Induction of plant gp91 phox homolog by fungal cell wall, arachidonic acid, and salicylic acid in potato.

The oxidative burst has been suggested to be a primary event responsible for triggering the cascade of defense responses in various plant species against infection with avirulent pathogens or pathogen-derived elicitors. The molecular mechanisms of rapid production of active oxygen species (AOS), however, are not well known. We isolated homologs of gp91 phox, a plasma membrane protein of the neutrophil NADPH oxidase, from a potato cDNA library. Molecular cloning of the cDNA showed that there are two isogenes, designated StrbohA and StrbohB, respectively. The RNA gel blot analyses showed that StrbohA was constitutively expressed at a low level, whereas StrbohB was induced by hyphal wall components (HWC elicitor) from Phytophthora infestans in potato tubers. Treatment of potato tubers with HWC elicitor caused a rapid but weak transient accumulation of H2O2 (phase I), followed by a massive oxidative burst 6 to 9 h after treatment (phase II). Diphenylene iodonium (DPI), an inhibitor of the neutrophil NADPH oxidase, blocked both bursts, whereas pretreatment of the protein synthesis inhibitor cycloheximide with the tuber abolished only the second burst. These results suggest that the expression of StrbohA and StrbohB contributes to phase I and II bursts, respectively. The same is true for arachidonic acid, a lipid component of P. infestans-stimulated biphasic oxidative burst, whereas an endogenous signaling molecule, salicylic acid, only induced a weak phase II burst. Both molecules induced the StrbohB expression, which is in agreement with the second burst. To characterize the signal transduction pathway leading to the oxidative burst, we examined the role of protein phosphorylation in HWC-stimulated StrbohB gene expression. K252a and staurosporine, two protein kinase inhibitors, blocked the transcript accumulation. Two inhibitors of extracellular Ca2+ movement, however, did not abolish the transcript accumulation of StrbohB, suggesting that certain calcium-independent protein kinases are involved in the process of StrbohB gene expression. Additionally, we examined a causal relationship between the oxidative burst and expression of defense genes induced by the HWC elicitor. The transcript accumulation of genes related to sesquiterpenoid phytoalexin synthesis (lubimin and rishitin) and phenylpropanoid pathway was inhibited slightly by the DPI treatment, suggesting that the oxidative burst is not essential to activate these genes. Interestingly, the concomitant presence of DPI with the elicitor resulted in an increase in lubimin accumulation and a decrease in rishitin accumulation. Because it is known that lubimin is metabolized into rishitin via oxylubimin, we propose that AOS mediates the synthesis of rishitin from lubimin.

Isolation of the gene for EILP, an elicitor-inducible LRR receptor-like protein, from tobacco by differential display.

We screened tobacco genes, which are differentially expressed in response to a fungal elicitor, and have isolated a gene which codes for a leucine-rich repeat (LRR) protein closely related to Cf genes in tomato. The EILP (elicitor inducible LRR protein) gene encodes 95 kDa protein, which consists of a putative membrane spanning region, 28 leucine-rich repeats and some N-linked glycosylation sites, and shows high homology to Cf-2/Cf-5 family genes. Southern blot analysis revealed the presence of some genes homologous to EILP in tobacco, like Cf genes in tomato. The expression of EILP was low at the basal level and increased by treatment with elicitor, implying that EILP is involved in both preexisting and inducible surveillance systems. The expression of EILP was activated by a non-pathogen, Pseudomonas syringae pv. glycinea, and in a delayed fashion by the tobacco pathogen P. syringae pv. tabaci, suggesting that the product of EILP may be involved in non-host disease resistance in tobacco.

cDNA cloning of sesquiterpene cyclase and squalene synthase, and expression of the genes in potato tuber infected with Phytophthora infestans.

Sesquiterpene cyclase and squalene synthase are key branch point enzymes in isoprenoid pathway for the synthesis of sesquiterpenoid phytoalexins and sterols/steroid glycoalkaloids, respectively. cDNA clones encoding these enzymes were isolated from potato. A phylogenetic tree showed that the sesquiterpene cyclase is vetispiradiene synthase. Infection of Phytophthora infestans with potato tubers caused transient increases in the transcript level of vetispiradiene synthase in a compatible and an incompatible interactions. On the other hand, wound-induced expression of the squalene synthase was suppressed in favor of the expression of vetispiradiene synthase regardless of inoculated races.

Molecular cloning of a defense-response-related cytochrome P450 gene from tobacco.

Plant defenses against pathogen attack involve a series of inducible responses that contribute to resistance. Tobacco leaves injected with HWC (hyphal wall components prepared from Phytophthora infestans) elicitor showed typical defense responses, including the induction of localized necrosis and the accumulation of pathogenesis-related proteins. In order to elucidate the molecular mechanisms by which plant defense systems are activated, we screened tobacco plants for genes differentially expressed in response to HWC. We performed differential screening by RT-PCR with random primers and obtained PCR products specific to HWC-treated leaf RNA. Northern hybridization using the PCR products as probes confirmed that one transcript was actually induced by HWC treatment. As the deduced amino acid sequence of this clone showed the highest degree of similarity to elicitor-induced soybean cytochrome P450 CYP82A4, it was designated CYP82E1. The expression of CYP82E1 was strongly induced in tobacco by the soybean pathogen Pseudomonas syringae pv. glycinea (nonpathogenic on tobacco), but it was activated only slightly and in a delayed fashion by the tobacco pathogen P. syringae pv. tabaci (pathogenic on tobacco), implying that the product of CYP82E1 may be involved in disease resistance in tobacco.

Identification of chitinase and osmotin-like protein as actin-binding proteins in suspension-cultured potato cells.

Cytoplasmic aggregation is an early resistance-associated event that is observed in potato tissues either after penetration of an incompatible race of Phytophthora infestans, the potato late blight fungus, or after treatment with hyphal wall components (HWC) prepared from P. infestans. In potato cells in suspension culture, the number of cells with cytoplasmic aggregation increased upon treatment with HWC, but such an increase was suppressed by treatment with cytochalasin D prior to treatment with HWC. This result suggested that cytoplasmic aggregation in cultured potato cells might be connected with the association of actin filaments. To identify the molecular basis of cytoplasmic aggregation, we purified actin and actin-related proteins by affinity chromatography on a column of immobilized DNase I from cultured potato cells and isolated proteins of 43 kDa, 32 kDa and 22 kDa. Analysis of the amino-terminal amino acid sequences indicated that the 43 kDa, 32 kDa and 22 kDa proteins were potato actin, basic chitinase and osmotin-like protein, respectively. This conclusion was supported by the results of Western blotting analysis of the 43 kDa and 32 kDa proteins with antibodies against actin and basic chitinase. Binding analysis with actin coupled to actin-specific antibodies and biotinylated actin suggested that the 32 kDa and 22 kDa proteins had actin-binding activity. In addition, examination of biomolecular interactions using an optical biosensor confirmed the binding of chitinase to actin. These results imply the possibility that basic chitinase and osmotin-like protein might be involved in cytoplasmic aggregation, hereby participating. In the potato cell's defense against attack by pathogen.

The oxidative burst protects plants against pathogen attack: mechanism and role as an emergency signal for plant bio-defence--a review.

Various aspects, mechanisms and functions of the oxidative burst with generation of O2- superoxide anions in plant cells, which is stimulated by active defence-inducing agents such as fungal infection or elicitor treatment, were reviewed mainly on the basis of experimental evidence obtained in a system of Solanaceae plants and Phytophthora spp. The oxidative burst may be due to an O(2-)generating NADPH oxidase in the plasma membrane, which is activated with combinations of cytosolic proteins, Ca2+, calmodulin and protein kinase, following stimulation by elicitor molecules. The oxidative burst may play the role of an internal emergency signal for induction of the metabolic cascade for active defence.

A cytosolic phospholipase A2 from potato tissues appears to be patatin.

Phospholipase (PL) A2 is involved in signal transduction in the resistance reaction that is induced in potato by inoculation of an incompatible race of Phytophthora infestans, the late blight fungus, or by treatment with fungal elicitor hyphal wall components (Kawakita et al. 1993). In this study, PLA2 in the soluble fraction from potato tuber was purified. The following results suggested that the enzyme was, in fact, patatin: (1) the molecular mass of the purified enzyme was 40 kDa, the same as that of patatin; (2) the pI of the purified enzyme was approximately 4.75, which corresponds to that of patatin; and (3) the amino-terminal amino acid sequence of the purified enzyme showed a high degree of homology to that of patatin. Patatin is known as a storage protein of the potato tuber and it has been shown to have esterase activity. However, other enzymatic activities and the function(s) of patatin are unknown. We investigated the PLA activities of the purified patatin. The PLA2 activity of the patatin was much higher than the PLA1 activity, even though the protein exhibited both activities. The PLA2 activity of the enzyme was particularly apparent when phosphatidylcholine with linoleic acid at the sn-2 position was used as substrate. Lower activity was observed with phosphatidylcholine with palmitic acid, oleic acid and arachidonic acid at the sn-2 position.

Nuclear Ribosomal DNA as a Probe for Genetic Variability in the Japanese Pear Pathotype of Alternaria alternata.

A restriction fragment length polymorphism analysis of nuclear ribosomal RNA genes (rDNA) was used to measure the amount and distribution of genetic variability in populations of the Japanese pear pathotype of Alternaria alternata on both micro- and macrogeographical scales. A total of 322 isolates were obtained from 13 areas in Aichi, Gifu, and Tottori Prefectures in central and western Japan. The restriction fragment length polymorphism analysis revealed that the pathogen populations contained at least eight rDNA variants. The eight variant types differed in the lengths and in the presence of the restriction sites in spacer DNA outside the coding regions for rRNAs. A total of 271 isolates were classified into the eight types. The remaining 51 isolates were determined to have mixed rDNA types. Single pear fields typically contained two to five types of rDNA variants. The frequencies of rDNA variants in 11 populations in Tottori Prefecture were compared; in this prefecture orchards containing the susceptible pear are common. Except for one collection site, there were no significant differences in the composition of the rDNA variants among the populations. This suggests that dispersal of inocula has occurred frequently in Tottori Prefecture. In contrast, significantly different distributions were observed in the three prefectures, indicating that gene flow between prefectures might be limited by geographical isolation. DNA fingerprints resulting from hybridization with a moderately repetitive DNA sequence of the fungus revealed greater genetic variability and geographical differences in genetic population structure even within the same rDNA type.

Usefulness and rapidity of screening for the toxicity and carcinogenicity of chemicals in medaka, Oryzias latipes.

The toxicity and carcinogenicity of number of chemicals, for which there are toxicity and/or carcinogenicity data in mouse and rat, were tested in medaka, a small aquarium fish (Oryzias latipes). The water-soluble chemicals were dissolved in the water and the water-insoluble chemicals were incorporated into the diet. Observation for 24 wk revealed induction of liver cell carcinoma by 6 chemicals; aflatoxins B1 and G1, sterigmatocystin, ortho-aminoazotoluene, methylazoxymethanol acetate and N-nitrosodiethylamine. In medaka fed PCB or DDT only preneoplastic liver cell nodules were observed. No evident carcinogenicity was found in medaka treated with 2-fluorenylamine, 2-fluorenylacetamide, DL-ethionine, luteoskyrin, ochratoxin A, phenobarbital, 1-(2-tetrahydrofuryl)-5-fluorouracil, sodium benzoate, 2,3,4,5,6-penta-O-acetyl-D-gluconyl isothiocyanate, citrinin and fusarenon X, respectively, although toxic lesions or hyperplastic changes were demonstrated histologically. These results confirm the practical utility and rapidity of the use of medaka for screening carcinogenicity and toxicity of chemicals, since neoplastic or toxic morphological changes develop rapidly following administration of relatively small quantities of test materials.

Control of Terpenoid Metabolism in the Potato Phytophthora infestans Interaction.

Inoculation of tubers with fungi non-pathogenic to potato suppresses glycoalkaloid accumulation and elicits accumulation of norsequi and sesquiterpenoids. Inoculation with compatible races of the pathogen Phytophthora infestans suppresses accumulation of terpenoids. Suppressors and elicitors of terpenoid accumulation were isolated from P. infestans . Specificity in the P. infestans - potato interaction appears controlled by suppressors (17-23 glucose units linked ß1 → 3. ß1 → 6). Ethylene, temperature and aging also markedly influence terpeuoid accumulation.