Search results for "PENICILLIUM EXPANSUM"

showing 3 items of 23 documents

Caractères moisi-terreux des vins : origine et prévention

2005

Note de synthèse du groupe national de travail ONIVINS - juillet 2005; National audience

[SDV] Life Sciences [q-bio]BOTRYTIS CINEREACARACTERE MOISI-TERREUX[SDV]Life Sciences [q-bio]PENICILLIUM EXPANSUMBOTRYTISDEUTEROMYCOTINAPENICILLIUM
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Lag time for germination of Penicillium chrysogenum conidia is induced by temperature shifts.

2013

In the environment, fungal conidia are subject to transient conditions. In particular, temperature is varying according to day/night periods. All predictive models for germination assume that fungal spores can adapt instantaneously to changes of temperature. The only study that supports this assumption (Gougouli and Koutsoumanis, 2012, Modelling germination of fungal spores at constant and fluctuating temperature conditions. International Journal of Food Microbiology, 152: 153-161) was carried out on Penicillium expansum and Aspergillus niger conidia that, in most cases, already produced germ tubes. In contrast, the present study focuses on temperature shifts applied during the first stages…

biologyfungiTemperatureGerm tubePenicillium chrysogenumSpores FungalPenicillium chrysogenumbiology.organism_classificationMicrobiologyModels BiologicalSporeConidiumHorticultureKineticsGerminationBotanyPotato dextrose agarSteady state (chemistry)Penicillium expansumFood ScienceFood microbiology
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Changes in cell wall pectin and pectinase activity in apple and tomato fruits duringPenicillium expansum infection

2006

Cell wall pectin degradation in apple and tomato fruit during infection by Penicillium expansum was investigated. In infected apple fruit, a significant decrease in the average molecular mass was observed in pectins extracted with CDTA and also in pectins extracted with Na2CO3. In tomato fruits, depolymerisation was also observed in both pectic fractions during infection, the major change being in the pectins extracted with Na2CO3. This pectin depolymerisation associated with P. expansum infection can be attributed to the action of pectinases; in apple fruit, a significant increase in polygalacturonase and pectin methylesterase was observed in infected fruits, although in tomato fruit the o…

chemistry.chemical_classificationanimal structuresNutrition and Dieteticsfood.ingredientbiologyPectinfungifood and beveragesFungi imperfectibiology.organism_classificationPolysaccharidecomplex mixturesCell wallfoodchemistryBotanyFood sciencePenicillium expansumPectinaseAgronomy and Crop ScienceSolanaceaeLegumeFood ScienceBiotechnologyJournal of the Science of Food and Agriculture
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