A radioimmunoassay specific for glyceollin I was used to quantitate this phytoalexin in roots of soybean (Glycine max [L.] Merr. cv Harosoy 63) after infection with zoospores of either race 1 (incompatible) or race 3 (compatible) of Phytophthora megasperma Drechs. f. sp. glycinea Kuan and Erwin. The sensitivity of the radioimmunoassay and an inmmunofluorescent stain for hyphae permitted quantitation of phytoalexin and localization of the fungus in alternate serial cryotome sections from the same root. The incompatible interaction was characterized by extensive fungal colonization of the root cortex which was limited to the immediate vicinity of the inoculation site. Glyceollin I was first detected in extracts of whole roots 2 hours after infection, and phytoalexin content rose rapidly thereafter. Significant concentrations of glyceollin I were present at the infection site in cross-sections (42 micrometers thick) of such roots by 5 hours, and exceeded 0.6 micromoles per milliliter (ECg, in vitro for glyceollin I) by 8 hours after infection. Longitudinal sectioning (14 micrometers thick) showed that glyceollin I accumulated particularly in the epidermal cell layers, but also was present in the root cortex at inhibitory concentrations. No hyphae were observed in advance of detectable levels of the phytoalexin and, in most roots, glyceollin I concentrations dropped sharply at the leading edge of the infection. In contrast, the compatible interaction was characterized by extensive unchecked fungal colonization of the root stele, with lesser growth in the rest of the root. Only small amounts of glyceollin I were detected in whole root extracts during the first 14 hours after infection. Measurable amounts of glyceollin I were detected only in occasional cross-sections of such roots 11 and 14 hours after infection. The phytoalexin was present at inhibitory concentrations in the epidermal cell layers, but the inhibitory zone did not extend appreciably into the cortex. Altogether, these data support the hypothesis that the accumulation of glyceollin I is an important early response of sojbean roots to infection by P. megasperma, but may not be solely responsible for inhibition of fungal growth in the resistant response.The production of phytoalexins is a well-documented response of plants to infection with a wide variety of microorganisms (7). The various lines of evidence supporting a role for these anti- ' Supported by the Deutsche Forschungsgemeinschaft (SFB 46) A disease that has received considerable attention as a model host-pathogen system is root and stem rot of soybean (Glycine max) cause by Phytophthora megasperma f. sp. glycinea. In the field, this pathogen most commonly infects soybean plants under conditions of water-logged soils (12). The natural infective propagules are zoospores, and the most frequent site of infection is the plant root. Young seedlings are most severely damaged. Most studies on the biochemistry of this plant-pathogen interaction have relied on infecting mechanically wounded h...
Primary roots of soybean (Glycine max (L.), Merrill, cv. Harosoy 63) seedlings were inoculated with zoospores from either race 1 (incompatible, host resistant) or race 3 (compatible, host susceptible) of Phytophthora megasperma f.sp. glycinea and total callose was determined at various times after inoculation. From 4 h onward, total callose was significantly higher in roots showing the resistant rather than the susceptible response. Local callose deposition in relation to location of fungal hyphae was determined in microtome sections by its specific fluorescence with sirofluor and was quantified on paper prints with an image-analysis system. Callose deposition, which occurs adjacent to hyphae, was found soon after inoculation (2, 3 and 4 h post inoculation) only in roots displaying the resistant response, and was also higher at 5 and 6 h after inoculation in these resistant roots than in susceptible roots. Early callose deposition in the incompatible root-fungus reaction could be a factor in resistance of soybean against P. megasperma.
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