Titlebook: Genes Involved in Plant Defense; Thomas Boller,Frederick Meins Book 1992 Springer-Verlag Wien 1992 evolution.genes.genetics.microbe.microb

生意行为

The Use of Resistance Genes in Breeding Epidemiological Considerationsreals, the most valuable crops in the world, which have short cycles allowing several breeding generations per year and which are used indirectly, so that some degree of damage to the crop can be tolerated. With these crops, breeding for resistance often occupies more than half of the resources of breeding programmes.

Atheroma

Pathogen Avirulence Genes and Elicitors of Plant Defensee genes’ control a wide range of expressive mechanisms associated with the HR, including the production of chitinases, antiviral proteins, protease inhibitors, ß-1,3 glucanases and hydroxyproline-rich glycoproteins as well as encoding enzymes involved in the production of lignin, callose and phytoalexins at the infection site.

vitrectomy

Regulation of Lignification in Defensestructural barriers are the cellulosic cell walls, in particular epidermal cell walls, impregnated with lignin polymers and other wallbound phenolics and the cuticle with cutin and soluble waxes as major constituents (Vance et al., 1980; Kolattukudy, 1980, 1985; Kolattukudy and Soliday, 1985).

追踪

Physics and Chemistry of Materials with Aeed been used to create transgenic plants of several dozen species containing genes of scientific or commercial importance. The second consequence, perhaps somewhat accidental, is that . now provides the best available model for studying the molecular interactions between plants and their bacterial pathogens.

疲惫的老马

Water at Biomolecule Interfacestoalexin response), whereas others do not (e.g., callose formation). Compatible plant/pathogen combinations are characterized by a de1ay or apparent absence of the typical defense response, which may be caused by pathogen-mediated disturbances at any level of the reaction sequence(s) leading to successful resistance.

形容词

Crumple

APO

扫兴

The Primary Structure of Plant Pathogenesis-related Glucanohydrolases and Their Genesnd Wada, 1967), regulation of transport through vascular tissues (Clarke and Stone, 1962), cellulose biosynthesis (Meier et al., 1981) and cell division (Waterkeyn, 1967; Fulcher et al., 1976). Although the existence of other substrates has not been ruled out, chitin, the known substrate of chitinase, is not found in higher plants.

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