Plant Secondary Metabolites
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Saccharides 1 origin, sugars, sugar alcohols; sugar nucleotides, uronic acids 3. Saccharides 2 cyanogenic glycosides 4. Saccharides 3 mustard oil glycosides 5. Phenolics 1 synthesis: the shikimic acid pathway 6. Phenolics 2 discussion of different phenolic derivatives, 7. Phenolics 3 Flavonoids, isoflavonoids.
- Secondary Metabolites in Plants.
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- Plant Physiology!
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- Biotechnological Production of Plant Secondary Metabolites.
Polyketids Biosynthesis, important examples, biological roles 9. Terpenoids 1 Biosynthesis, hemi-, mono and sesquiterpenes Terpenoids 2 di-, tri, tetra and polyterpenes Azotoids 1 Definition, amines, amides. Definition of alkaloids Azotoids 2 Lysine, Ornithine, Tyrosine families Azotoids 3 Tryptophan, Purin alkaloids, Amaryllidaceae alkaloids Summary and consultation. Evaluation description Written exam. Constitutive accumulation of a resveratrol-glucoside in transgenic alfalfa increases resistance to Phoma medicagi nis.
Plant-Microbe Interact. Inderjit, Weston, I. Root exudation: an overview, In: Root Ecology, Ed. Ito, S.
Plant secondary metabolism
Symptomless infection of tomato plants by tomatinase producing Fusarium oxysporum formae speciales nonpathogenic on tomato plants. Physiological and Molecular Plant Pathology. Izhaki, I. New Physiologist. Jeandet, P. Phytoalexins from the Vitaceae, biosynthesis, phytoalexin gene expresion in transgenic plants, antifungal activity and metabolism.
Jejelowo, O. Relationship between conidial concentration, germling growth, and phytoalexin production by Camelina sativa leaves inoculated with Alternaria brassi cae. Jimenez, L. Phyto-alexins produced in the leaves of Capsella bursa-pastoris shepherd's purse. Phytoprotection 78, Kabuto, K. Tetrahedron Lett. Kato, H. A novel diterpene phytoalexin from UV-irradiated rice leaves.
- Production of Plant Secondary Metabolites: Examples, Tips and Suggestions for Biotechnologists..
- Plant secondary metabolites - Plant‐Environment Interaction - Wiley Online Library.
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Kato-Noguchi, H. Isolation and identification of a potent allelopathic substance in rice root exudates. Keukens, E. Molecular basis of glycoalkaloid induced membrane disruption. Kim, S.
Induced plant secondary metabolites for phytopatogenic fungi control: a review
Coumarin glycosides from the roots of Angelica dahurica. Kim, Y. Anthraqui nones isolated from Cassia tora Leguminosae seed show an antifungal property against phytopathogenic fungi. Kindl, H. Interplay Botrytis -plant: Plant stilbene synthase gene promoters responsive to Botrytis- made compounds and Botrytis chaperones sensitive to plant stilbene phytoalexins. Kliebenstein, D. Plant J. Kodama, O.
Ultraviolet-induced accumulation of phytoalexins in rice leaves. Phytoalexins stress metabolism and disease resistance in plants. Kurita, N. Antifungal activity and molecular orbital energies of aldehyde compounds from oils of higher plants.
Kutschy, S. Synthesis, absolute configuration and enantiomeric enrichment of a cruciferous oxindole phytoalexin, S - - -spirobrassinin, and its oxazoline analog. Organic Chemistry. Lambers, H. Plant Physiological Ecology. Springer-Verlag, New York Inc. Langcake, P. The production of resveratrol by Vitis vinifera and other members of the Vitaceae as a response to infection or injury.
Luo, M. The mechanism of loss of germination ability of A. Minamikawa, T. Isolation of esculetin from sweet potato roots with black rot. Two glucosides of coumarin derivatives in sweet potato roots infected by Ceratocystis fibriata. Monde, K. Brassicanal C and two dioxindoles from cabbage. Morrissey, J. Fungal resistance to plant antibiotics as a mechanism of pathogenesis. Microbiology and Molecular Biology Reviews. Chemical composition and fungitoxic properties to phytopathogenic fungi of essential oils selected aromatic plants growing wild in Turkey. Nicholson, R.
Phytoalexin synthesis by the Sorghum mesocotyl in response to infection by pathogenic and nonpathogenic fungi. Nordlund, D.
Semichemicals: A review of the terminology; Semiochemicals-their role in pest control, pp. New York: John, Wiley. Osbourn, A. Performed antimicrobial compounds and plant defense against fungal attack. Plant Cell. Review - Antimicrobial phyto-protectants and fungal pathogens, a commentary. Fungal Genetic and Biology. Paulitz, T. Biological control in greenhouse systems. Pedras, M. Phytoalexin accumulation and antifungal compounds from the crucifer wasabi. Wasalexins A and B, new phytoalexins from wasabi: isolation, synthesis, and antifungal activity.