Exogenous systemin has a contrasting effect on disease resistance in mycorrhizal tomato (<Emphasis Type="Italic">Solanum lycopersicum</Emphasis>) plants infected with necrotrophic or hemibiotrophic pathogens

A study was performed to determine the effect of the systemin polypeptide on the bio-protective effect of arbuscular mycorrhizal fungi (AMF) in tomato plants infected with Alternaria solani, Phytophthora infestans or P. parasitica. Before infection, tomato plants were colonized with two different AMF, Glomus fasciculatum or G. clarum. In addition, a group of inoculated plants was treated with systemin, just after emergence. The exogenous application of systemin marginally suppressed the resistance against A. solani leaf blight observed in G. fasciculatum mycorrhizal plants but significantly enhanced it in plants colonized with G. clarum. Systemin induced resistance to P. parasitica in leaves of G. fasciculatum mycorrhizal plants, in which AMF colonization alone was shown to have no protective effect. Conversely, none of the treatments led to resistance to root or stem rots caused by P. infestans or P. parasitica. The above effects did not correlate with changes in the activity levels of β-1,3-glucanase (BG), chitinase (CHI), peroxidase (PRX), and phenylalanine ammonium lyase (PAL) in leaves of infected plants. However, they corroborated previous reports showing that colonization by AMF can lead to a systemic resistance response against A. solani. Systemic resistance to A. solani was similarly observed in non-mycorrhizal systemin-treated plants, which, in contrast, showed increased susceptibility to P. infestans and P. parasitica. The results indicated that the pattern of systemic disease resistance conferred by mycorrhizal colonization was dependent on the AMF employed and could be altered by the exogenous application of systemin, by means of a still undefined mechanism.     

RNAi of the sesquiterpene cyclase gene for phytoalexin production impairs pre- and post-invasive resistance to potato blight pathogens

Potato antimicrobial sesquiterpenoid phytoalexins lubimin and rishitin have been implicated in resistance to the late blight pathogen, Phytophthora infestans and early blight pathogen, Alternaria solani. We generated transgenic potato plants in which sesquiterpene cyclase, a key enzyme for production of lubimin and rishitin, is compromised by RNAi to investigate the role of phytoalexins in potato defence. The transgenic tubers were deficient in phytoalexins and exhibited reduced post-invasive resistance to an avirulent isolate of P. infestans, resulting in successful infection of the first attacked cells without induction of cell death. However, cell death was observed in the subsequently penetrated cells. Although we failed to detect phytoalexins and antifungal activity in the extract from wild-type leaves, post-invasive resistance to avirulent P. infestans was reduced in transgenic leaves. On the other hand, A. solani frequently penetrated epidermal cells of transgenic leaves and caused severe disease symptoms presumably from a deficiency in unidentified antifungal compounds. The contribution of antimicrobial components to resistance to penetration and later colonization may vary depending on the pathogen species, suggesting that sesquiterpene cyclase-mediated compounds participate in pre-invasive resistance to necrotrophic pathogen A. solani and post-invasive resistance to hemibiotrophic pathogen P. infestans.     

Calcium-dependent Protein Kinases are Involved in Potato Signal Transduction in Response to Elicitors from the Oomycete Phytophthora infestans

Plant response to pathogens involves an intricate network of signal transduction pathways. Here, potato cell cultures were used to study signal transduction in response to elicitors from Phytophthora infestans. Pretreatment of cells with Ser/Thr protein kinase inhibitors, EGTA, calmodulin antagonists or a channel blocker abolished the induction of two enzymes involved in defence responses, phenylalanine ammonia‐lyase (PAL) and peroxidase. Phosphatase inhibitors caused an increase of these activities in the absence of elicitors. Hyphal cell wall components (HWC) from an incompatible race (HWC 0) produced a rapid and transient increment of histone phosphorylation, whereas induction by HWC from a compatible race (HWC C) was less pronounced and more sustained. As activities were calcium‐dependent, a fraction enriched in calcium‐dependent protein kinases (CDPKs) was obtained by DEAE chromatography. Fractions from HWC 0‐ and HWC C‐treated cells presented higher kinase activity than that from untreated cells. Moreover, total activity was higher in the incompatible than in the compatible interaction. Activity was calcium‐dependent, partially inhibited by calmodulin antagonists and able to phosphorylate syntide‐2, a specific substrate of CDPKs. An in‐gel kinase assay showed the presence of a band of approximately 50 kDa whose activity was higher in HWC 0‐ than in HWC C‐treated cells and was not detected in control extracts. This report presents evidences of the differential activation of CDPKs in response to elicitors from different races of P. infestans, revealing that these protein kinases participate in the defence response to oomycete.     

致病疫霉效应蛋白Pi16275的功能研究

[目的]分析致病疫霉效应蛋白Pi16275的超量表达对病原菌致病性的影响,明确Pi16275的亚细胞定位,筛选Pi16275在植物中的互作靶标蛋白及靶标蛋白在抵御病原菌侵染过程中的作用,初步揭示Pi16275在病原菌侵染植物过程中的作用机制.[方法]利用农杆菌介导的烟草瞬时表达系统在烟草叶片表皮细胞中瞬时表达Pi162...     

A potato pathogenesis-related protein gene, StPRp27, contributes to race-nonspecific resistance against Phytophthora infestans

Late blight caused by Phytophthora infestans is the most important disease of potato. Many efforts have been made to understand molecular mechanism of the durable resistance to address the challenge raised by rapid evolution of the pathogen. A pathogenesis related protein (PR) gene StPRp27 was previously isolated from the potato leaves challenged by P. infestans. The sequence analysis and expression pattern reveal that StPRp27 may be associated with resistance to P. infestans. In present research, transient expression of StPRp27 in Nicotiana benthamiana enhanced resistance to P. infestans isolates 99189 and PY23 indicating its potential contribution to the disease resistance. These findings were also confirmed by over-expression of StPRp27 in potato cv. E-potato 3, which significantly slowed down the development of the disease after inoculation with a mixture of P. infestans races. Further, silencing of StPRp27 homologous genes in N. benthamiana harboring dominant Phytophthora resistance gene Rpi-blb1 or Rpi-blb2 showed no effects on the resistance triggered by these R genes. Our results suggest that StPRp27 contributes to a race-nonspecific resistance against P. infestans by inhibiting the disease development and has a potential use in selection and breeding for durable resistance to late blight.     

Systemically Induced Resistance in Potato Cultivars with Different Degree of Resistance to Late Blight caused by Phytophthora infestans (Mont.) de Bary

Systemically induced resistance in potato plants (Solanum tuberosum L.) against late blight Phytophthora infestans was studied macroscopically on three potato cultivars with different degrees of resistance to late blight. The cultivars, were Bintje(2), Elin(3) and Matilda(4). Figures within brackets represent resistance to leaf late blight on a scale from 1 to 5, where 5 denotes the highest level of resistance. In vitro propagated cuttings were used in the experiments, which were, performed under controlled environmental conditions. Disease resistance was induced by a local pre-infection with P. infestans or with the nonpathogen P. cryptogea. Induced resistance was observed on all cultivars. The protection causedby, induced resistance tended to be most intense on cv. Matilda, with 50–60% reduction in lesion formation 4 days after challenge inoculation.     

A Histological Evaluation of Induced Resistance to Phytophthora infestans (Mont.) de Bary in Potato Leaves

Systemically induced resistance against Phytophthora infestans in the potato cultivar ‘Bintje’ was studied histologically at the light microscopy level on the leaf surface, in the epidermis and in the mesophyll of challenged potato leaves. Systemic disease resistance was induced by a local pre-infection with the same fungus. On the leaf surface of induced plants, the germination of cysts was enhanced. In the epidermis of induced plants, papilla deposition increased and penetration decreased, whereas in the mesophyll of induced plants the spread of hyphae was reduced. It is suggested that the reduction of disease severity in induced plants is the result of the combined action of several successive defence reactions.     

Carbohydrates and resistance to <Emphasis Type="Italic">Phytophthora infestans</Emphasis> in potato plants

Plants generally deal with biotic or abiotic stresses by altering components as for example cell wall constituents and metabolites. Infection by Phytophthora infestans, the causal agent of late blight, constitutes a stress condition for the plants and they react to it with changes arising in their metabolism depending on the resistance level of the plants. The present work compares two potato hybrids differing in their level of horizontal resistance to late blight. Carbohydrate content in stems and leaves of infected and uninfected plants was determined by HPLC. Some carbohydrates accumulated in the stems of the resistant hybrid infected by P. infestans, whereas they remained unchanged in the susceptible hybrid. On the other hand, in the leaves, these carbohydrates accumulated only in the infected susceptible hybrid.     

Cytology of induced systemic resistance of tomato to Phytophthora infestans

The infection of tomato leaves by Phytophthora infestans was followed using cytological methods. Fungal ingress and plant reactions in untreated and induced resistant plants were studied. Systemic disease resistance was induced by a local pre-infection with the same fungus. Induction retarded fungal progress at the leaf surface, epidermis and in the mesophyll. The reduced numbers of germinated cysts indicate the presence of fungitoxic substances on the leaf surface of induced plants. Frequency of fungal penetration through the outer epidermal cell wall was reduced, but only in plants exhibiting a high level of induced resistance. Autofluor-escent material, indicating the presence of lignin-like substances, accumulated rapidly beneath some of the appressoria, but this plant response was similar in induced and non-induced plants. Staining with aniline blue indicated that callose deposition was not involved in induced resistance. Thus, none of the cytologically investigated plant reactions correlated with the reduced penetration frequency observed. In the mesophyll, however, the cytological picture corresponding to a hypersensitive reaction occurred more often in induced plants. It is concluded that reduction of disease severity by induction is the result of the combined action of several successive defence reactions.Dedicated to the memory of Professor H. Grisebach     

Expression of the Phytophthora infestans ipiB and ipi0 genes in planta and in vitro

The ipiB and ipiO genes of the potato late blight fungus Phytophthora infestans (Mont.) de Bary were isolated from a genomic library in a screen for genes induced in planta. Expression of these genes was studied during pathogenesis on various host tissues and different host plants, some of which show specific resistance against P. infestans infection. During pathogenesis on leaves and tubers of the fully susceptible potato cultivar (cv.) Ajax and on leaves of the fully susceptible tomato cv. Moneymaker, the P. infestans ipiB and ipiO genes show a transient expression pattern with highest mRNA levels in the early stages of infection. During the interaction with leaves of the partially resistant potato cv. Pimpernel, the expression is also transient but accumulation and disappearance of the mRNAs is delayed. Also in P. infestans inoculated onto a race-specific resistant potato cultivar and onto the nonhost Solanum nigrum, ipiB and ipiO mRNA is detectable during the initial stages of infection. Apparently, the expression of the ipiB and the ipiO genes is activated in compatible, incompatible and nonhost interactions. In encysted zoospores, ipiB and ipiO mRNA accumulation was not detectable, but during cyst germination and appressorium formation on an artificial surface the genes are highly expressed. Expression studies in mycelium grown in vitro revealed that during nutrient starvation the expression of the ipiB and ipiO genes is induced. For ipiO gene expression, carbon deprivation appeared to be sufficient. The ipiO gene promoters contain a sequence motif that functions as a glucose repression element in yeast and this motif might be involved in the regulation of ipiO gene expression.     

Induced Systemic Resistance in Tomato Plants against Phytophthora infestans

Infection of lower leaves of tomato plants with Phytophthora infestans followed by a period unfavourable to disease development increased the general resistance of the plants against the pathogen. Induced resistance to a second infection of upper leaves was expressed in the development of necrotic lesions that were sharply defined and reduced in size. Sporulation of the pathogen was suppressed. Lesions on unprotected plants expanded with a sporulating zone passing gradually to the healthy tissue under the same conditions. Induced resistance delayed and reduced penetration of the pathogen into the epidermis and subsequent colonisation of the mesophyll by formation of papillae in epidermal cells and hypersensitive-like reactions of penetrated, mesophyll cells.     

Phenotypic markers of Phytophthora infestans

Abstract

Phytophthora infestans is one of the most destructive pathogens of potato and causal agents of notorious disease late blight. Different chemicals are used to control the pathogen of late blight but the most commonly used is metalaxyl; its extensive use of has caused decreased sensitivity in the P. infestans population. The metalaxyl sensitivity of the Pakistani population of P. infestans is investigated in the present study. For this purpose, 178 isolates of P. infestans were obtained from the lesions of diseased potato leaves and stems, and samples were collected from the different potato-growing areas of Pakistan, where late blight is a problem. Sensitivity of the isolates of P. infestans was investigated by metalaxyl sensitivity test and with the help of test isolates were divided into three categories, i.e. sensitive, intermediate and resistant, based on their Co-efficient of mycelial growth inhibition (CMGI) values. During the study, highest percentage (50.17%) of resistant isolates was observed in the population of Punjab (zone 2), whereas the lower percentage (33.33%) was observed in the population of Swat valley (zone 6b). In the present study, it was discovered that P. infestans late blight-causing fungus has adopted more resistance against metalaxyl because of its wide use.     

Nucleotide-binding leucine-rich repeat network underlies nonhost resistance of pepper against the Irish potato famine pathogen Phytophthora infestans

Nonhost resistance (NHR) is a robust plant immune response against non-adapted pathogens. A number of nucleotide-binding leucine-rich repeat (NLR) proteins that recognize non-adapted pathogens have been identified, although the underlying molecular mechanisms driving robustness of NHR are still unknown. Here, we screened 57 effectors of the potato late blight pathogen Phytophthora infestans in nonhost pepper (Capsicum annuum) to identify avirulence effector candidates. Selected effectors were tested against 436 genome-wide cloned pepper NLRs, and we identified multiple functional NLRs that recognize P. infestans effectors and confer disease resistance in the Nicotiana benthamiana as a surrogate system. The identified NLRs were homologous to known NLRs derived from wild potatoes that recognize P. infestans effectors such as Avr2, Avrblb1, Avrblb2, and Avrvnt1. The identified CaRpi-blb2 is a homologue of Rpi-blb2, recognizes Avrblb2 family effectors, exhibits feature of lineage-specifically evolved gene in microsynteny and phylogenetic analyses, and requires pepper-specific NRC (NLR required for cell death)-type helper NLR for proper function. Moreover, CaRpi-blb2–mediated hypersensitive response and blight resistance were more tolerant to suppression by the PITG_15 278 than those mediated by Rpi-blb2. Combined results indicate that pepper has stacked multiple NLRs recognizing effectors of non-adapted P. infestans, and these NLRs could be more tolerant to pathogen-mediated immune suppression than NLRs derived from the host plants. Our study suggests that NLRs derived from nonhost plants have potential as untapped resources to develop crops with durable resistance against fast-evolving pathogens by stacking the network of nonhost NLRs into susceptible host plants.     

NO和钙信使系统在草酸诱导黄瓜叶片抗霜霉病中的作用

通过草酸及其与不同抑制剂亚甲基蓝、EGTA、氯丙嗪和Li+组合处理黄瓜叶片,研究了草酸与抑制剂不同处理组合方式对黄瓜叶片POD活性和叶片病情指数的影响,探讨NO、钙信使系统在草酸诱导叶片抗霜霉病中的作用.结果显示,10～70mmol/L草酸均能不同程度诱导黄瓜叶片POD活性的升高,提高叶片对黄瓜霜霉病的抗病性,降低叶片病情指数,并以30mmol/L效果最好.4种抑制剂分别与30mmol/L草酸同时或先于草酸处理,或草酸处理后一定时间再用抑制剂处理,均明显抑制黄瓜叶片POD活性的升高及病情指数的降低.研究表明,NO、Ca2+、钙调素(CaM)和磷酸肌醇均可能参与了草酸诱导黄瓜霜霉病抗性的信号转导过程.     

Development of potato blight Phytophthora infestans after planting infected seed tubers

About 1000 blight-infected seed potato tubers, usually of the cultivar King Edward, were planted for 9 yr and the subsequent plants examined until the disease had developed in the plots. Haulm infection originated each year from the seed tubers and occurred first on basal leaves. When tubers were inoculated with a complex race of P. infestans this race was recovered from the leaves and from the soil near the seed tuber. Transmission of infection from soil to leaves was demonstrated by splash of artificially contaminated soil to leaves suspended above the soil. In 4 yr, plants were grown on flat rows as well as on ridges. In 2 yr, when emergence was almost complete, infected stems were observed on otherwise normal plants. In the first year 0.6% grew on ridges and 3.0% on the flat and in the second all grew on the flat (5.3%). Only seven of the 43 plants had more than one infected stem. Flat plots had a significantly higher number of stemdplant than ridge plots, but this bore no relation to numbers of infected stems. When flat plots which had developed affected plants had soil replaced as ridge plots, no further infected stems were observed. Such stems continued to develop on flat plots. No prematurely dead stems were observed below soil level when all plants were dug. Underground portions of most infected stems showed little evidence of P. infestans which was found only at about soil level. Infection appeared to occur first in this area.     

Tuber Blight Development in Potato Cultivars in Response to Different Genotypes of Phytophthora infestans

Migrations or introduction of new genotypes of Phytophthora infestans to a specific region imposes a different perspective for potato production. During 2009–2010, a late blight epidemic affected the Northeastern United States, which quickly spread through several states. The epidemic was characterized by the appearance of a new genotype of P. infestans designated US‐22, which was isolated from tomato and potato. Potato tubers are an essential component of late blight epidemics where the pathogen cannot overwinter on Solanaceous plants. Six potato cultivars were inoculated with 12 isolates of P. infestans (five different genotypes), including isolates of the genotype US‐22. Tuber blight development was characterized in terms of tissue darkening expressed as area under the disease progress curve values and lenticel infection. The responses indicated that US‐8 was more aggressive than US‐22, but US‐22 isolates obtained from potato were more aggressive on potato than those acquired from tomato. Tuber periderm responses to infection were limited, yet US‐8 isolates infected the periderm more often than US‐22 isolates. There were significant differences among the cultivars tested but cv. Jacqueline Lee was the most resistant overall. Although isolates of P. infestans genotype US‐22 were less aggressive in comparison with US‐8 isolates, US‐22 isolates still infected potato tubers and were as aggressive us US‐8 isolates on some cultivars. Management of late blight caused by isolates of US‐22 through host resistance may be feasible but imposes a different set of criteria for consideration from those that US‐8 imposed.     

Multiple factors control the level of resistance induced in tomato by Fusarium oxysporum f. sp. cucumerinum

Fourteen wild type and three UV-irradiated isolates of Fusarium oxysporum f. sp. cucumerinum (Foc) were evaluated as to the level of resistance they could induce in tomato to late blight caused by Phytophthora infestans. Tomato plants were induced by applying a suspension of Foc microconidia directly to the surface of the potting media without disturbing the tomato roots. Upper leaves of tomato plants were inoculated with P. infestans, and a reduction in lesion expansion was used as an index of induced resistance. All fourteen wild type isolates of Foc significantly reduced expansion of late blight lesions. One of the wild type isolates produced a significantly weaker resistance response than the other isolates. None of the UV-irradiated isolates induced significant resistance. The same Foc isolates were compared as to their virulence and their pigment production in culture, and considerable variation among them was revealed for both characteristics. Positive correlations existed both between the level of induced resistance and virulence, and between the level of induced resistance and pigmentation. The gradual increment in the level of induced resistance and the exceptions to the correlations between induced resistance and the two characteristics investigated suggest that multiple factors contribute to the induction of resistance by Foc.