Transgenic canola lines expressing pea defense gene DRR206 have resistance to aggressive blackleg isolates and to Rhizoctonia solani

We have previously demonstrated that transgenic Brassica napus plants expressing pea DRR206 constitutively are resistant to the hemibiotrophic blackleg fungus, Leptosphaeria maculans isolate PG2. The present work seeks to determine whether DRR206 is effective against a wider range of fungi. Transgenic plants expressing DRR206 exhibit decreased severity of stem canker in adult plants inoculated with aggressive L. maculans isolates PG3 and PG4. Decreased seedling mortality with the biotrophic root pathogen Rhizoctonia solani is also seen. Finally, leaves of DRR206 transgenic plants inoculated with the necrotroph Sclerotinia sclerotiorum show smaller lesions at 48 h after inoculation, leading to a delay, but not a prevention, of disease development. These results demonstrate the effectiveness of DRR206 against several fungal species with three distinct modes of pathogenicity. Although its precise function remains to be determined, a recent report shows that pea DRR206 shares strong amino acid sequence similarity with `dirigent proteins' which couple monolignol radicals to form the lignan (+) pinoresinol.     

Fabrication of silver nanoparticles by Phoma glomerata and its combined effect against Escherichia coli, Pseudomonas aeruginosa and Staphylococcus aureus

Aims:  We report extracellular synthesis of silver nanoparticles (Ag-NPs) from Phoma glomerata and its efficacy against Escherichia coli , Staphylococcus aureus and Pseudomonas aeruginosa . The bacteria exhibiting resistance to various antibiotics showed remarkable sensitivity, when used in combination of antibiotics and Ag-NPs.
Methods and Results:  Biosynthesis of Ag-NPs was carried out by challenging the fungal cell filtrate with 1 mmol l⁻¹ silver nitrate. The Ag-NPs were characterized with the help of UV–Visible spectrophotometer and Fourier transform infrared spectroscopy. Scanning electron microscopy was carried out to detect the size of Ag-NPs. Evaluation of the combined effect(s) was studied by disc diffusion method against E. coli , Staph. aureus and Ps. aeruginosa .
Conclusions:  The biosynthesis route seems to be eco-friendly and easy to scale up the process. Thus, these Ag-NPs may prove as a better candidate for drugs and can potentially eliminate the problem of chemical agents because of their biogenic nature.
Significance and Impact of the Study:  The bacterial resistance against antibiotics has been increasing with alarming rate. To overcome this problem, there is a pressing need to develop bactericidal agents. Ag-NPs may prove to be an answer to drug-resistant bacteria.     

Camalexin induces detoxification of the phytoalexin brassinin in the plant pathogen Leptosphaeria maculans

The impact of the phytoalexins camalexin and spirobrassinin on brassinin detoxification by Leptosphaeria maculans (Desm.) Ces. et de Not. [asexual stage Phoma lingam (Tode ex Fr.) Desm.], a pathogenic fungus prevalent on crucifers, was investigated. Brassinin is a plant metabolite of great significance due to its dual role both as an effective phytoalexin and as an early biosynthetic precursor of the majority of the phytoalexins produced by plants of the family Brassicaceae (Cruciferae). The rate of detoxification of brassinin in cultures of L. maculans increased substantially in the presence of camalexin, whereas spirobrassinin did not appear to have a detectable effect. In addition, the brassinin detoxifying activity of cell-free extracts obtained from cultures incubated with camalexin was substantially higher than that of control cell-free extracts or cultures incubated with spirobrassinin, and correlated positively with brassinin oxidase activity. The discovery of a potent synthetic modulator of brassinin oxidase activity, 3-phenylindole, and comparison with the commercial fungicide thiabendazole is also reported. The overall results indicate that brassinin oxidase production is induced by camalexin and 3-phenylindole but not by spirobrassinin or thiabendazole. Importantly, our work suggests that introduction of the camalexin pathway into plants that produce brassinin might make these plants more susceptible to L. maculans.     

Evaluation of biological and chemical treatments for control of gummy stem blight on cucumber plants grown hydroponically in greenhouses

Four experiments were conductedto evaluate the efficacy of biological andchemical treatments to control gummy stemblight of cucumber caused by Didymellabryoniae (Auersw.) Rehm under greenhouseconditions. The treatments BASF 516,azoxystrobin, and Prestop® (biological agent)controlled the disease when applied as preventative sprays on lesions caused by D.bryoniae on cucumbers in three experiments.Treatments with the yeast (Rhodosporidiumdiobovatum Newell & Hunter), Quadra 137, andDecree® reduced lesion lengths compared withthe control in one experiment only. Nosignificant differences in lesion lengths wereobserved between RootShield®, calcium nitrate,Quadra 136, SoilGard®, Mycostop®, andinoculated control in three experiments.Azoxystrobin, BASF 516, and Prestop® hadsignificantly less percentage of plants withD. bryoniae infection than treatmentswith yeast, Quadra 137, Quadra 136,RootShield®, SoilGard®, Mycostop®, Decree®,calcium nitrate, and the control. These resultssuggest the potential of BASF 516,azoxystrobin, and Prestop® applied as apreventative treatments to control gummy stemblight on greenhouse cucumbers.     

Influence of resource unit distribution and quality on the activity of soil fungi in a particulate medium

Experiments were set up to assess the relative impacts of grass lamina fragment density, size and quality on the activity and growth of four fungi in a particulate soil-like matrix. The fungi studied were Cladosporium cladosporioides , Fusarium lateritium , Phoma exigua and Trichoderma viride , all of which are common inhabitants of UK upland grassland soils. Resource quality was varied by using three contrasting grasses as sources of lamina fragments: Lolium perenne , Agrostis capillaris and Nardus stricta . All the fungi were able to forage effectively through the soil-like matrix (at a rate of 1–2 ml matrix d⁻¹) and colonize and partially decompose available lamina fragments (up to 40% d. wt loss). Foraging rates (ml matrix d⁻¹) were affected by lamina fragment species but not by fragment density or size. In general, F. lateritium and T. viride foraged at a faster rate than the other species. Mycelial activity in the soil-like matrix was directly proportional to total lamina fragment availability and was unaffected by fragment size. Biomass production on solid media was also directly related to substrate (carbohydrate) availability. The results indicate that these fungi can adjust their growth patterns in response to fragment density so as to maximize foraging efficiency (energy acquired per unit exploratory biomass production). Differences in lamina fragment species were responsible for up to 50% reduction in mycelial activity.     

Fungicidal drenches for control of root rot in subterranean clover

Fungicide drenches of benomyl, metalaxyl, iprodione, propamocarb, or thiram were applied to intact soil cores taken from known root rot affected fields in Western Australia, to control subterranean clover root rot. Metalaxyl was the most effective in reducing seedling damping-off. The most effective fungicide for reducing the level of rotting of both tap and lateral root systems of survixing plants varied from season to season at one site and varied between different sites in any one season with each fungicide giving a significant reduction in root disease on at least one occasion. Results suggest that different individuals or complexes of root pathogens were operative between seasons in any one site, and between sites for any one season. In some instances it appears that different individual root pathogens or pathogen complexes were operative on tap roots compared to lateral roots.     

Ketosynthase Domain Probes Identify Two Subclasses of Fungal Polyketide Synthase Genes

Analysis of fungal polyketide synthase gene sequences suggested that these might be divided into two subclasses, designated WA-type and MSAS-type. Two pairs of degenerate PCR primers (LC1 and LC2c, LC3 and LC5c) were designed for the amplification of ketosynthase domain fragments from fungal PKS genes in each of these subclasses. Both primer pairs were shown to amplify one or more PCR products from the genomes of a range of ascomycetous Deuteromycetes and Southern blot analysis confirmed that the products obtained with each pair of primers emanated from distinct genomic loci. PCR products obtained from Penicillium patulum and Aspergillus parasiticus with the LC1/2c primer pair and from Phoma sp. C2932 with both primer pairs were cloned and sequenced; the deduced protein sequences were highly homologous to the ketosynthase domains of other fungal PKS genes. Genes from which LC1/2c fragments were amplified (WA-type) were shown by a phylogenetic analysis to be closely related to fungal PKS genes involved in pigment and aflatoxin biosynthetic pathways, whereas the gene from which the LC3/5c fragment was amplified (MSAS-type) was shown to be closely related to genes encoding 6-methylsalicylic acid synthase (MSAS). The phylogenetic tree strongly supported the division of fungal PKS genes into two subclasses. The LC-series primers may be useful molecular tools to facilitate the cloning of novel fungal polyketide synthase genes.     

Inoculum sources of Fusarium oxysporum f.sp. asparagi in asparagus production

Fusarium oxysporum f.sp. asparagi (Foa) incites crown and root rot of asparagus which causes early decline of asparagus plantings. The aim of the present study was to identify the main inoculum sources of the pathogen in the Netherlands. As has been reported for foreign seed lots, Dutch seed lots can be infested with Foa at low levels. We found that seed infestation occurs mainly during the seed harvesting process through infested soil adhering to fallen berries. Soil samples from 59 fields without a history of asparagus growing and differing in their distance from asparagus plantings were tested for infestation with Foa, using a bioassay with asparagus as a bait plant. A high correlation was found between the incidence of infestation and proximity to asparagus fields; Foa was found in 69% of the samples from fresh fields in an asparagus production centre, and in only 6% of the samples from fields at a distance of 1 km and more from asparagus fields and outside a production centre. To evaluate planting material as an inoculum source of Foa, 49 lots of one-year-old crowns from 23 nurseries were collected and rated for disease symptoms. Infestation was found to be common with only two lots free of symptomatic plants. Most of the lots had more than 75% of symptomatic plants. Although most of the plants were infested, they showed only slight root rot symptoms. The procedure for production of Foa-free planting material is discussed. Persistence and infestation of asparagus root residues in former asparagus fields was assessed by retrieving the residues from eight former asparagus fields with an asparagus-free period of one to 25 years, and three fields with a standing asparagus crop. Even after an asparagus-free period of 25 yr asparagus root residues were retrieved from soil, although at low levels. Mean population densities of Fusarium spp. declined from 2 times 10⁶ to 1 times 10⁵ colony forming units g^_1 air-dry root tissue during the first 10 years and were still > 10⁴ c.f.u. g“¹ air-dry root tissue 20 to 25 yr after asparagus produced was stopped. The population was dominated by F. oxysporum. Eighty-three of the 112 isolates (74%) of F. oxysporum belonged to the forma specialis asparagi. The proportion of Foa in the population did not decrease in time. It was concluded that persistence of Foa in asparagus root residues is a major reason for its long-term survival.     

Vital staining of plant cell suspension cultures: evaluation of the phytotoxic activity of the phytotoxins phomalide and destruxin B

 A cell suspension culture assay to determine the phytotoxicity of the fungal toxins phomalide, a host-selective toxin produced by the fungus Phoma lingam (Tode ex Fr.) Desm., perfect stage Leptosphaeria maculans (Desm.) Ces. et de Not., and destruxin B, the major host-selective toxin produced by the fungus Alternaria brassicae (Berk.) Sacc., was carried out with three Brassica spp. It was established that phomalide was significantly less phytotoxic to Cutlass (Brassica juncea), the cultivar resistant to L. maculans, than to Westar (B. napus), the cultivar susceptible to L. maculans, at concentrations ≤2×10^–5  M. Similar to phomalide, destruxin B, at concentrations ≤5×10^–5  M, decreased the viability of cells of the cultivar resistant to A. brassicae (Ochre, Sinapis alba) less than the viability of cells of the susceptible cultivar (Westar, B. napus). Considering the high selectivity of phomalide and its direct correlation with plant disease resistance, phomalide may have great potential application in breeding programs screening/selecting for blackleg resistance in brassicas. Received: 23 November 1999 / Revision received: 11 April 2000 / Accepted: 8 May 2000