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1.
《Physiological and Molecular Plant Pathology》1999,54(3-4):63-72
Simultaneous inoculation with races 1 and 2 of the vascular wilt pathogenFusarium oxysporumf.sp.lycopersiciprovided a high level of protection against race 2 in three tomato cultivars carrying resistance geneI, which confers resistance to race 1 but not race 2. However, simultaneous inoculation did not provide any protection in cultivars lacking this gene. Protection resulted in reduction and delay of wilt symptoms. Similarly, avirulent races ofF. oxysporumf.sp.melonisprotected muskmelon plants against virulent races of the sameforma specialis.A ratio 10:1 between spore concentrations of inducer and challenger organism gave the highest cross protection, but ratio 0.1:1 still provided significant disease reduction. Cross protection was also obtained when inoculation with the inducer organism was performed 6 or 12 h before inoculation with the challenger organism. Autoclaved spores of the inducer did not have any protective effect, indicating that living propagules were required to initiate protection. The results suggest the presence of a gene-for-gene interaction betweenF. oxysporumf.sp.lycopersici-tomato andF. oxysporumf.sp.melonis-muskmelon, in which cross protection against a virulent race is mediated by recognition of a specific elicitor from the avirulent race by the plant resistance gene product and by subsequent induction of the plant defense reaction. 相似文献
2.
Nurun Nahar Khanam Junichi Kihara Yuichi Honda Toshihide Tsukamoto Sakae Arase 《Journal of General Plant Pathology》2005,71(4):285-288
When detached broad bean leaves were preinoculated with virulent strain B304 of Botrytis cinerea 24 h before a challenge inoculation with strain B304, lesion formation by B304 was significantly inhibited in red light but not in the dark. In leaves that were preinoculated with avirulent strain 021 and then challenged by B304, however, lesion formation was not inhibited even under red light. Such differences in lesion formation after the challenge inoculation with an avirulent strain were also observed with lesions caused by Alternaria alternata, a nonpathogen of broad bean and by avirulent strain 021R in the presence of germination fluid from spores of strains B304 and 021R. These results suggest the possibility that virulent B. cinerea produced a suppressor involved in induced susceptibility and an elicitor involved in resistance induced by red light during spore germination. 相似文献
3.
Resistance to powdery mildew was induced in barley by preinoculation with virulent and avirulent races of barley powdery mildew ( Erysiphe graminis f.sp. hordei ), and with a race of wheat powdery mildew ( E. graminis f.sp. tritici ). Four inducer densities were tested in 13 different induction periods between 1 and 24 h. Generally, the resistance induced by barley powdery mildew increased up to 10-12 h of induction and was maintained in longer induction periods. The inducing abilities of virulent and avirulent races could not be distinguished up to 10-12 h of induction, after which the inducing ability of avirulent races increased significantly in relation to virulent races. Wheat powdery mildew was able to induce more resistance than barley powdery mildew in induction periods up to 8 h. In a single inoculation procedure the number of haustoria developing from virulent barley powdery mildew decreased as inoculum density increased. The effect was ascribed to induction of resistance. This reduction of infection efficiency in the compatible interaction was compared to induced resistance. However, the inoculum density needed for 50% resistance induction in the double inoculation procedure was approximately 40 times higher than the inoculum density needed for 50% reduction in infection efficiency in the single inoculation procedure. 相似文献
4.
Infection of barley by an avirulent isolate of Erysiphe graminis f.sp. hordei reduces the development of powdery mildew disease by a virulent isolate, inoculated subsequently. This phenomenon, known as induced resistance, was studied in three sets of near-isogenic lines of barley, each of which included varieties with four different race-specific resistance genes. The extent of induced resistance, expressed as a reduction in the number of colonies formed, differed in lines carrying different race-specific resistance genes, being most effective in lines with Mla7 , followed by Mth , then Mla6 and Mla13. These differences may be related to the extent of the hypersensitive response to infection by avirulent spores. A further effect of induced resistance in reducing sporulation, taking the number of colonies into account, was least effective in Mth lines, with the other lines ranking as they did when induced resistance was expressed as colony numbers. By contrast, the genetic backgrounds of the three near-isogenic sets had similar effects on the fractional reduction of colony number by induced resistance. The effect of induced resistance on sporulation was strongest in the most resistant background, and weakest in the most susceptible. 相似文献
5.
Host mixture efficacy in disease control: effects of lesion growth analyzed through computer-simulated epidemics 总被引:2,自引:1,他引:1
Lesion growth varies among foliar parasites and in order to study the effect of lesion growth on the efficacy of host mixtures to control epidemics, we altered the epidemic simulator Epimul by integrating a lesion growth function into the model. A theoretical study was performed by simulating epidemics caused by parasites with different lesion growth rates, spore dispersal gradients and multiplication rates. We found that increases in lesion growth rates resulted in large decreases in the effectiveness of mixtures for disease control and interacted strongly with parasite multiplication rate and spore dispersal gradient. The decline in mixture efficacy for epidemics with high lesion growth rates was reduced when parasite multiplication rate was higher and spore dispersal gradient steeper. Our results suggested that the lower number of infections on susceptible plants in the mixture as a result of inoculum loss on resistant hosts was partially compensated by lesion growth. 相似文献
6.
Host-mediated interactions between pathogen genotypes 总被引:6,自引:4,他引:2
Barley c ltivars with different resistance genes were inoculated with various sequences of virulent and non-virulent isolates of Erysiphe graminis f.sp. hordei. The resistance induced in incompatible reactions decreased infection by virulent isolates while, conversely, the degree of susceptibility induced in compatible reactions was sufficient to increase the ability of normally non-virulent isolates to infect a resistant host. The net effect of interactions was always overall reduction of conidial production when compared with inoculation of a virulent isolate alone.
Each interaction between isolates was dependent on the host cultivar, the pathogen isolates used and on the inoculation sequence. Often, induced resistance was most obvious when a nonvirulent isolate was inoculated prior to a virulent isolate. Induced susceptibility was usually more apparent when the virulent isolate was inoculated first. However, on the cultivar Wing, induced susceptibility was more apparent following prior inoculation of a non-virulent isolate. On the cultivar Hassan, prior inoculation with a virulent isolate sometimes induced susceptibility, but in some cases more susceptibility was induced by prior inoculation with a non-virulent isolate. In the latter instances, although relatively little infection developed, the majority of the spores produced were those of the normally non-virulent isolate.
There was some evidence of non-virulent isolates acquiring the ability to infect normally incompatible hosts. This effect disappeared after several generations in the absence of the virulent isolate. 相似文献
Each interaction between isolates was dependent on the host cultivar, the pathogen isolates used and on the inoculation sequence. Often, induced resistance was most obvious when a nonvirulent isolate was inoculated prior to a virulent isolate. Induced susceptibility was usually more apparent when the virulent isolate was inoculated first. However, on the cultivar Wing, induced susceptibility was more apparent following prior inoculation of a non-virulent isolate. On the cultivar Hassan, prior inoculation with a virulent isolate sometimes induced susceptibility, but in some cases more susceptibility was induced by prior inoculation with a non-virulent isolate. In the latter instances, although relatively little infection developed, the majority of the spores produced were those of the normally non-virulent isolate.
There was some evidence of non-virulent isolates acquiring the ability to infect normally incompatible hosts. This effect disappeared after several generations in the absence of the virulent isolate. 相似文献
7.
Lannou C 《Phytopathology》2001,91(5):500-510
ABSTRACT A model was developed and used to study the consequences of diversity for aggressiveness within pathotypes on pathogen evolution in two-component and four-component cultivar mixtures. It was assumed that, within a pathotype, a proportion of the isolates would have higher or lower spore efficacy than the average on a given host genetic background. Two situations were examined in which the pathogen can have either independent or negatively correlated values for spore efficacy on different cultivars. In the latter case, a pathogen genotype more aggressive than the average on a host genotype was always less aggressive on other host genotypes. In the simulations, isolates with greater aggressiveness relative to a host genotype were selected for and increased in frequency. However, because simple pathotypes always reproduced on the same host genotype whereas complex pathotypes were able to grow on several hosts, selection was faster for simple pathotypes. Pathotypes with two different levels of diversity for aggressiveness were compared with nondiversified pathotypes. In order to make comparisons, the effect of a 5 and 10% cost of virulence on the development of complex pathotypes was simulated. In general, increased diversity within pathotypes reduced the rate of increase of complex pathotypes in host mixtures, and this effect was stronger with greater frequencies of autodeposition of pathogen spores. 相似文献
8.
Many race-specific resistance genes to potato late blight are overcome in France, but the disease appears later on genotypes carrying the R2 gene. This study examined whether R2 could contribute to durable late-blight control in France, and analysed the conditions of its performance. Plants grown from tubers of different physiological ages showed no difference in R2 expression in field and climate-chamber experiments, demonstrating that the delay in epidemic onset provided by R2 was not the result of gene inactivation in old plants. Among isolates collected at one site, those virulent on R2 were classified into three AFLP profiles. AFLP-VII comprised exclusively isolates virulent to R2 , whereas AFLP-IV and AFLP-V included both virulent and avirulent isolates. No significant aggressiveness differences were observed between virulent and avirulent isolates from AFLP-V; however, isolates from AFLP-VII were significantly less aggressive than virulent isolates from AFLP-V. These results indicate that: (i) the delayed onset of epidemics on R2 cultivars is the result of the breakdown of R2 by virulent isolates; (ii) aggressiveness of isolates virulent to R2 depends primarily on the genetic background of the pathogen where the mutation to virulence occurs; and (iii) this mutation does not lead per se to lower pathogenic fitness. It is suggested that R2 is unlikely to make a lasting contribution to late-blight control in France, and that diversification strategies such as cultivar mixtures might not considerably increase its durability. 相似文献
9.
Vishwanath S.J. Kolte M.P. Singh R.P. Awasthi 《European journal of plant pathology / European Foundation for Plant Pathology》1999,105(2):217-220
Resistance in susceptible mustard cv. PR-15 against the highly virulent A. brassicae isolate A (AbA) and moderately virulent isolate C (AbC) was induced using an avirulent Alternaria brassicae isolate D (AbD). The induction of resistance due to AbD against AbA or AbC resulted in significant reduction in disease severity. The A. alternata (Aa) failed to induce resistance against AbA and AbC, on the contrary it induced susceptibility against them. 相似文献
10.
ABSTRACT An infection-inhibiting factor (IIF) was isolated from strawberry leaves and identified as (+)-catechin. This compound inhibited the formation of infection hyphae from appressoria of Alternaria alternata, but allowed both spore germination and appressorial formation. It is a normal component of strawberry leaves, but further accumulates as the major IIF in response to inoculation with nonpathogenic spores of A. alternata. The accumulation of (+)-catechin on a susceptible host was not induced, however, by inoculation with pathogenic spores of the strawberry pathotype or by inoculation with nonpathogenic spores supplemented with host-specific toxin (AF-toxin I). These results imply that (+)-catechin acts as a protective agent during induced resistance and that AF-toxin I acts as a fungal suppressor of induced resistance. 相似文献
11.
Taketo Ashizawa Kaoru Zenbayashi Ryoichi Sonoda 《Journal of General Plant Pathology》2005,71(5):345-350
Eight near-isogenic Sasanishiki rice lines with different genes for complete resistance to rice blast were inoculated with an avirulent isolate 72 h before inoculation with a virulent isolate of Pyricularia grisea to clarify the mechanisms of induced resistance in the leaf blades. Subsequent lesions on the leaf blades were classified as brown spots (b type), as observed on Sasanishiki BL no. 8 with resistance gene Pii, or no symptoms (HR type), as observed on Sasanishiki BL no. 4 with the gene Piz-t and on the six other lines. Lesion expansion was significantly reduced in Sasanishiki BL no. 8 compared with that in Sasanishiki BL no. 4 when the leaf blades were preinoculated with a high concentration of a conidial suspension of the avirulent isolate. Moreover, after preinoculation with the conidial suspension of the avirulent isolate in silicon rings on the leaf blades, induced resistance was expressed only in areas close to the inoculation sites. These resistant areas were larger in Sasanishiki BL no. 8 than in BL no. 4. Hyphal growth was markedly inhibited in the epidermal cells of Sasanishiki BL no. 8, whereas inhibition was weak in those of Sasanishiki BL no. 4. In the epidermal cells of leaf blades of Sasanishiki BL no. 8 preinoculated with the avirulent isolate, the frequency of hyphal penetration of the virulent isolate in the presence of host cell browning decreased, as did the frequency of invading hyphae after inoculation with virulent isolates. The results indicate that induced resistance may play a role in the suppression of lesion development in the Sasanishiki near-isogenic lines and that the lines differ in the extent of suppression. 相似文献
12.
A model is proposed of mechanisms which might affect the progress of Erysiphe graminis f. sp. hordei in mixtures of barley varieties. Results obtained from two field trials indicate that the efffect of mixtures may be panitioned into three categoriesof the influence of the reduced density of the susceptible plants, the barrier effect of the resistant plants, and the induced resistance due to the non-virulent pathogen biotypes. In the early stages of plant growth the lower density of susceptible plants accounted for most of the reduction in pathogen development in mixtures. As the epidemic progressed, the barrier and induced resistance effects increased in importance and the total mixture effect was at a maximum mid-way through epidemic development. Towards the end of the trials the overall mixture effect declined though the influence of induced resistance was at its maximum. The reasons for these changes and their implications for the use of host varietal mixtures in disease control are discussed.
Mixtures also protected the crop against a pathogen other than the target organism. 相似文献
Mixtures also protected the crop against a pathogen other than the target organism. 相似文献
13.
This study quantifies the frequency of simple and complex races (races that can infect two or more components) of Puccinia striiformis in mixtures of wheat cultivars possessing different race-specific resistance genes. Treatments were designed so that the complex race changed depending on the host mixture, thus enabling us to observe the influence of pathogen complexity in different genetic backgrounds. Six cultivar mixtures and one pure stand of winter wheat were inoculated with three races of P. striiformis at two locations for two seasons. Potted plants of three winter wheat cultivars, each susceptible to one of the three races of the pathogen, were used to sample the pathogen during the field epidemics. Disease incidence on the differential cultivars was used to calculate the proportion of the three races in each treatment. The specific cultivars included in the mixtures influenced the frequencies of the three races. Increasing the number of virulent races in a mixture reduced the frequency of the complex race relative to the other two races. The results suggest that genetic background of the pathogen race, host composition, and interaction among pathogen races may be as important as cost of virulence in determining race frequencies in mixtures. 相似文献
14.
ABSTRACT A spatiotemporal/integro-difference equation model was developed and utilized to study the progress of epidemics in spatially heterogeneous mixtures of susceptible and resistant host plants. The effects of different scales and patterns of host genotypes on the development of focal and general epidemics were investigated using potato late blight as a case study. Two different radial Laplace kernels and a two-dimensional Gaussian kernel were used for modeling the dispersal of spores. An analytical expression for the apparent infection rate, r, in general epidemics was tested by comparison with dynamic simulations. A genotype connectivity parameter, q, was introduced into the formula for r. This parameter quantifies the probability of pathogen inoculum produced on a certain host genotype unit reaching the same or another unit of the same genotype. The analytical expression for the apparent infection rate provided accurate predictions of realized r in the simulations of general epidemics. The relationship between r and the radial velocity of focus expansion, c, in focal epidemics, was linear in accordance with theory for homogeneous genotype mixtures. The findings suggest that genotype mixtures that are effective in reducing general epidemics of Phytophthora infestans will likewise curtail focal epidemics and vice versa. 相似文献
15.
Changes in phenylalanine ammonia-lyase and peroxidase activities in wheat cultivars expressing resistance to the leaf-rust fungus 总被引:6,自引:0,他引:6
Phenylalanine ammonia-lyase (PAL) and peroxidase activities increased slightly during pre-haustorial stages of development of the leaf-rust fungus ( Puccinia recondita f. sp. tritici ) in each combination of rust strain and wheat line used. Activity of both enzymes greatly increased during the formation of the first haustoria by avirulent and virulent strains in an Lr28-bearing line but not in an Lr20 -bearing line. PAL increased markedly in activity at the time when an avirulent strain was known to cause hypersensitivity in the Lr28 -bearing line and when another avirulent strain was known to cause cellular changes that preceded the expression of resistance in the Lr20 -bearing line. PAL increased less markedly and not at all at corresponding times when virulent strains developed in the Lr28 and Lr20 lines, respectively. Increases in peroxidase activity occurred after the increases in PAL activity and were greater during resistance expression than in leaves infected with virulent strains. Cytochemical tests revealed enhancements of peroxidase activity in epidermal and guard cells in response to avirulent and virulent strains and in mesophyll cells that were becoming necrotic in response to avirulent strains only. The implications of the changes are that aromatic and phenylpropanoid synthesis and peroxidations may be enhanced in wheat by infection and particularly during resistance expression. The products of these processes may play roles in both Lr28- and Lr20 -based expression of resistance. 相似文献
16.
青枯菌(Pseudomonas solanacearum)在番茄抗、感病品种根部的吸附、侵入和繁殖 总被引:7,自引:0,他引:7
采用不同的方法接种和利用扫描、透射电镜观察,研究不同致病力的青枯菌对番茄抗病及感病品种根部的吸附、侵入与繁殖。发现番茄抗病品种与感病品种的植株体内在菌体数量上有明显差异,而与青枯菌对番茄根部的吸附关系不显著。电镜观察发现青枯菌强致病力菌株菌体能以游离的形式存在于番茄感病品种根部的细胞间隙中,并能降解植株细胞壁、破坏原生质膜;青枯菌强致病力菌株菌体在抗病品种根内和青枯菌强致病力菌株在抗病及感病品种根内均被番茄植株细胞壁吸附,并且被细胞壁周围的浓密物质所包围。 相似文献
17.
Development of natural late blight epidemics in pure and mixed plots of potato cultivars with different levels of partial resistance 总被引:5,自引:1,他引:5
Late blight, caused by Phytophthora infestans , is the most severe disease of potato worldwide. Controlling late blight epidemics is difficult, and resistance of host cultivars is either not effective enough, or too easily overcome by the pathogen to be used alone. In field trials conducted for 3 years under natural epidemics, late blight severity was significantly lower in a susceptible cultivar growing in rows alternating with partially resistant cultivars (mixtures) than in unmixed plots of the susceptible cultivar alone. Partially resistant cultivars behaved similarly in unmixed and mixed plots. Mixtures of cultivars reduced disease progress rates and sometimes delayed disease onset over unmixed plots, but did so significantly only for the slowest epidemic. This suggests that reduction of area under the disease progress curve (AUDPC) in mixtures resulted from the cumulative action of minor effects. Disease distribution was focal in all plots at all dates, as shown by Morisita's index values significantly exceeding 1. Significant yield increases for the susceptible cultivar, and occasionally for the partially resistant ones, were observed in mixed-cultivar plots compared with single-cultivar plots. These results show that cultivar mixtures can significantly reduce natural, polycyclic epidemics in broadleaved plants attacked by pathogens causing rapidly expanding lesions. 相似文献
18.
探究南方根结线虫Me3毒性与非毒性群体对抗感寄主趋向性和侵染能力,为揭示毒性群体致病机理及防治根结线虫策略提供理论依据。使用以水琼脂为介质的研究方法,通过对比分析辣椒抗病品种HDA149和感病品种茄门根尖附近聚集的2龄幼虫(J2)数量,来揭示南方根结线虫对抗感辣椒品种根尖的趋向性效应,并利用实时荧光定量 PCR 检测侵入到辣椒根系的毒性与非毒性线虫数量,对其侵染能力进行比较。J2 趋向性试验结果显示,在相同的时间点,HDA149 和茄门辣椒根尖处附近聚集的毒性群体 J2 数量总是显著多于非毒性群体的 J2数量;J2 对抗感辣椒的选择性结果表明,不论是毒性群体还是非毒性群体的 J2,在相同的时间点,茄门根尖附近聚集的线虫数量显著多于HDA149根尖附近的线虫数量;荧光定量 PCR 检测线虫侵染结果显示,毒性群体 J2侵入到辣椒根系的数量相对非毒性群体的 J2 更多。总之,相比南方根结线虫Me3非毒性群体,毒性群体的 J2 对寄主根系有较强的趋向性,并且侵染效率更高;相比于抗性寄主,Me3毒性群体和非毒性群体的 J2 对感病寄主有更强的选择性。 相似文献
19.
Carolina Orellana-Torrejon Tiphaine Vidal Sébastien Saint-Jean Frédéric Suffert 《Plant pathology》2022,71(7):1537-1549
This study follows on from a previous study showing that binary mixtures of wheat cultivars affect the evolution of Zymoseptoria tritici populations within a field epidemic from the beginning (t1) to the end (t2) of a growing season. Here, we focused on the impact of interseason sexual reproduction on this evolution. We studied mixtures of susceptible and resistant cultivars (carrying Stb16q, a recently broken-down resistance gene) in proportions of 0.25, 0.5 and 0.75, and their pure stands. We determined the virulence status of 1440 ascospore-derived strains collected from each cultivar residue by phenotyping on seedlings. Virulence frequencies in the ascospore-derived population were lower in mixtures than in pure stands of the resistant cultivar, especially in the susceptible cultivar residues, as at t2, revealing that the impact of mixtures persisted until the next epidemic season (t3). Surprisingly, after sexual reproduction the avirulence frequencies on the resistant cultivar residues increased in mixtures where the proportion of the susceptible cultivar was higher. Our findings highlight two epidemiological processes: selection within the pathogen population between t1 and t2 driven by asexual cross-contamination between cultivars (previous study) and sexual crosses between avirulent and virulent strains between t2 and t3 driven by changes in the probabilities of physical encounters (this study). Mixtures therefore appear to be a promising strategy for the deployment of qualitative resistances, not only to limit the intensity of Septoria tritici blotch epidemics, but also to reduce the erosion of resistances by managing evolution of the pathogen population at a pluriannual scale. 相似文献
20.
The aim of this study was to investigate the potential diversity and pathogen‐specificity of sources of quantitative resistance to leaf rust caused by Puccinia triticina in French wheat germplasm. From a set of 86 genotypes displaying a range of quantitative resistance levels during field epidemics, eight wheat genotypes were selected and challenged in a greenhouse with three isolates of the pathogen, belonging to different pathotypes. Five components of resistance were assessed: infection efficiency, for which an original methodology was developed, latent period, lesion size, spore production per lesion, and spore production per unit of sporulating tissue. High diversity and variability for all these components were expressed in the host × pathotype combinations investigated; isolate‐specificity was found for all the components. The host genotypes displayed various resistance profiles, based on both the components affected and the isolate‐specificity of the interaction. Their usefulness as sources of quantitative resistance was assessed: line LD7 probably combines diversified mechanisms of resistance, being highly resistant for all the components, but displaying isolate‐specificity for all the components; cv. Apache did not show isolate specificity for any of the components, which could be related to the durability of its quantitative resistance in the field over more than 11 years. 相似文献