Search results for "Botrytis cinerea."

showing 4 items of 54 documents

Pythium contiguanum nomen novum (syn. Pythium dreschleri Paul), its antagonism to Botrytis cinerea, ITS1 region of its nuclear ribosomal DNA, and its…

2000

Pythium drechsleri Paul was described as a new species from soil samples taken in a salt-marsh of Arzew, Algeria [Paul, B. (1988) Une nouvelle espece de Pythium isolee d'une saline de l'ouest Algerien. Cryptogam. Mycol. 9, 325-333]. The name of the fungus, P. drechsleri, is a nomen invalidum, as it is a later homonym of P. drechsleri Rajgopalan and Ramakrishnan [Rajagopalan, S. and Ramakrishnan, K. (1971) Phycomycetes in agricultural soils with special reference to the Pythiaceae. Madras Univ. J. Sect. B 37,38, 100-117]. A new name, Pythium contiguanum is now being given to P. drechsleri Paul. This species is characterised by its contiguous inflated type of sporangia, smooth-walled oogonia …

food.ingredientNomen novumMolecular Sequence DataPythiumMicrobiologyDNA RibosomalPolymerase Chain ReactionIntergenic regionfoodTerminology as TopicBotanyAntibiosisGeneticsRNA Ribosomal 18SPythiumMolecular BiologyRibosomal DNASoil MicrobiologyBotrytisBotrytis cinereabiologyBase SequenceSporangiumbiology.organism_classificationPythiaceaeRNA Ribosomal 5.8SBotrytisFEMS microbiology letters
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Absence of the endo-beta-1,4-glucanases Cel1 and Cel2 reduces susceptibility to Botrytis cinerea in tomato.

2007

Cel1 and Cel2 are members of the tomato (Solanum lycopersicum Mill) endo-beta-1,4-glucanase (EGase) family that may play a role in fruit ripening and organ abscission. This work demonstrates that Cel1 protein is present in other vegetative tissues and accumulates during leaf development. We recently reported the downregulation of both the Cel1 mRNA and protein upon fungal infection, suggesting the involvement of EGases in plant-pathogen interactions. This hypothesis was confirmed by assessing the resistance to Botrytis cinerea infection of transgenic plants expressing both genes in an antisense orientation (Anti-Cel1, Anti-Cel2 and Anti-Cel1-Cel2). The Anti-Cel1-Cel2 plants showed enhanced …

food.ingredientPseudomonas syringaePlant ScienceDeoxyglucoseGene Expression Regulation EnzymologicMicrobiologychemistry.chemical_compoundfoodAbscissionSolanum lycopersicumGene Expression Regulation PlantGeneticsPseudomonas syringaeCellulose 14-beta-CellobiosidaseGlucansBotrytis cinereaBotrytisPlant DiseasesbiologyReverse Transcriptase Polymerase Chain ReactionfungiCallosefood and beveragesCell BiologyGlucanasebiology.organism_classificationPlants Genetically ModifiedIsoenzymesPlant LeavesAntisense Elements (Genetics)BiochemistrychemistryFruitBotrytisSolanumSolanaceaeThe Plant journal : for cell and molecular biology
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Rapid Assessment of Gray Mold (Botrytis cinerea) Infection in Grapes with a Biosensor System

2015

Abstract: Botrytis cinerea is the causative agent of gray mold disease, which causes considerable economic losses to winemakers. The extent of gray mold infection of winegrapes is commonly visually estimated, a method that is prone to assessor bias. Here, we used rapid and simple enzyme-based screening consisting of carbon-electrode, screen-printed amperometric biosensors to estimate gluconic acid and glycerol concentration in winegrapes infected with different degrees of B. cinerea. The lower limits of quantification of the screen-printed amperometric biosensors were 3 mg/L for gluconic acid (corresponding to an infection rate of less than 1%) and 35 mg/L for glycerol; the response times w…

glycerolAmperometric biosensorHorticulturemedicine.disease_causeGray Mold; Botrytis cinerea; Biosensor System;chemistry.chemical_compoundBotrytis cinereaMoldGlycerolmedicinegluconic acidFood scienceGray MoldBiosensor SystemBotrytis cinereabiologyfungifood and beveragesMold infectionSettore AGR/15 - Scienze E Tecnologie Alimentaribiosensorsgrapebiology.organism_classificationRapid assessmentBiochemistrychemistryGluconic acidBotrytis cinerea biosensors gluconic acid glycerol grapeBiosensorFood Science
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Genomics of the grapevine - pathogen interactions Botrytis cinerea virulence factors and molecular mechanisms of induced resistance

2010

International audience

resistance[SDV] Life Sciences [q-bio]Botrytis cinerea[SDV]Life Sciences [q-bio]pied de vignegenomicsrésistanceComputingMilieux_MISCELLANEOUSgrapevinegénomique
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