisVitisFood scienceFood-Processing IndustrySicilyWinemakingCatarratto grapevineVolatile Organic CompoundsbiologyEthanolved/biologyfood and beveragesSettore AGR/15 - Scienze E Tecnologie AlimentariBiodiversitybiology.organism_classificationYeastBiochemistryItalyLeuconostoc mesenteroidesLactobacillaceaeFermentationNatural wineFermentationLactobacillus plantarumLeuconostocBiotechnologyLactobacillus plantarumSettore AGR/16 - Microbiologia AgrariaJournal of bioscience and bioengineering

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Polyphasic study of wine Lactobacillus strains: taxonomic implications

2005

One hundred and seventy-eight lactobacilli isolated from wine were characterized by a polyphasic approach. Strains were phenotypically identified at genus and species level by classical tests including the analysis of cell morphology, homo/heterofermentative character, sugar fermentation patterns, growth at different temperatures and the optical nature of the isomer of lactic acid produced from glucose. Molecular techniques such as random amplification of polymorphic DNA (RAPD), amplified 16S rDNA restriction analysis (16S-ARDRA), PFGE-RFLP and ribotyping were used to characterize strains, and their potential for identification and/or typing was evaluated. The information obtained with thes…

DNA BacterialLactobacillus paracaseiMolecular Sequence Dataved/biology.organism_classification_rank.speciesWineLactobacillus hilgardiiLactobacillus pentosusCell morphologyDNA RibosomalRibotypingMicrobiologyRibotypingRNA Ribosomal 16SLactobacillusVitisEcology Evolution Behavior and SystematicsGeneticsbiologyved/biologyLactobacillus brevisfood and beveragesSequence Analysis DNAGeneral Medicinebiology.organism_classificationBacterial Typing TechniquesElectrophoresis Gel Pulsed-FieldRandom Amplified Polymorphic DNA TechniqueLactobacillusPhenotypeFermentationLactobacillus collinoidesPolymorphism Restriction Fragment LengthLactobacillus plantarumInternational Journal of Systematic and Evolutionary Microbiology

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Which lactic acid bacteria are responsible for histamine production in wine?

2005

Aims: To quantify the ability of 136 lactic acid bacteria (LAB), isolated from wine, to produce histamine and to identify the bacteria responsible for histamine production in wine. Methods and Results: A qualitative method based on pH changes in a plate assay was used to detect wine strains capable of producing high levels of histamine. Two quantitative, highly sensitive methods were used, an enzymatic method and HPLC, to quantify the histamine produced by LAB. Finally, an improved PCR test was carried out to detect the presence of histidine decarboxylase gene in these bacteria. The species exhibiting the highest frequency of histamine production is Oenococcus oeni. However, the concentrati…

DNA Bacterialved/biology.organism_classification_rank.speciesWineLactobacillus hilgardiiHistidine DecarboxylaseGram-Positive BacteriaApplied Microbiology and BiotechnologyPolymerase Chain Reactionchemistry.chemical_compoundLactobacillusPediococcusHistamine ProductionChromatography High Pressure LiquidWinemakingOenococcus oenibiologyved/biologyfood and beveragesGeneral Medicinebiology.organism_classificationLactobacilluschemistryBiochemistryGenes BacterialFood MicrobiologyPediococcusHistamineOenococcusLeuconostocBiotechnologyHistamineJournal of applied microbiology

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Tyramine and phenylethylamine production among lactic acid bacteria isolated from wine.

2007

The ability of wine lactic acid bacteria to produce tyramine and phenylethylamine was investigated by biochemical and genetic methods. An easy and accurate plate medium was developed to detect tyramine-producer strains, and a specific PCR assay that detects the presence of tdc gene was employed. All strains possessing the tdc gene were shown to produce tyramine and phenylethylamine. Wines containing high quantities of tyramine and phenylethylamine were found to contain Lactobacillus brevis or Lactobacillus hilgardii. The main tyramine producer was L. brevis. The ability to produce tyramine was absent or infrequent in the rest of the analysed wine species.

Pcr assayved/biology.organism_classification_rank.speciesColony Count MicrobialTyramineWineLactobacillus hilgardiiMicrobiologychemistry.chemical_compoundPhenethylaminesFood microbiologyWinebiologyLactobacillus brevisved/biologyfood and beveragesGeneral MedicineTyramineTyrosine Decarboxylasebiology.organism_classificationLactic acidCulture MediaLactobacilluschemistryBiochemistryFood MicrobiologyBacteriaFood ScienceInternational journal of food microbiology

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Metabolism of Sugars and Organic Acids by Lactic Acid Bacteria from Wine and Must

2008

Heterofermentative lactic acid bacteria (LAB) which are common in plant associated environments are found also in grape must and wine. In this environment specific strains predominate which are adapted to the low pH and high alcohol contents. Must and wine harbour the strictly heterofermentative Oenococcus oeni, Lactobacillus hilgardii and Lactobacillus brevis, and the facultatively heterofermentative Lactobacillus plantarum and Lactobacillus pentosus (Rodas et al. 2005). In addition homofermentative lactic acid bacteria of the Pediococcus group are able to grow in wine and must, but are normally found at low cell densities. The growth of lactic acid bacteria in wine depends largely on suga…

WinebiologyLactobacillus brevisved/biologyved/biology.organism_classification_rank.speciesfood and beveragesSugars in wineLactobacillus hilgardiiWine faultbiology.organism_classificationBiochemistryMalolactic fermentationPediococcusFood scienceOenococcus oeni

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Factors affecting the production of putrescine from agmatine by Lactobacillus hilgardii X1B isolated from wine

2008

Aims: To elucidate and characterize the metabolic putrescine synthesis pathway from agmatine by Lactobacillus hilgardii X1B. Methods and Results: The putrescine formation from agmatine by resting cells (the normal physiological state in wine) of lactic acid bacteria isolated from wine has been determined for the first time. Agmatine deiminase and N-carbamoylputrescine hydrolase enzymes, determined by HPLC and LC-Ion Trap Mass Spectrometry, carried out the putrescine synthesis from agmatine. The influence of pH, temperature, organic acids, amino acids, sugars and ethanol on the putrescine formation in wine was determined. Conclusions: Resting cells of Lact. hilgardii X 1B produce putrescine …

ved/biology.organism_classification_rank.speciesLactobacillus hilgardiiApplied Microbiology and BiotechnologyCiencias Biológicas//purl.org/becyt/ford/1 [https]chemistry.chemical_compoundBiología Celular MicrobiologíaLACTIC ACID BACTERIABiogenic amine//purl.org/becyt/ford/1.6 [https]chemistry.chemical_classificationWineved/biologyfood and beveragesBIOGENIC AMINESWINEGeneral MedicinePUTRESCINEAmino acidLactic acidAgmatine deiminasechemistryBiochemistryPutrescineAGMATINE DEIMINASEAgmatineCIENCIAS NATURALES Y EXACTASBiotechnology

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Regulation of hdc expression and HDC activity by enological factors in lactic acid bacteria.

2008

Aims: The aim of this work was to study the influence of enological factors on the histidine decarboxylase gene (hdc) expression and on histidine decarboxylase enzyme (HDC) activity in Lactobacillus hilgardii, Pediococcus parvulus and Oenococcus oeni. Methods and Results: Cell extracts and whole cells were used. Glucose, fructose, malic acid and citric acid diminished the hdc expression. Ethanol did not increase hdc expression or activity in cells, but increased HDC activity. Temperature and pH had effect on the activity of HDC but not on hdc expression. Tartaric acid and l-lactic acid, and sulphur dioxide (SO2) had no effect on enzyme synthesis and activity. Bacterial species differ in t…

ved/biology.organism_classification_rank.speciesLactobacillus hilgardiiFructoseHistidine DecarboxylaseApplied Microbiology and Biotechnologychemistry.chemical_compoundMalolactic fermentationSulfur DioxideDicarboxylic AcidsPediococcusOenococcus oenibiologyved/biologyTemperaturefood and beveragesFructoseGeneral MedicineHydrogen-Ion Concentrationbiology.organism_classificationHistidine decarboxylaseEnzyme assayLactic acidCulture MediaLactobacillusGlucosechemistryBiochemistryGene Expression RegulationLactobacillaceaeFermentationbiology.proteinMalic acidLeuconostocBiotechnologyJournal of applied microbiology

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