Search results for "Chrysogenum"

showing 10 items of 24 documents

Sequences of isopenicillin N synthetase genes suggest horizontal gene transfer from prokaryotes to eukaryotes

1990

Evolutionary distances between bacterial and fungal isopenicillin N synthetase (IPNS) genes have been compared to distances between the corresponding 5S rRNA genes. The presence of sequences homologous to the IPNS gene has been examined in DNAs from representative prokaryotic organisms and Ascomycotina. The results of both analyses strongly support two different events of horizontal transfer of the IPNS gene from bacteria to filamentous fungi. This is the first example of such a type of transfer from prokaryotes to eukaryotes.

Genes FungalMolecular Sequence DataPenicillium chrysogenumBiologyTransfectionAspergillus nidulansGeneral Biochemistry Genetics and Molecular Biology5S ribosomal RNASequence Homology Nucleic AcidGeneGeneral Environmental ScienceGeneticsBase SequenceGeneral Immunology and MicrobiologyGenetic transferNucleic acid sequenceGeneral MedicineTransfectionbiology.organism_classificationBiological EvolutionStreptomycesAcremoniumGenes BacterialHorizontal gene transferNucleic acidOxidoreductasesGeneral Agricultural and Biological SciencesBacteriaProceedings of the Royal Society of London. Series B: Biological Sciences
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Presence of nucleosomes inPenicillium chrysogenum

1987

We have studied the chromatin structure ofPenicillium chrysogenum. This fungus presents the typical nucleosomal repeat and the core DNA size characteristic of all the eukaryotes. The repeat length (about 180 base pairs) is in the range of those obtained for most fungi (160–180 base pairs) and shorter than in higher eukaryotes. Knowledge aboutP. chrysogenum chromatin structure opens the way to the study of the mechanisms of genetic regulation in this filamentous fungus.

GeneticsBase pairGeneral MedicineFungusFungi imperfectiBiologybiology.organism_classificationPenicillium chrysogenumApplied Microbiology and BiotechnologyMicrobiologyChromatinFilamentous funguschemistry.chemical_compoundchemistryBiochemistryNucleosomeDNACurrent Microbiology
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Potential of Antifungal Proteins (AFPs) to Control Penicillium Postharvest Fruit Decay

2021

Penicillium phytopathogenic species provoke severe postharvest disease and economic losses. Penicillium expansum is the main pome fruit phytopathogen while Penicillium digitatum and Penicillium italicum cause citrus green and blue mold, respectively. Control strategies rely on the use of synthetic fungicides, but the appearance of resistant strains and safety concerns have led to the search for new antifungals. Here, the potential application of different antifungal proteins (AFPs) including the three Penicillium chrysogenum proteins (PAF, PAFB and PAFC), as well as the Neosartorya fischeri NFAP2 protein to control Penicillium decay, has been evaluated. PAFB was the most potent AFP against …

Microbiology (medical)Penicillium italicumQH301-705.5Penicillium italicumPlant SciencePenicillium digitatumPenicillium italicumArticle03 medical and health sciencesPenicillium digitatumpostharvest protectionmedicineFood scienceBiology (General)Penicillium expansumEcology Evolution Behavior and Systematics030304 developmental biology0303 health sciencesPenicillium digitatumPenicillium decay<i>Penicillium</i> <i>italicum</i>biology030306 microbiologyChemistry<i>Penicillium</i> <i>expansum</i>Penicillium expansum<i>Penicillium</i> <i>digitatum</i>Blue moldfood and beveragesbiology.organism_classificationPenicillium chrysogenumPostharvest protectionFungicidemedicine.drug_formulation_ingredient<i>Penicillium</i> decayPAFB antifungal proteinPenicilliumPostharvestPenicillium expansumJournal of Fungi
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Aurintricarboxylic acid as a nuclease inhibitor in fungal protoplasts

1986

Aurintricarboxylic acid (ATA), a potent nuclease inhibitor, has been shown to prevent foreign DNA degradation in transformation of Penicillium chrysogenum and Saccharomyces cerevisiae. ATA may be useful not only in vitro but also in vivo.

NucleaseSaccharomyces cerevisiaeBiologyPenicillium chrysogenumbiology.organism_classificationMicrobiologyIn vitrochemistry.chemical_compoundTransformation (genetics)chemistryBiochemistryIn vivoAurintricarboxylic acidGeneticsbiology.proteinMolecular BiologyDNA
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A temperature-type model for describing the relationship between fungal growth and water activity

2001

Growth of Penicillium chrysogenum, Aspergillus flavus, Cladosporium cladosporioides and Alternaria alternata at their respective optimum temperatures was studied in Potato Dextrose Agar (PDA) medium at different water activities (a(w)) adjusted with glycerol. The growth rate (mu) was expressed as the increase in colony radius per unit of time. This paper extends the model that showed the relationship between temperature and bacterial growth rate developed by Rosso et al. [J. Theor. Biol. 162 (1993) 447] to describe the influence of a(w) on fungal development. An excellent correlation between the experimental data and the model predictions was obtained, the regression coefficients (r2) were …

TECHNIQUE DE PREVISIONWater activityMohoColony Count MicrobialBacterial growthPenicillium chrysogenumMicrobiologyAlternaria alternataModels Biological03 medical and health sciencesBotanyFood scienceGrowth rate[SDV.MP] Life Sciences [q-bio]/Microbiology and ParasitologyComputingMilieux_MISCELLANEOUS030304 developmental biology0303 health sciencesbiology030306 microbiologyTemperatureAlternariaWaterGeneral Medicinebiology.organism_classificationPenicillium chrysogenumKinetics[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologyFood MicrobiologyPotato dextrose agarMitosporic FungiCladosporiumFood ScienceCladosporiumAspergillus flavus
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Inactivation of conidia of Penicillium chrysogenum, P. digitatum and P. italicum by ethanol solutions and vapours

2008

A fractional factorial design, 2(5-1) experiments, was used for assessing the influence of 5 factors: water activity, aw [0.7, 0.9], temperature, T ( degrees C) [10, 30], mode of application, A [liquid, vapour], ethanol concentration, E (% w/w) [5, 10] and time, t (d) [1, 4] on the inactivation of spores of Penicillium chrysogenum, P. digitatum and P. italicum. Survival was determined by germination at optimal conditions within 3d. The experimental response was log (N 0/Nt), where N 0 and Nt (spore ml(-1)) the concentrations of viable spores at t=0 and t respectively. By a decreasing order of sensitivity to ethanol, moulds were ranked as followed: P. digitatum, P. italicum and P. chrysogenu…

Time FactorsWater activityMohoColony Count MicrobialPenicillium chrysogenumMicrobiologyConidiumchemistry.chemical_compoundFood PreservationBotanyFood scienceEthanolDose-Response Relationship DrugEthanolbiologyPenicilliumTemperatureWaterGeneral MedicineSpores Fungalbiology.organism_classificationPenicillium chrysogenumSporechemistryGerminationPenicilliumFood MicrobiologyFood PreservativesGasesFood ScienceInternational Journal of Food Microbiology
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Modeling the effect of ethanol vapor on the germination time of Penicillium chrysogenum.

2005

The influence of ethanol vapor on germination of Penicillium chrysogenum was determined on yeast nitrogen base plus glucose agar medium at 25 degrees C. Ethanol vapors were generated by 0 to 6% (wt/wt) ethanol solutions at the bottom of hermetically closed petri dishes. The logistic equation was used to describe the data as the percentage of germination versus time and to estimate the germination time. The effect of ethanol concentration on germination time was described by a new reparameterized equation, resulting in an estimated limiting ethanol concentration of 4.3%. Up to 3% ethanol, all spores germinated, and the germination time increased with increasing ethanol concentration. At 3.5 …

Time FactorsWater activityconidial germinationphbreadGerm tubePenicillium chrysogenumshelf-life extensionMicrobiologyModels BiologicalLevensmiddelenmicrobiologieAgar platechemistry.chemical_compoundFood Preservationwater activityBotanyFood scienceVLAGEthanolbiologyDose-Response Relationship DrugEthanolspoilagetemperatureSpores FungalPenicillium chrysogenumbiology.organism_classificationYeastSporeKineticsLogistic Modelschemistryclostridium-botulinumGerminationFood Microbiologygrowth-rateFood ScienceJournal of food protection
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Use of the Weibull model to describe inactivation of dry harvested conidia of different Penicillium species by ethanol vapours

2010

Aims:  This study aimed at modelling the effect of ethanol vapours, in the range 0·7–7·5 kPa, on the inactivation of dry-harvested conidia of Penicillium chrysogenum, Penicillium digitatum and Penicillium italicum. Methods and Results:  Survival curves were modelled by a Weibull model: log (N/N0) = −1/2·303 (t/α)β. The shape parameter β was different from one in all cases, indicating that the classical first-order kinetics approach is the exception rather than the rule. Survival curves exhibited upward concavity (β < 1) with the notable exception of P. chrysogenum at ethanol vapour pressures 0·7 and 1·5 kPa. The scale parameter α (h) varied greatly depending on the ethanol vapour pressure a…

Vapor pressurePenicillium chrysogenumModels BiologicalApplied Microbiology and BiotechnologyPenicillium italicumConidiumchemistry.chemical_compoundBotanymedicineFood sciencePenicillium digitatumEthanolbiologyEthanolPenicilliumGeneral MedicineSpores Fungalbiology.organism_classificationmedicine.diseasePenicillium chrysogenummedicine.drug_formulation_ingredientchemistryPenicilliumGasesVapoursBiotechnologyJournal of Applied Microbiology
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Preparation of fungal conidia impacts their susceptibility to inactivation by ethanol vapours.

2009

Abstract A common protocol employed for the preparation of conidia employs flooding a fungal colony grown on semi-solid media under optimum conditions with an aqueous solution. In contrast, conidia produced in a natural environment are usually not hydrated when disseminated in air and can be produced under water stress. In order to simulate the latter conditions, cultures were grown at different water activities and conidia were dry-harvested on the lid by turning the dishes upside-down then gently tapping the bottom of the box. This study aimed at assessing the effect of the preparation of fungal conidia on their inactivation by ethanol vapours. Firstly ethanol vapours (either 0.30 or 0.45…

Water activityMicrobiologyPenicillium italicumConidiumFood PreservationBotanymedicineDesiccationskin and connective tissue diseasesPenicillium digitatumbiologyDehydrationEthanolfungiPenicilliumfood and beveragesWaterGeneral MedicineFungi imperfectirespiratory systemSpores Fungalbiology.organism_classificationmedicine.diseasePenicillium chrysogenumCulture Mediamedicine.drug_formulation_ingredientHorticulturePenicilliumFood MicrobiologyGasesVapoursFood ScienceInternational journal of food microbiology
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Prediction of conidial germination of Penicillium chrysogenum as influenced by temperature, water activity and pH.

2001

M. SAUTOUR, A. ROUGET, P. DANTIGNY, C. DIVIES AND M. BENSOUSSAN. 2001 Aims: Conidial germination of Penicillium chrysogenum was carried out under operating conditions compatible with a pastries manufacturing process. Methods and Results: A range, limited by two experimental values, was defined for each environmental factor tested: temperature (15 or 25°C), water activity (0·75 or 0·85) and pH (3·5 or 5·5). A closed device was made, which maintained an equilibrium between water activity of the culture medium and atmospheric relative humidity during 25 days, to follow spore germination. The combined effects of temperature, water activity and pH on spore germination were studied by applying fa…

Water activityTemperatureWaterFactorial experimentBiologyHydrogen-Ion ConcentrationPenicillium chrysogenumSpores FungalPenicillium chrysogenumbiology.organism_classificationApplied Microbiology and BiotechnologySporeConidiumHorticultureGerminationBotanySpore germinationRelative humidityLetters in applied microbiology
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