Your search keyword '"Jos P. Wubben"' showing total 6 results

1. Stagonospora avenae Secretes Multiple Enzymes that Hydrolyze Oat Leaf Saponins

Author

John P. Morrissey, Jos P. Wubben, and Anne E. Osbourn

Subjects

fungal pathogen, saponinase, secondary metabolite, Microbiology, QR1-502, Botany, QK1-989

Abstract

The phytopathogenic fungus Stagonospora avenae is able to infect oat leaves despite the presence of avenacoside saponins in the leaf tissue. In response to pathogen attack, avenacosides are converted into 26-desglucoavenacosides (26-DGAs), which possess antifungal activity. These molecules are comprised of a steroidal backbone linked to a branched sugar chain consisting of one α-L-rhamnose and two (avenacoside A) or three (avenacoside B) β-D-glucose residues. Isolates of the fungus that are pathogenic to oats are capable of sequential hydrolysis of the sugar residues from the 26-DGAs. Degradation is initiated by removal of the L-rhamnose, which abolishes antifungal activity. The D-glucose residues are then hydrolyzed by β-glucosidase activity. A comprehensive analysis of saponin-hydrolyzing activities was undertaken, and it was established that S. avenae isolate WAC1293 secretes three enzymes, one α-rhamnosidase and two β-glucosidases, that carry out this hydrolysis. The major β-glucosidase was purified and the gene encoding the enzyme cloned. The protein is similar to saponin-hydrolyzing enzymes produced by three other phytopathogenic fungi, Gaeumannomyces graminis, Septoria lycopersici, and Botrytis cinerea, and is a family 3 β-glucosidase. The gene encoding the β-glucosidase is expressed during infection of oat leaves but is not essential for pathogenicity.

Published

2000

2. Molecular characerization of the interaction between the fungal pathogen Cladosporium fulvum and tomato

Author

Guy Honée, Guido F. J. M. Van den Ackerveken, Henk W. J. Van den Broek, Ton J. Cozijnsen, Matthieu H. A. J. Joosten, Mirian Kooman-Gersmann, Jacques Vervoort, Ralph Vogelsang, Paul Vossen, Jos P. Wubben, and Pierre J. G. M. De Wit

Subjects

Genetics, Plant Science, Horticulture, Agronomy and Crop Science

Published

1994

3. Epidemiology of Botrytis cinerea Diseases in Greenhouses

Author

Jos P. Wubben and Aleid J. Dik

Subjects

Horticulture, medicine.medical_specialty, biology, Protected cultivation, Epidemiology, Botany, Horticultural crops, medicine, Greenhouse, Physical control, biology.organism_classification, Greenhouse crops, Botrytis cinerea

Published

2007

4. Botrytis cinerea endopolygalacturonase genes are differentially expressed in various plant tissues

Author

Arjen ten Have, Jos P. Wubben, Wendy Oude Breuil, Jan A. L. van Kan, and Jaap Visser

Subjects

RT-PCR, Biology, Microbiology, Gene Expression Regulation, Enzymologic, Gray mold, Botrytis cinerea, Gene Expression Regulation, Fungal, Gene expression, Genetics, Blight, Gene family, Pathogenicity, Pectinase, Cloning, Molecular, Gene, Differential gene expression, Plant Diseases, Regulation of gene expression, Reverse Transcriptase Polymerase Chain Reaction, Cell wall, fungi, Fungal genetics, food and beverages, RNA, Fungal, RNA blot analysis, biology.organism_classification, Blotting, Northern, Molecular biology, Pectin, Laboratorium voor Phytopathologie, Culture Media, Plant Leaves, Polygalacturonase, Fruit, Multigene Family, Laboratory of Phytopathology, Pectins, Botrytis, EPS

Abstract

Botrytis cinerea, the causal agent of blight, rot, and gray mold on many plant species, secretes various endopolygalacturonases during all stages of infection. The expression pattern of the encoding genes (Bcpg 1-6) was studied on four hosts: tomato, broad bean, apple, and courgette (also known as zucchini). All gene family members are differentially expressed, depending on the stage of infection and the host. Bcpg1 is expressed in all tissues tested although differences in transcript levels occur. Bcpg2 expression is detected early in the infection of three of four plant tissues tested. Bcpg3 and Bcpg5 are expressed in apple fruit tissue, although probably as a result of different regulatory mechanisms. The expression patterns of Bcpg4 and 6 are in agreement with their inducibility by monogalacturonic acid. The pattern of Bcpg gene expression indicates that B. cinerea is equipped with a flexible enzymatic pectate degradation machinery. The studies pinpoint new targets for gene disruption studies.

Published

2001

5. Saponins and Plant Defense

Author

Jonathan P. Carter, Michael J. Daniels, Rachel E. Melton, Jos P. Wubben, and Anne Osbourn

Subjects

carbohydrates (lipids), Antifungal, Human health, Traditional medicine, medicine.drug_class, fungi, Plant defense against herbivory, medicine, food and beverages, Biology, Antimicrobial

Abstract

Saponins are an important group of glycosylated natural products which are widely distributed in the plant kingdom.1 They have attracted considerable attention because of their effects (both beneficial and detrimental) on human health, and because of their diverse range of other biological properties.1–5 Saponins are also of considerable interest to plant pathologists because these molecules often exhibit potent antifungal activity, suggestive of a role in the protection of plants against attack by phytopathogenic fungi.6,7 Because saponins are often present in relatively high levels in healthy plants, they may be regarded as pre-formed antimicrobial agents, in contrast to phytoalexins, which are synthesized in response to pathogen attack.

Published

1998

6. Variable resistance factors of fungicides acting as sterol demethylation inhibitors

Author

Jos P. Wubben and Wolfram Köller

Subjects

Stereochemistry, Biology, biology.organism_classification, Applied Microbiology and Biotechnology, Sterol, Laboratorium voor Phytopathologie, Fungicide, chemistry.chemical_compound, Biochemistry, chemistry, Laboratory of Phytopathology, medicine, Life Science, Fenarimol, Growth inhibition, Miconazole, Ustilago avenae, Demethylation, medicine.drug, Tebuconazole

Abstract

The ED50 values and resistance factors of 20 fungicides that all act as inhibitors of the C-14 demethylation of 24-methylenedihydrolanosterol were determined for one wild-type and four resistant strains of Ustilago avenae. All fungicides were cross-resistant to each other; however, the resistance factors varied considerably, ranging from 50 (triadimenol) to 2·2 (miconazole). A tentative structural requirement for low resistant factors was the presence of two phenyl rings separated from each other by at least three atoms. Labeling of lipids with [14C]acetate in the absence and presence of the inhibitors and subsequent sterol analysis revealed that the variable resistance factors were not related to the presence of a second target site. In spite of reported second modes of action of fenarimol, tebuconazole or miconazole, accumulation of C-14 sterol precursors in both sensitive and resistant isolates was necessary to accomplish growth inhibition.

Published

1989