Acclimation of Plasmopara halstedii (sunflower downy mildew) in relationship with trade-off between virulence and aggressiveness in a local pathogen population

The acclimation in relationship with virulence cost was analysed for seven Plasmopara halstedii (sunflower downy mildew) isolates including five progeny isolates of several races descending from two parental isolates of races 100 and 710. Aggressiveness criteria were analysed in one sunflower inbred line showing a high level of quantitative resistance. Isolates of races 100 and 3xx were characterised with shorter latent period and higher sporulation density than isolates of races 7xx. All isolates showed high percentage infection values and caused a large reduction in seedling size except for one isolate involved in dwarfing. The seven isolates were divided, according to their virulence and aggressiveness, into two main groups as more aggressive isolates of the 100 and 3xx races which do not overcome the sunflower differential host D3, and less aggressive isolates of 7xx races which can overcome D3. Consequently, the 100 and 3xx avirulent races had a virulence cost measured by differences in aggressiveness (from 45.5 to 76.3%) compared to 7xx virulent races carrying unnecessary virulence gene.     

Virulence cost in Plasmopara halstedii (sunflower downy mildew)

Virulence cost (trade-off between virulence and aggressiveness) was studied in seven Plasmopara halstedii (sunflower downy mildew) isolates of races 100, 300, 304, 314, 710, 704 and 714. The seven isolates were divided, according to their virulence and aggressiveness, into two main groups as more aggressive isolates of the 100 and 3xx races that do not overcome the sunflower differential host D3, and less aggressive isolates of 7xx races that can overcome D3. Consequently, the 100 and 3xx avirulent races had a virulence cost measured by differences in aggressiveness (from 58.3 to 78.2%) compared to 7xx virulent races carrying unnecessary virulence gene.     

Relationship between aggressiveness and zoosporangia viability in Plasmopara halstedii (sunflower downy mildew)

Relationship between aggressiveness and zoosporangia viability was studied in seven Plasmopara halstedii (sunflower downy mildew) isolates of races 100, 300, 304, 314, 710, 704 and 714. Aggressiveness criteria including latent period and sporulation density were analysed on sunflower inbred line showing a high level of quantitative resistance. There were significant differences between pathogen isolates for the two aggressiveness criteria. Viability analyses were performed on oval and spheric zoosporangia. The number of zoospores released from oval zoosporangia was significantly higher than those released from spheric ones. The oval zoosporangia for more aggressive isolates of races 100 and 3xx produced more zoospores than the oval ones for less aggressive isolates of races 7xx. There was a significant correlation between aggressiveness criteria and the number of zoospores released from oval zoosporangia and vice versa for zoospores released from spheric ones. It is concluded that the relationship between aggressiveness and oval zoosporangia viability may be established in P. halstedii.     

Pathogenicity and its alternation with both morphological and genetic variation in Plasmopara halstedii (sunflower downy mildew)

Morphological, pathogenic and genetic variation was studied in seven Plasmopara halstedii (sunflower downy mildew) isolates of several races using five singlezoosporangium isolates per pathogen isolate. Aggressiveness criteria were analysed in one sunflower inbred line showing a high level of quantitative resistance. Genetic relationships were detected between the single zoosporangium isolates using 12 expressed sequence tags (EST)-derived markers. Analysis of the five single zoosporangium isolates for P. halstedii isolates showed variability within pathogen isolates for all aggressiveness criteria, but not for all pathogen isolates. Isolates of races 100 and 3xx were characterised with shorter latent period and higher sporulation density than the isolate of races 7xx. All pathogen isolates showed high percentage infection values and caused a large reduction in seedling size except for one isolate involved in dwarfing. There was no relation between zoosporangia form or size and race virulence profiles or aggressiveness criteria. There was no intra-genetic variation for all pathogen isolates, but it was observed an important genetic variation between single zoosporangium isolates of all races. No correlation was detected between pathogenicity traits and EST genotypes.     

Can percentage infection and dwarfing be used to differentiate aggressiveness in Plasmopara halstedii?

Aggressiveness was studied in seven Plasmopara halstedii (sunflower downy mildew) parental isolates of races 100, 300, 304, 314, 704, 710 and 714 using five single zoosporangium isolates per parental isolate. Aggressiveness criteria, including percentage infection and dwarfing (reduction of hypocotyl length), were analysed in one sunflower inbred line showing a high level of quantitative resistance. Analysis of five single zoosporangium isolates of each parental isolate showed variability within parental isolate for the two aggressiveness criteria, but not for all parental isolates for percentage infection and vice versa for the reduction of hypocotyl length. Percentage infection showed high values irrespective of the parental isolate used. However, all the parental isolates caused a large reduction in seedling size except for the isolate of race 314. Although percentage infection and reduction of hypocotyl length could be used to differentiate aggressiveness in P. halstedii, it seems that these criteria played a limited role to define P. halstedii isolates according to their aggressiveness.     

Interaction between sunflower plants and five isolates of Plasmopara halstedii on the level of pathogenicity

The interaction between sunflower plants showing a high level of quantitative resistance and five Plasmopara halstedii (the causal agent of downy mildew) isolates of several races were studied using five single zoosporangium isolates per pathogen isolate. Aggressiveness criteria were analyzed for 25 P. halstedii single zoosporangium isolates. Based on the reaction for the P. halstedii isolates to four sunflower hybrids H1–H4 varying only in their downy mildew resistance genes, there were differences in virulence spectrum in pathogen isolates. Analysis of five single zoosporangium isolates for P. halstedii isolates showed significant variability within pathogen isolate for all aggressiveness criteria but not for all pathogen isolates. The hypothesis explaining the interaction between P. halstedii and its host plant was discussed on the level of pathogenicity.     

Variation in two components of pathogenicity and its relationship with genetic diversity in Plasmopara halstedii (sunflower downy mildew)

The specificity of the two components of pathogenicity: virulence and aggressiveness and its relationship with genetic variability were analysed in a local Plasmopara halstedii (sunflower downy mildew) population. Pathogenic and molecular analyses were carried out on seven isolates including five progeny isolates of five races arising from two parental races 100 and 710. P. halstedii isolates showed significant differences for all aggressiveness criteria and important genetic variations. Three cases of relationship between virulence and aggressiveness for progeny isolates as compared with parental ones were found as positive, negative or uncorrelated. For solving the specificity of these cases, relationship between the two components of pathogenicity among the isolates of three different races localised in the same genetic clade was positive. The hypothesis explaining these cases is discussed.     

Evolution of pathogenicity in Plasmopara halstedii (sunflower downy mildew)

Comprehension of the processes of co-evolution between the pathogen and its host plant is very important, particularly in the case of obligate pathogen as Plasmopara halstedii which cannot develop only on sunflower. The influence of selection pressure exercised by qualitative resistance in sunflower plants on evolution of pathogenicity was analysed in pathogenic populations of P. halstedii. This selection pressure led a new virulence to appear in P. halstedii isolates carrying several levels of aggressiveness. It seems that the qualitative resistance selection pressure plays an important role in the evolution of this pathogen, and these changes on the level of pathogenicity may help to a better adaptation of P. halstedii in the presence of intensive use of qualitative resistance.     

Aggressiveness variation in Plasmopara halstedii and its alternation with non-race-specific resistance in sunflower

Aggressiveness variation and its alternation with non-race specific resistance in sunflower were studied in 19 Plasmopara halstedii isolates belonging to several races. Regarding aggressiveness criteria, percentage infection, latent period, sporulation density and dwarfing, on two sunflower inbred lines showing different levels of non-race specific resistance resistance FU and BT, there were significant differences in aggressiveness for P. halstedii isolates. The index of aggressiveness varied between 9.4 and 31.4. The inbred line BT, rather susceptible in the field, showed a higher percentage infection, a higher sporulation density, a shorter latent period and less reduced hypocotyl length than inbred line FU, which showed a greater resistance in the field. Percentage infection on FU was 1.4% less than BT, latent period on BT was 12.4% less than FU, sporulation density on FU was 22.3% less than BT and reduced hypocotyl length on BT was 15.3% less than FU. Consequently, it seems that the criteria as latent period, sporulation density and reduction of hypocotyl length could be used to measure non-race specific resistance in sunflower to P. halstedii under controlled conditions.     

Different pathotypes of the sunflower downy mildew pathogen Plasmopara halstedii all contain isometric virions†

Eight pathotypes of Plasmopara halstedii were screened to investigate the occurrence of virions and the potential viral influence on the pathogenicity of the sunflower downy mildew pathogen. In 23 of 26 P. halstedii isolates derived from eight countries in Europe, North America and South America, virions were detected by transmission electron microscopy. By contrast, there were no ultrastructural indications of virus‐like particles in eight other related Oomycetes. The virions of representative P. halstedii isolates were morphologically and biochemically characterized and compared among each other. Regardless of their host's pathotypes, the geographical origin of the isolate and the sensitivity towards the fungicide metalaxyl, the viral characters obtained were uniform. The virions were isometric and measured approximately 37 nm in diameter. One polypeptide of c. 36 kDa and two segments of single‐stranded RNA (3.0 and 1.6 kb) were detected. Both viral RNA segments were detected by capillary electrophoresis in the three remaining P. halstedii isolates where virions were undetectable by transmission electron microscopy. Virus‐specific primers for the 1.6 kb‐segment were synthesized and used to determine and compare a partial sequence of the viral coat protein among virions of different P. halstedii pathotypes. In all tested isolates, fragments of 0.7 kb were amplified which were directly sequenced. Sequence variation was insignificant. As both less aggressive and more aggressive P. halstedii isolates contained virions, the presence or absence of virions could not explain the diverse aggressiveness of the downy mildew pathogen towards sunflower. Moreover, the results indicated that pathogenicity of P. halstedii was not related to variation in morphological or biochemical characters of the virions.     

Relationship between virulence and aggressiveness in Plasmopara halstedii (sunflower downy mildew)

Relationship between virulence and aggressiveness was studied in seven Plasmopara halstedii (sunflower downy mildew) pathotypes including five progeny pathotypes of races 300, 304, 314, 704 and 714 arising from two parental pathotypes of races 100 and 710. Aggressiveness criteria including percentage infection, latent period, sporulation density and reduction of hypocotyl length were analysed in one sunflower inbred line showing a high level of quantitative resistance. There were significant differences between P. halstedii pathotypes for all aggressiveness criteria. Pathogenicity of progeny pathotypes as compared with parental ones (relationship between virulence and aggressiveness) seems to be positive, negative or uncorrelated. Hypothesis explaining these cases are discussed.     

Molecular analysis of a major locus for resistance to downy mildew in sunflower with specific PCR-based markers

Resistance of sunflower to the obligate parasite Plasmopara halstedii is conferred by specific dominant genes, denoted Pl. The Pl6 locus confers resistance to all races of P. halstedii except one, and must contain at least 11 tightly linked genes each giving resistance to different downy mildew races. Specific primers were designed and used to amplify 13 markers covering a genetic distance of about 3 cM centred on the Pl6 locus. Cloning and sequence analysis of these 13 markers indicate that Pl6 contains conserved genes belonging to the TIR-NBS-LRR class of plant resistance genes. Received: 9 April 2001 / Accepted: 10 August 2001     

Development of PCR markers for the<Emphasis Type="Italic"> Pl5/Pl8</Emphasis> locus for resistance to<Emphasis Type="Italic"> Plasmopara halstedii</Emphasis> in sunflower,<Emphasis Type="Italic"> Helianthus annuus</Emphasis> L. from complete CC-NBS-LRR sequences

Sunflower downy mildew, caused by Plasmopara halstedii, is one of the major diseases of this crop. Development of elite sunflower lines resistant to different races of this oomycete seems to be the most efficient method to limit downy mildew damage. At least two different gene clusters conferring resistance to different races of P. halstedii have been described. In this work we report the cloning and mapping of two full-length resistance gene analogs (RGA) belonging to the CC-NBC-LRR class of plant resistance genes. The two sequences were then used to develop 14 sequence tagged sites (STS) within the Pl5/Pl8 locus conferring resistance to a wide range of P. halstedii races. These STSs will be useful in marker-assisted selection programs.Communicated by C. Möllers     

Race analysis of Puccinia striiformis f.sp. tritici in Iran

The wheat stripe (yellow) rust is one of the most important diseases in Iran. In this study, 41 races out of 104 isolates in greenhouse were determined from 2008 to 2010. Races 6E6A+, 6E10A+ and 6E0A+ were more common. Races 0E0A+ was less aggressive than races 166E158A+ and 134E158A+ with virulence on 11 known genes. Virulence on plant/s with gene/s Yr1, Yr2, Yr4, Yr6, Yr7, Yr8, Yr9, Yr10, Yr25, Yr27, YrSU, YrSD, YrND, Yr3, Yr2+, Yr6+, Yr9+, Yr7+, YrCV and YrA was detected. The majority of isolates with high frequency (more than 70%) showed virulence on plant/s with Yr2, Yr7, Yr9 and YrA genes. No virulence was detected on plant/s with Yr3, Yr5 and YrSP. In greenhouse test, frequency of virulence to wheat genotypes with Yr1, Yr4, Yr10, YrCV (32+) and YrSD gene was less than 7%. Frequency of virulence to other wheat genotypes was between 8 and 100%.     

Induction of resistance against downy mildew on sunflower by rhizobacteria

Abstract

Induction of resistance to downy mildew caused by Plasmopara halstedii in sunflower was studied after treatment with PGPR (plant growth promoting rhizobacteria) strain INR7 (Bacillus spp). Treatment of sunflower seeds with 1×10⁸cfu/ml of PGPR strain INR7 resulted in decreased disease severity and offered 51 and 54% protection under green house and field conditions, respectively. The induction of resistance to P. halstedii by PGPR strain INR7 was accompanied by the accumulation of various host defense-related enzymes in susceptible sunflower seedlings. Enhanced activation of catalase (CAT), phenylalanine ammonia-lyase (PAL), peroxidase (POX), polyphenol oxidase (PPO) and chitinase (CHI) was evident at 6, 9, 12, 12 and 12h post inoculation, respectively, in sunflower seedlings raised from seeds treated with PGPR strain INR7. This enhanced and early activation of defense-related responses in the susceptible cultivar after treatment with PGPR strain INR7 was comparable to that in the resistant cultivar. The results indicate that PGPR strain INR7 induced resistance against P. halstedii in sunflower is mediated through enhanced expression of defense mechanism.     

New Races of Sunflower Downy Mildew (Plasmopara Halstedii) in Germany

Plasmopara halstedii, the causal agent of downy mildew of cultivated sunflower (Helianthus annuus), was documented in Germany for the first time in commercial fields. The pathogen was first observed in the Württemberg area, where races 1 and 4 were identified using a set of differential lines. Later, commericial fields near Baden were found to be infected by race 5, which is the first occurrence of that race outside of North America. Withthe discovery of race 5, there are now eight races of the sunflower downy mildew fungus that have been found in Europe. The sunflower cultivars most frequently grown in Germany were investigated for resistance to race 1, 4 and 5; while all were resistant to race 1, none were resistant to either race, 4 or 5.     

New Races of Sunflower Downy Mildew (Plasmopara Halstedii) in Germany

Plasmopara halstedii, the causal agent of downy mildew of cultivated sunflower (Helianthus annuus), was documented in Germany for the first time in commercial fields. The pathogen was first observed in the Württemberg area, where races 1 and 4 were identified using a set of differential lines. Later, commercial fields near Baden were found to be infected by race 5, which is the first occurrence of that race outside of North America. With the discovery of race 5, there are now eight races of the sunflower downy mildew fungus that have been found in Europe. The sunflower cultivars most frequently grown in Germany were investigated for resistance to race 1, 4 and 5; while all were resistant to race 1, none were resistant to either race 4 or 5.     

Positional cloning of a candidate gene for resistance to the sunflower downy mildew, Plasmopara halstedii race 300

The resistance of sunflower to Plasmopara halstedii is conferred by major resistance genes denoted Pl. Previous genetic studies indicated that the majority of these genes are clustered on linkage groups 8 and 13. The Pl6 locus is one of the main clusters to have been identified, and confers resistance to several P. halstedii races. In this study, a map-based cloning strategy was implemented using a large segregating F2 population to establish a fine physical map of this cluster. A marker derived from a bacterial artificial chromosome (BAC) clone was found to be very tightly linked to the gene conferring resistance to race 300, and the corresponding BAC clone was sequenced and annotated. It contains several putative genes including three toll-interleukin receptor-nucleotide binding site-leucine rich repeats (TIR-NBS-LRR) genes. However, only one TIR-NBS-LRR appeared to be expressed, and thus constitutes a candidate gene for resistance to P. halstedii race 300.     

Chitinase and peroxidase activities in sunflower hypocotyls: Effects of BTH and inoculation with <Emphasis Type="Italic">Plasmopara halstedii</Emphasis>

Systemic acquired resistance (SAR) can be induced in plants by incompatible pathogens, pathogen derived extracts, or certain chemicals as benzothiadiazole (BTH). The aim of this work was to compare changes in peroxidase and chitinase activities, enzymes considered as PR-proteins, caused by BTH and the pathogen Plasmopara halstedii. Hypocotyls from susceptible and resistant BTH-treated sunflower seedlings showed increased peroxidase and chitinase activities. Inoculation with P. halstedii increased chitinase and peroxidase activities in inoculated hypocotyls from susceptible but not from resistant sunflower seedlings.