Identification of potential virulence genes in Erwinia chrysanthemi 3937: transposon insertion into plant-upregulated genes

Erwinia chrysanthemi 3937 is a soft-rotting plant pathogen in Enterobacteriaceae. It attacks a wide range of plant host species. Previously, we identified dozens of E. chrysanthemi 3937 genes induced during plant infection by microarray differential display. Here, we have mutated plant-upregulated and putatively plant-upregulated genes in E. chrysanthemi 3937 using a transposon insertion method. Of 57 mutants produced, 8 were significantly reduced in maceration in African violet leaves. These 8 E. chrysanthemi genes are similar to Escherichia coli purU (formyltetrahydrofolate deformylase; ASAP20623) and wcaJ (undecaprenylphosphate glucosephosphotransferase; ASAP18556), Bacillus subtilis dltA (d-alanine-d-alanyl carrier protein ligase; ASAP19406), Pseudomonas syringae PSPTO2912 (ABC transporter, periplasmic glutamine-binding protein; ASAP15639), Pseudomonas aeruginosa pheC (cyclohexadienyl dehydratase; ASAP19773), P. syringae syrE (peptide synthase; ASAP19989), Vibrio vulnificus VV12303 (unknown protein; ASAP18555), and Yersinia pestis speD (S-adenosylmethionine decarboxylase; ASAP20536). In some of the genes, possible roles in virulence could be postulated based on the functions of their homologues. This work demonstrated that a low proportion of pathogenicity-related genes were among the plant-upregulated genes of E. chrysanthemi 3937. This study and further dissection of these putative virulence genes should lead to new insights into infection mechanisms in pathogens.     

The oligopeptide elicitor Pep-13 induces salicylic acid-dependent and -independent defense reactions in potato

The Phytophthora-derived oligopeptide elicitor, Pep-13, originally identified as an inducer of plant defense in the nonhost–pathogen interaction of parsley and Phytophthora sojae, triggers defense responses in potato. In cultured potato cells, Pep-13 treatment results in an oxidative burst and activation of defense genes. Infiltration of Pep-13 into leaves of potato plants induces the accumulation of hydrogen peroxide, defense gene expression and the accumulation of jasmonic and salicylic acids. Derivatives of Pep-13 show similar elicitor activity in parsley and potato, suggesting a receptor-mediated induction of defense response in potato similar to that observed in parsley. However, unlike in parsley, infiltration of Pep-13 into leaves leads to the development of hypersensitive response-like cell death in potato. Interestingly, Pep-13-induced necrosis formation, hydrogen peroxide formation and accumulation of jasmonic acid, but not activation of a subset of defense genes, is dependent on salicylic acid, as shown by infiltration of Pep-13 into leaves of potato plants unable to accumulate salicylic acid. Thus, in a host plant of Phytophthora infestans, Pep-13 is able to elicit salicylic acid-dependent and -independent defense responses.     

Accumulation of phytoalexins in susceptible and resistant near-isogenic lines of tomato infected with Verticillium albo-atrum or Fusarium oxysporum f.sp. lycopersici

The time course of accumulation of two phytoalexins, the terpenoid rishitin and the polyacetylene cis-tetradeca-6-ene-1,3-diyne-5,8-diol, was determined in near-isogenic susceptible and resistant tomato lines inoculated with either Verticillium albo-atrum or Fusarium oxysporum f.sp. lycopersici.Cultivars containing the Ve gene for verticillium wilt resistance accumulated phytoalexins at a rate similar to that in susceptible plants following stem inoculation with V. albo-atrum. Higher amounts of phytoalexins were isolated from susceptible than from resistant plants at 11 days after inoculation. Inoculum concentrations of 10⁵, 10⁶, 10⁷ and 10⁸ conidia ml⁻¹ had no differential effect on phytoalexin accumulation at 3 days after inoculation. Also, no differences were observed between fungal growth in susceptible and resistant cultivars during that period.A cultivar containing the I-1 gene for fusarium wilt resistance contained more rishitin than did susceptible plants at 2 and 3 days after inoculation with 10⁷ conidia of F. oxysporum f.sp. lycopersici ml⁻¹, but at 7 and 11 days after inoculation more rishitin had accumulated in the susceptible plants.No difference was observed between the rate of accumulation of phytoalexin in stem segments from resistant and susceptible plants inoculated by vacuum-infiltration.To estimate the concentration of phytoalexins in the xylem fluid, sap was expressed from vascular tissue and amounts of phytoalexins were determined in the sap and in the expressed tissue. Less than 5% of the phytoalexins present in stem segments was recovered from the sap, indicating that their concentration in the xylem fluid may be relatively low.The role of phytoalexins in resistance to verticillium and fusarium wilt is discussed.     

The role of the seed tuber in determining partial resistance to potato blackleg caused byErwinia spp.

In 1991 and 1992, 12 potato cultivars were screened at two locations for resistance to blackleg, after vacuum infiltration of the seed withErwinia carotovora subsp.atroseptica orE. chrysanthemi. Cultivar differences for resistance toE.c. subsp.Atroseptica andE. chrysanthemi were found which were consistent over locations and years. Seed tubers of the same cultivars were also screened for resistance to bothErwinia spp. by using a tuber slice inoculation method. Correlation coefficients for comparisons between resistance to blackleg in the field and tuber tissue resistance under aerobic or anaerobic conditions were not significant. This could partly be explained by drastic changes in relative tuber tissue resistance of the cultivars within a 5 weeks period after planting in the field. Presprouting of seed tubers in diffuse daylight had a less pronounced effect on relative tuber tissue resistance than planting in the field. Monitoring the process of mother tuber decay during the growing season of 1993 after vacuum infiltration withE.c. subsp.atroseptica andE. chrysanthemi revealed that cultivars differed in the extent to which these bacteria enhanced the process of mother tuber decay. These differences partly explained the cultivar differences for resistance to blackleg in the field.Abbreviations Eca Erwinia carotovora subsp.atroseptica - Ech Erwinia chrysanthemi - NOP Noordoostpolder - Wag Wageningen     

Antioxidant,ethylene and membrane leakage responses to powdery mildew infection of near-isogenic barley lines with various types of resistance

Leaves of powdery mildew-susceptible barley (Hordeum vulgare cv. Ingrid) and related near-isogenic lines bearing various resistance genes (Mla12, Mlg or mlo5) were inoculated with Blumeria graminis f. sp. hordei race A6. Fungal attack induced several-fold increases in ethylene emission and electrolyte leakage in leaves of susceptible Ingrid beginning 3 days after inoculation. Activities of peroxidase, superoxide dismutase, glutathione S-transferase, ascorbate peroxidase and glutathione reductase enzymes were induced markedly in susceptible leaves 5–7 days after inoculation. Similar, but less pronounced pathogen-induced changes were detected in inoculated leaves of Mla-type resistant plants that show hypersensitive cell death upon inoculation, and, to an even lesser extent, in the Mlg and mlo lines, where no visible symptoms accompanied the incompatible interaction. Glutathione content increased only in susceptible barley 7 days after inoculation. Catalase activity, total ascorbate content and redox state were not influenced by inoculation in any of the genotypes. The activity of dehydroascorbate reductase was significantly reduced 3–5 days after inoculation in the susceptible parental plants and after 5 days in Mla and Mlg lines, while it was stable in the mlo barley. Slightly elevated levels of H₂O₂ were observed in the inoculated resistant plants. In contrast, H₂O₂ content decreased in the susceptible line 7 days after pathogen attack. These data indicate that high levels of antioxidants are involved in the compatible interaction of susceptible barley and powdery mildew by protecting the pathogen from oxidative damage.     

The possibility of factors other than phytoalexin accumulation preventing fungal growth in the incompatible interactions of soybean with Phytophthora megasperma f. sp. glycinea

Soybean ( Glycine max ) cv. Harosoy 63 is resistant to race 1 and susceptible to race 9 of Phytophthora megasperma f. sp. glycinea (Pmg). In detached primary leaves inoculated with zoospores, growth of race 1 was completely suppressed 16 h after inoculation, while race 9 was unaffected. The amount of the phytoalexin glyceollin that accumulated, however, was not significantly different in either the incompatible or compatible interaction 16 h after inoculation. At the circumference of the inoculated area, a slight accumulation of phytoalexin was observed only in the incompatible interaction 20 h or more after inoculation. Tolerance of race 9 to the phytoalexin was significantly higher than that of race 1 when the phytoalexin was added to agar. Moreover, race 9 degraded glyceollin faster than race 1. On leaves inoculated at separate points with either race, the lesion associated with race 9 never colonized areas inoculated with race 1. These results suggest that factor(s) other than the accumulation of phytoalexin in soybean tissue might cause cessation of growth of Pmg.     

The response of different celery genotypes to infection by septoria apiicola

A rapid and useful method of disease assessment, based on a visual key, was developed for leaf spot of celery, caused by Septoria apiicola . Details were provided by an assessment of percentage infection, number and type of lesions per plant and number of pycnidia per lesion. The lesion response was graded from 0 (resistant with no lesions) to 3 (susceptible with grey lesions, leaf chlorosis and numerous pycnidia). Assessments were performed on leaves attached to the plants as well as on detached leaves incubated in sealed Petri dishes, after inoculation with a standard spore suspension. Tests were carried out on currently popular celery varieties, lines of wild celery, hybrids of celery × wild celery and celery × parsley. Lesion response 0 was found on some lines of wild celery, lovage and parsley; response 1 on lines of wild celery; response 2 on hybrid celery × wild celery and on the commercial celery Giant Red; and response 3 on all of the remaining celery varieties tested (Monarch, Fenlander, Tall Utah and Galaxy). Detached leaves from the individual genotypes showed responses in an order similar to that of the attached leaves but the onset of the response in detached leaves was always more rapid, with fewer lesions and pycnidia. Analysis of leaf chlorophyll content from the different sources was made to establish any relationship between chlorophyll and resistance but none was found.     

Susceptibility and resistance of <Emphasis Type="Italic">Beta vulgaris</Emphasis> subsp. <Emphasis Type="Italic">maritima</Emphasis> to foliar rub-inoculation with <Emphasis Type="Italic">Beet necrotic yellow vein virus</Emphasis>

Four lines (designated MR0, MR1, MR2, and M8) from 13 accessions of Beta vulgaris subsp. maritima were selected on the basis of phenotypes produced after foliar rub-inoculation with Beet necrotic yellow vein virus (BNYVV). The susceptible phenotype developed bright yellow local lesions, whereas the resistant phenotype had symptoms ranging from no visible lesions to necrotic lesions at the inoculation site. MR1 and MR2 lines had a resistant phenotype depending on the isolate and the MR0 line was susceptible to all isolates of BNYVV tested. The M8 line was highly susceptible; the virus spread systemically and caused severe stunting. These plant lines will be useful for distinguishing BNYVV isolates having different pathogenicities, especially those controlled by RNA3 and/or RNA5.     

Resistance of wheat to Mycosphaerella graminicola involves early and late peaks of gene expression

Large-scale cDNA-AFLP profiling identified numerous genes with increased expression during the resistance response of wheat to the Septoria tritici blotch fungus, Mycosphaerella graminicola. To test whether these genes were associated with resistance responses, primers were designed for the 14 that were most strongly up-regulated, and their levels of expression were measured at 12 time points from 0 to 27 days after inoculation (DAI) in two resistant and two susceptible cultivars of wheat by real-time quantitative polymerase chain reaction. None of these genes was expressed constitutively in the resistant wheat cultivars. Instead, infection of wheat by M. graminicola induced changes in expression of each gene in both resistant and susceptible cultivars over time. The four genes chitinase, phenylalanine ammonia lyase, pathogenesis-related protein PR-1, and peroxidase were induced from about 10- to 60-fold at early stages (3 h–1 DAI) during the incompatible interactions but were not expressed at later time points. Nine other genes (ATPase, brassinosteroid-6-oxidase, peptidylprolyl isomerase, peroxidase 2, 40S ribosomal protein, ADP-glucose pyrophosphorylase, putative protease inhibitor, methionine sulfoxide reductase, and an RNase S-like protein precursor) had bimodal patterns with both early (1–3 DAI) and late (12–24 DAI) peaks of expression in at least one of the resistant cultivars, but low if any induction in the two susceptible cultivars. The remaining gene (a serine carboxypeptidase) had a trimodal pattern of expression in the resistant cultivar Tadinia. These results indicate that the resistance response of wheat to M. graminicola is not completed during the first 24 h after contact with the pathogen, as thought previously, but instead can extend into the period from 18 to 24 DAI when fungal growth increases dramatically in compatible interactions. Many of these genes have a possible function in signal transduction or possibly as regulatory elements. Expression of the PR-1 gene at 12 h after inoculation was much higher in resistant compared to susceptible recombinant-inbred lines (RILs) segregating for the Stb4 and Stb8 genes for resistance. Therefore, analysis of gene expression could provide a faster method for separating resistant from susceptible lines in research programs. Significant differential expression patterns of the defense-related genes between the resistant and susceptible wheat cultivars and RILs after inoculation with M. graminicola suggest that these genes may play a major role in the resistance mechanisms of wheat.     

Sugar transporter (MfsX) of the major facilitator superfamily is required for flagella-mediated pathogenesis in <Emphasis Type="Italic">Dickeya dadantii</Emphasis> 3937

Dickeya dadantii (syn. Erwinia chrysanthemi) is a causal agent of soft-rot diseases on many crops. Here, we characterized a gene belonging to the major facilitator superfamily (MFS), which is involved in the symport, antiport, or uniport of various substrates, and the survival and virulence of many Gram-negative bacterial animal pathogens, for the possible involvement in the plant pathogenicity of D. dadantii. A marker-exchange mutant of this gene (mfsX) was constructed that had decreased maceration ability in Chinese cabbage, potato, and chicory. Observation with electron microscopy showed greatly reduced numbers of flagella per cell. This mutant had a significant reduction in swimming and swarming motility and a severe reduction in formation of biofilm. Because these phenotypes have been shown to be involved in plant pathogenicity of D. dadantii, mfsX seems to play an important role in pathogenesis of D. dadantii 3937 by its involvement in the expression of these pathogenicity-related phenotypes.     

Characterization of Pectolytic Erwinias as Highly Sophisticated Pathogens of plants

Erwinia carotovora and Erwinia chrysanthemi are the two most important soft rotting bacteria of commercially-grown plants. They are genetically diverse as is evident from polymorphisms in the pel and recA genes as well as in rrn, the ribsomal gene cluster. Subpopulations grouped into biovars, pathovars, or subspecies associated with various hosts and in different geographic regions suggest specialization in host preference and/or survival in diverse environments. Previous characterization of the pectolytic erwinias as opportunistic pathogens is being replaced by a realization that this group of bacteria exhibits a sophisticated repertoire of pathogenicity and virulence genes and regulators. The presence of an entire hrp gene cluster and associated type III secretion system, and global regulators which regulate virulence determinants such as exoenzyme production and motility, attest to a highly specialized pathogen. The fact that production of extracellular plant cell wall-degrading enzymes are coordinately activated by the diffusible signal molecule N-acyl-homoserine lactone in a population density-dependent manner may explain the occurrence of pectolytic erwinia in asymptomatic plant tissues. Transgenic plants expressing bacterial quorum-sensing signal molecules modulate this sensory system and exhibit resistance to soft rot infection. The pectolytic erwinias, being significant plant pathogens that are neither of quarantine concern nor a human health hazard while readily isolated from field sources, make an ideal model for investigating the genetic basis of plant pathogenesis and environmental fitness.     

Formation of phytoalexins within and outside lesions of Botrytis cinerea in French bean leaves

Rapidly spreading lesions and lesions restricted in size developed in primary leaves of French bean (Phaseolus vulgaris) in response to infection byBotrytis cinera isolates BC-1 and BC-5, respectively. These isolates caused similar differential lesions in leaves of cucumber, flax, lettuce and tomato. To determine whether phytoalexin accumulation was correlated with the resistant reaction in bean leaves, accumulation of phytoalexins was examined in necrotic areas of both types of lesions and in their surrounding green tissues. Phaseollin was the predominant phytoalexin, both inside and outside lesions, whereas phaseollidin and sometimes also phaseollinisoflavan were always present in lower concentrations. Phaseollin accumulated earlier and to higher levels within and around lesions of isolate BC-5 than of isolate BC-1. Relatively low concentrations of phaseollin were detected in the more remote green areas, including the petiole, of leaves bearing a spreading lesion. The phaseollin metabolite, 6a-hydroxyphaseollin, was found only inside lesions and in a narrow zone around lesions of both types. The authors consider the possibility that the differing concentrations of phytoalexins in the infected tissues are not a determining factor for the differential interactions betweenB. cinerea and bean leaves, but are rather the result of it.     

Hypersensitive cell death and post-haustorial defence responses arrest the orange rust (Hemileia vastatrix) growth in resistant coffee leaves

The growth of a coffee orange rust fungus (Hemileia vastatrix Berk and Br.) isolate (race II) and the sequence of responses it induced in leaves of resistant Coffea arabica L. and C. congensis Froehner as well as on a susceptible C. arabica were investigated cytologically and biochemically. The percentages of germinated urediospores and of appressoria formed over stomata as well as the fungal growth inside leaf tissues were similar in resistant and susceptible leaves until the 3rd day after the inoculation. In the susceptible leaves, at the majority of the infection sites (70%) the fungus pursued its growth without apparent inhibition while in the resistant leaves the fungus ceased its growth with higher frequency (34% in C. arabica and 54% in C. congensis) after the formation of at least one haustorium. The first signs of incompatibility, detected 2 days after the inoculation, were cytologically expressed by hypersensitive host cell death (HR), host cell wall autofluorescence and haustoria encasement with callose and β-1,4-glucans. Biochemically, two peaks of phenylalanine ammonia-lyase (PAL) activity were detected by 2 and 5 days after the inoculation. The 1st peak coincided with the early accumulation of phenolic compounds and with the beginning of cell death. The 2nd peak could be related to later accumulation of phenols and the lignification of the host cell walls. About 5–7 days after the inoculation, ultrastructural observations revealed the accumulation of a material partially crystallized in the intercellular spaces around the senescent hyphae, next to dead host cells and in close association with the middle lamella that initially labelled for pectins. It also contained polysaccharides and phenolic-like compounds. Cellulose, hemicellulose, extensins, hydroxyproline-rich glycoproteins and proteins were not detected. The hypertrophy of the host cells in the infection area were also observed around 12 days after the inoculation corresponding macroscopically to the reaction flt.In susceptible plants, cell death was also observed 3 days after the inoculation but only in a reduced percentage of infection sites in which the fungus aborted at an early stage. A late haustorium encasement and stimulation of PAL activity were also observed but these delayed host responses did not prevent fungal growth and sporulation.The intercellular material, only observed in the resistant plants, is here reported for the first time and although its role is unknown it might be the result of plant cell death.     

A Single Locus Leads to Resistance of Arabidopsis thaliana to Bacterial Wilt Caused by Ralstonia solanacearum Through a Hypersensitive-like Response

ABSTRACT Strains of Ralstonia solanacearum have been shown to cause bacterial wilt in some, but not all, ecotypes of Arabidopsis thaliana. We demonstrate here that after inoculation of the leaves of resistant ecotype S96 with R. solanacearum strain Ps95 necrosis around the inoculation site rapidly appeared and no further symptoms developed in the plant. Leaves of susceptible ecotype N913 completely wilted 7 days after inoculation with Ps95, and symptoms spread systemically throughout the whole plant within 2 weeks after inoculation. These results suggest that the resistance of Arabidopsis S96 to R. solanacearum is due to a response similar to the hypersensitive response (HR) observed in other plant diseases. Northern blot analysis of the expression of defense-related genes, known to be differentially induced during the HR in Arabidopsis, indicated that pathogenesis-related protein PR-1, glutathione S-transferase (GST1), and Cu, Zn superoxide dismutase (SOD) mRNAs increased significantly in S96 leaves between 3 to 12 h after infiltration with Ps95. The induction of these genes in susceptible ecotype N913 by Ps95 was clearly delayed. Genetic analysis of crosses between resistant ecotype S96 and susceptible ecotype N913 indicated that resistance to Ps95 is due to a single dominant locus.     

Polymerase Chain Reaction Detection of Ustilago hordei in Leaves of Susceptible and Resistant Barley Varieties

ABSTRACT Although Ustilago hordei infects barley seedlings, symptoms of the disease covered smut are not visible until heading. Natural or artificial inoculation usually results in inconsistent infection, even in highly susceptible lines. Thus, breeding for resistance to covered smut is time consuming and difficult. The ribosomal DNA internal transcribed spacer (ITS) regions of U. hordei were sequenced and a primer pair was developed for polymerase chain reaction (PCR). These primers amplified a 574-bp fragment from DNA of Ustilago spp., but did not amplify DNA from barley or other common barley pathogens. DNA extracted from as few as four U. hordei sporidia was detected by this method. U. hordei DNA was amplified from leaf tissue of inoculated susceptible and resistant plants at different stages of plant development in differential varieties. Growth of the fungus in different leaves of an individual plant was variable. Several highly resistant varieties were shown to contain U. hordei DNA in the first three to four leaves, but not in later leaves. Thus, although the fungus can infect many resistant plants, the plants remain symptomless. Detection of U. hordei prior to heading should assist efforts for breeding for resistance and provide clues concerning the mechanisms of resistance employed by different resistance genes.