Cerebroside as an elicitor for induced resistance against the downy mildew pathogen in pearl millet

Innate defence mechanisms in plants can be triggered and enhanced by certain agents, which are referred to as inducers. Inducing resistance against a broad spectrum of pathogens in otherwise susceptible plants is seen as a potentially safer alternative to other methods of chemical control of plant diseases. Cerebrosides, which are glycosphingolipids extracted from various plant pathogens, have been reported as resistance elicitors in the rice‐pathogen system. In the present study, cerebroside elicited resistance against downy mildew disease (caused by Sclerospora graminicola) of pearl millet (Pennisetum glaucum) that was highly significant. The resistance was of systemic nature and the time required for the resistance to build up was from 2 days onwards. There was a significant yield enhancement due to disease suppression by cerebroside treatment. Promising results were obtained in a preliminary field trial.     

Antioxidant metabolism in pearl millet genotypes during compatible and incompatible interaction with downy mildew pathogen

In this study, the ascorbic acid content, lipid peroxidation product, reactive oxygen generation and scavenging enzyme activities were determined in pearl millet [Pennisetum glaucum (L.) R.Br.] leaves. These parameters were analysed at two stages: (i) pre-infection [45 days after sowing (DAS)] and (ii) post-infection [7 days after infection (DAI), i.e. 57 DAS]. Lipid peroxidation product (malondialdehyde content) was recorded higher in compatible interaction at pre-infection stage while it was increased in incompatible interaction at post-infection stage. Resistant genotypes had higher ascorbic acid content at both the stages of analysis. Superoxide dismutase (SOD) activity was higher in susceptible genotypes at pre-infection but after infection it was found to be higher in resistant genotypes. Ascorbate peroxidase, catalase (CAT) and lipoxygenase activities were higher in resistant genotypes at both the stages of analysis. Native PAGE isozyme banding pattern of SOD, CAT, APX and esterase showed some inducible band(s) due to disease infection.     

Seed treatment with aqueous extract of Viscum album induces resistance to pearl millet downy mildew pathogen

Abstract

Downy mildew (Sclerospora graminicola [Sacc.] Schroet.) is a serious agricultural problem for pearl millet (Pennisetum glaucum [L.] R. Br.) grain production under field conditions. Six medicinally important plant species Azadirachta indica, Argemone mexicana, Commiphora caudata, Mentha piperita, Emblica officinalis and Viscum album were evaluated for their efficacy against pearl millet downy mildew. Seeds of pearl millet were treated with different concentrations of aqueous extract of the plants to examine their efficacy in controlling downy mildew. Among the plant extracts tested, V. album treatment was found to be more effective in enhancing seed quality parameters and also in inducing resistance against downy mildew disease. Germination and seedling vigor was improved in seeds treated with V. album extracts over control. Seeds treated with 10% concentration of V. album showed maximum protection against downy mildew disease under greenhouse and field conditions. The downy mildew disease protection varied from 44–70% with different concentrations. Leaf extract of V. album did not inhibit sporulation and zoospore release from sporangia of Sclerospora graminicola, indicating that the disease-controlling effect was attributed to induced resistance. Seed treatment with V. album extract increased pearl millet grain yield considerably. In V. album, treated pearl millet seedlings increased activities of peroxidase, and phenylalanine ammonia-lyase enzyme was detected. FTIR analysis of V. album extracts showed the presence of amides and other aromatic compounds which are antimicrobial compounds involved in plant defense.     

Recognition of lettuce downy mildew effector BLR38 in Lactuca serriola LS102 requires two unlinked loci

Plant-pathogenic oomycetes secrete effector proteins to suppress host immune responses. Resistance proteins may recognize effectors and activate immunity, which is often associated with a hypersensitive response (HR). Transient expression of effectors in plant germplasm and screening for HR has proven to be a powerful tool in the identification of new resistance genes. In this study, 14 effectors from the lettuce downy mildew Bremia lactucae race Bl:24 were screened for HR induction in over 150 lettuce accessions. Three effectors—BLN06, BLR38 and BLR40—were recognized in specific lettuce lines. The recognition of effector BLR38 in Lactuca serriola LS102 did not co-segregate with resistance against race Bl:24, but was linked to resistance against multiple other B. lactucae races. Two unlinked loci are both required for effector recognition and are located near known major resistance clusters. Gene dosage affects the intensity of the BLR38-triggered HR, but is of minor importance for disease resistance.     

Inheritance pattern of downy mildew resistance in advanced generations of sorghum*

In a project aimed to incorporate downy mildew resistance into sorghum hybrid seed parents, we screened F₄ and F₅ families for resistance to the ICRISAT Centre isolate of the pathogen using a greenhouse seedling screening technique. The families originated from a cross of 296B (susceptible) and IS 18757 [(QL-3) resistant]. The F₄s were obtained from agronomic selection in F₂s and F₃s, and the F₅ families from advancing plants identified as resistant in segregating F₄ families. The resistant plants were more than double the number of susceptible plants in the F₄ and almost so in the F₅ suggesting that resistance to downy mildew was dominant. Of the four genetic models examined (a single-locus model and three two-locus models with complementary, inhibitory, and a combination of complementary and inhibitory interactions), the two-locus model with independent segregation and a combination of complementary and inhibitory inter-allelic interaction appeared to be most appropriate in explaining the segregation patterns within and among F₄ and F₅ families. Accordingly, for resistance to P. sorghi, the suggested genotypes for IS 18757 is Pl_aPl_aPl_bPl_b and for 296B is Pl_aPl_aPl_bPl_b.     

Host‐induced gene silencing inhibits the biotrophic pathogen causing downy mildew of lettuce

Host‐induced gene silencing (HIGS) is an RNA interference‐based approach in which small interfering RNAs (siRNAs) are produced in the host plant and subsequently move into the pathogen to silence pathogen genes. As a proof‐of‐concept, we generated stable transgenic lettuce plants expressing siRNAs targeting potentially vital genes of Bremia lactucae, a biotrophic oomycete that causes downy mildew, the most important disease of lettuce worldwide. Transgenic plants, expressing inverted repeats of fragments of either the Highly Abundant Message #34 (HAM34) or Cellulose Synthase (CES1) genes of B. lactucae, specifically suppressed expression of these genes, resulting in greatly reduced growth and inhibition of sporulation of B. lactucae. This demonstrates that HIGS can provide effective control of B. lactucae in lettuce; such control does not rely on ephemeral resistance conferred by major resistance genes and therefore offers new opportunities for durable control of diverse diseases in numerous crops.     

Characterisation of pathogenic and molecular diversity in Sclerospora graminicola,the causal agent of pearl millet downy mildew

Genotypic diversity among 46 isolates of Sclerospora graminicola collected from seven states in India during 1992–2005 was determined through pathotyping and AFLP analysis. A high level of variation was observed among the isolates for downy mildew incidence, latent period and virulence index. Based on the reaction on a set of nine pearl millet lines, 46 isolates were classified in 21 pathotypes. Quantitative differences in virulence levels of the test isolates were assessed by calculating the virulence index (disease incidence × latent period ^? 1). A dendrogram generated by the average linkage cluster analysis of virulence index clustered the 46 isolates into eight groups. Region-specific grouping of five isolates from Gujarat and six from Rajasthan was observed within two distinct groups. Temporal variation was also observed among the isolates collected from the same location and same host over the years. A total of 297 bands were scored following selective amplification with three primer combinations E-TT/M-CAG, E-AT/M-CAG and E-TG/M-CAT and all of them were polymorphic. Cluster analysis of AFLP data clustered the test isolates into seven groups. Analysis of molecular variance indicated that variation in the S. graminicola populations was largely due to differences among the isolates within the states.     

Enhancement of downy mildew of sorghum by some organic soil amendments: a caution to organic farmers

Matured botanical compost of Croton sparsiflorus and Azadirachta indica were evaluated for promotion of sorghum downy mildew at the rate of 0.5% (w/w). Exceptionally high promotional rates of 26.9% (C. sparsiflorus) and 30.1% (A. indica) were observed as compared to negative control (8.8%). The enhancement of disease was higher than that obtained by the supply of recommended dose of urea (13.3%). As the pathogen (Peronosclerospora sorghi) is a biotroph and cannot multiply by using organics as nutrient source in the absence of a host, the mechanism of disease enhancement is inferred to be through stimulation of oospore germination by organic compounds.     

虎尾兰水提取物对黄瓜霜霉病的防治研究

明确虎尾兰水提取物对黄瓜霜霉病菌无性阶段的抑制作用及对黄瓜霜霉病的防治效果。采用凹玻片法和离体叶五点接种法分别测定该提取物对游动孢子的释放和游动、休止孢的萌发和芽管伸长以及菌丝生长和孢子囊产生的抑制作用,采用离体叶五点接种法测定该提取物的保护作用、治疗作用和持效期,并采用盆栽试验测定该提取物的保护作用和治疗作用。一系列试验结果显示,虎尾兰水提取物对黄瓜霜霉病菌游动孢子的释放和游动,休止孢的萌发和芽管伸长以及菌丝生长和孢子囊产生的EC₅₀值分别为1.19、0.77、0.70、2.13、9.09和13.15 mg/mL。在离体叶片条件下,虎尾兰水提取物对黄瓜霜霉病的保护和治疗作用的EC₅₀值分别为3.69 和14.57 mg/mL,持效期达14 d以上。盆栽条件下,该提取物对黄瓜霜霉病保护作用和治疗作用的防效分别为68.38%和21.33%。虎尾兰水提取物对黄瓜霜霉病具有很好的保护作用和较长的持效期。     

Exploiting medicinal plants and phylloplane microflora for the management of grapevine downy mildew

Abstract

Grapevine downy mildew is the most devastating disease throughout the world causing huge monetary losses. Twenty medicinal plant extracts and six phylloplane microfloras were evaluated for their efficacy against sporangial germination of grapevine downy mildew pathogen Plasmopara viticola in vitro. The results revealed that the Neem Seed Kernel Extract (NSKE) at 5% significantly inhibited the sporangial germination (75.36%) of P. viticola. Among the phylloplane microflora Pseudomonas fluorescens was highly effective in reducing the sporangial germination (64.26%). Post inoculation spraying of NSKE (5%) and P. fluorescens (0.2%) effectively inhibited the disease development in the greenhouse. Three sprays with NSKE (5%) and phylloplane P. fluorescens (0.2%): first spray after initial appearance of disease and the second and third at 10 day intervals were found to be promising in reducing disease incidence in the field.     

Haplotyping and mapping a large cluster of downy mildew resistance gene candidates in sunflower using multilocus intron fragment length polymorphisms

Downy mildew (Plasmopara halstedii (Farl.) Berlese et de Toni) is a serious foliar pathogen of cultivated sunflower (Helianthus annuus L.). Genetic resistance is conditioned by several linked downy mildew resistance gene specificities in the HaRGC1 cluster of TIR-NBS-LRR resistance gene candidates (RGCs) on linkage group 8. The complexity and diversity of the HaRGC1 cluster was assessed by multilocus intron fragment length polymorphism (IFLP) genotyping using a single pair of primers flanking a hypervariable intron located between the TIR and NBS domains. Two to 23 bands were amplified per germplasm accession. The size of the included intron ranged from 89 to 858 nucleotides. Forty-eight unique markers were distinguished among 24 elite inbred lines, six partially isogenic inbred lines, nine open-pollinated populations, four Native American land races, and 20 wild H. annuus populations. Nine haplotypes (based on 24 RGCs) were identified among elite inbred lines and were correlated with known downy mildew resistance specificities. Sixteen out of 39 RGCs identified in wild H. annuus populations were not observed in elite germplasm. Five partially isogenic downy mildew resistant lines developed from wild H. annuus and H. praecox donors carried eight RGCs not found in other elite inbred lines. Twenty-four HaRGC1 loci were mapped to a 2-4 cM segment of linkage group 8. The multilocus IFLP marker and duplicated, hypervariable microsatellite markers tightly linked to the HaRGC1 cluster are powerful tools for distinguishing downy mildew resistance gene specificities and identifying and introgressing new downy mildew resistance gene specificities from wild sunflowers.     

与大白菜霜霉病抗性主效QTL连锁的分子标记开发

霜霉病是危害大白菜的三大病害之一,该病的发生会严重影响大白菜的产量及品质,因而研究与霜霉病抗性QTL紧密连锁的分子标记对大白菜抗病新品种培育具有重要意义。该研究在前期工作的基础上,选用高感霜霉病株系91-112、高抗霜霉病株系T12-19以及由二者为双亲构建的DH群体为实验材料,针对大白菜霜霉病抗性主效QTL——BrDW所在的标记区间,利用已有的大白菜基因组信息发展与抗性QTL紧密连锁的分子标记,通过Blast和IMap分析,将与BrDW连锁的RAPD标记K14-1030定位于大白菜KBrB058M10上(位于Contig214上),根据KBrB058M10附近的BAC及BAC-end序列设计引物,结合限制性内切酶酶切及HRM分析方法,筛选得到5个与BrDW连锁的分子标记,包括1个Indel标记Brb062-Indel230,3个CAPS标记Brb094-DraⅠ787、Brb094-AatⅡ666和Brb043-BglⅡ715,1个SNP标记Brh019-SNP137;同时,通过筛选与目标区域具有同源性的Unigene序列得到了1个与BrDW紧密连锁的SSR标记bru1209。标记Brb062-Indel230、Brb094-DraⅠ787、Brb094-AatⅡ666、Brb043-BglⅡ715、Brh019-SNP137和bru1209与RAPD标记K14-1030之间的遗传距离分别为4.3 cM、1.7 cM、5.9 cM、5.9 cM、4.6 cM和0.8 cM,在对DH群体中的抗性株系选择上准确率分别为69.7%、70.9%、72.4%、72.4%、58.3%和74.2%,可应用于分子标记辅助选择,为霜霉病抗性分子育种奠定了良好基础。     

Pearl millet downy mildew as affected by seed dressing and cultivar in the Sahel and Sudan savanna of Nigeria

Field trials in which seed dressing with Apron Star 42 WS (metalaxyl-M) was tested on five pearl millet cultivars were laid at Gashua (Sahel) and Maiduguri (Sudan Savanna) for three wet seasons (1998–2000). Using the split-plot design, seed dressing and cultivars were tested in main- and sub-plots, respectively. Results showed that at each location and season, there was significantly high seedling emergence and grain yield but lower downy mildew incidence as a result of seed dressing with metalaxyl-M compared with check. Among the cultivars tested, SOSAT C-88 had significantly lower downy mildew incidence and the highest grain yield during the three seasons. Dressed with metalaxyl-M, other cultivars had lower downy mildew and higher grain yield than undressed check. It is therefore important that pearl millet should be dressed with metalaxyl as routine practice before cultivation in the arid area of Nigeria.     

An efficient technique to obtain conidial inoculum of Peronosclerospora sorghi causing downy mildew of sorghum

An effective and simple technique to obtain conidial inoculum of Peronosclerospora sorghi has been devised, which confers many advantages over the conventional method. Systemically infected sorghum leaves were packed into folds of paper-towel. The end of folded paper-towel containing cut-ends of leaves was dipped in 3?cm deep water in a container. The container was exposed to moist field conditions at night and sporulated leaves were harvested with chilled distilled water in the morning to obtain the inoculum. Advantages of the technique include lower cost and effort, rapid harvesting and daily production of inoculum for up to seven consecutive days from same leaves. Though conventional method of plating leaf pieces in Petri plates proves superior in terms of the amount of sporulation, paper-towel method has the edge under working conditions.     

The efficacy of spraying programmes and treatment methods against downy mildew in two grapevine cultivars in Kosovo

The present study aimed to assess the efficacy of applied programmes and treatment methods against downy mildew (Plasmopara viticola). Two vine cultivars (Frankovka and Game) were tested in an experimental field (in Rahovec, Kosovo) for a two-year period (2010–2011). The fungicides used were Quadris (azoxystrobin), Antracol EP-70 (propineb), Dithan M-45 (mancozeb), Ridomil (metalaxyl), Curzate (cymoxanil), Bordeaux mixture (calcium hydroxide and copper sulphate) and Mikal (fosetyl-aluminium) applied three treatment methods. The evaluation of the disease severity was performed using the McKinney index. In both tested cultivars and in both treatment years (2010 and 2011), all of the programmes tested significantly reduced the severity of grape downy mildew compared to the control. The highest efficacy against grape downy mildew was achieved with the combined use of Ridomil and Dithan (programme 3); this treatment was more than 80% effective in both cultivars and in both years.     

Comparative evaluation of Pseudomonas fluorescens and their lipopolysaccharides as implicated in induction of resistance against pearl millet downy mildew

Two plant growth promoting Pseudomonas fluorescens isolates namely UOM SAR 14 and UOM SAR 80 most effectively induced resistance against downy mildew disease of pearl millet both under greenhouse and field conditions. Relative assessment of live cultures of P. fluorescens UOM SAR 14 and UOM SAR 80 and their lipopolysaccharides (LPS) extracted from their cell walls were evaluated for their ability to induce resistance against pearl millet downy mildew. Treatment with P. fluorescens and their LPS enhanced the seed germination and seedling vigour considerably. Although both live cultures and their LPS treatment induced resistance in pearl millet against downy mildew disease both under greenhouse and field conditions as evidenced by the significant reduction of the disease, live cultures were more effective than the LPS in level of resistance induced. Live cultures of UOM SAR 14 and UOM SAR 80 induced 66% and 57% protection while their respective LPS extracts offered 59 and 53% protection against downy mildew disease under greenhouse conditions. Similarly, under field conditions with very heavy inoculum pressure live cultures offered 75% and 70%, and their LPS offered 71% and 67% protection, respectively. In either case, the time gap required for the building up of resistance was found to be 3 days and nature of the resistance induced was systemic and durable with both live cultures and their lipopolysaccharides. It was also noticed that the live bacteria significantly varied in the degree of protection offered and so also their respective LPS.     

Surfactin and fengycin contribute to the protection of a Bacillus subtilis strain against grape downy mildew by both direct effect and defence stimulation

Bacillus subtilis GLB191 (hereafter GLB191) is an efficient biological control agent against the biotrophic oomycete Plasmopara viticola, the causal agent of grapevine downy mildew. In this study, we show that GLB191 supernatant is also highly active against downy mildew and that the activity results from both direct effect against the pathogen and stimulation of the plant defences (induction of defence gene expression and callose production). High-performance thin-layer chromatography analysis revealed the presence of the cyclic lipopeptides fengycin and surfactin in the supernatant. Mutants affected in the production of fengycin and/or surfactin were thus obtained and allowed us to show that both surfactin and fengycin contribute to the double activity of GLB191 supernatant against downy mildew. Altogether, this study suggests that GLB191 supernatant could be used as a new biocontrol product against grapevine downy mildew.