Late blight caused by Phytophthora infestans is the most serious disease of tomato production in China. Studies on the genetics of resistance and identification of molecular markers are very useful for breeding late b...Late blight caused by Phytophthora infestans is the most serious disease of tomato production in China. Studies on the genetics of resistance and identification of molecular markers are very useful for breeding late blight resistant varieties. The objective of this paper was to study the inheritance of late blight resistance and identify simple sequence repeat (SSR) markers associated with resistance allele in tomato (Lycopersicon esculentum Mill). The results came from an F2 progeny of 241 plants derived from a cross between 5~ inbred line that is susceptible to late blight and a resistant accession CLN2037E. The late blight responses of F2 plants were tested by artificially inoculation of detached-leaflets in plate and natural infection assayed under greenhouse conditions. Both methods showed that the resistance is dominant and inherited as monogenic trait. Genetic mapping and linkage analysis showed that the late blight resistance gene Ph-ROL was located on chromosome 9 with a genetic distance of 5.7 cM to the SSR marker TOM236.展开更多
Over 170 years after the infamous Irish Potato Famine,potato late blight(PLB)caused by Phytophthora infestans remains the single most devastating disease of global potato production,causing up to 10 billion USD in yie...Over 170 years after the infamous Irish Potato Famine,potato late blight(PLB)caused by Phytophthora infestans remains the single most devastating disease of global potato production,causing up to 10 billion USD in yield loss and management costs.Through decades of research,growers and agronomists in the field as well as laboratory scientists have made significant progress in understanding the molecular pathogenesis process of this critical pathosystem and effective management strategies to control PLB.Yet,the need to feed an ever-increasing global population under changing climate demands continued improvement in efficient and sustainable PLB management schemes that can be implemented across a broad economic spectrum.In this review,we briefly summarize the current understanding of the molecular interaction between P.infestans and its host plants,highlight the current integrated pest management strategy to control PLB on local and continental scales,and discuss the potential of further improvement of sustainable PLB control through genetic enhancement of crop resistance and emerging crop protection technologies.展开更多
The effects of different doses of 45% pmpamoearb · fenamidone SC on potato late blight were studied in the paper. The results showed that the overall control effect of 45% propamocarb · fenamidone SC against...The effects of different doses of 45% pmpamoearb · fenamidone SC on potato late blight were studied in the paper. The results showed that the overall control effect of 45% propamocarb · fenamidone SC against potato late blight on the 14^th day after the third spraying were 67.64% -83.78%. The yield of potato reached 19 972.5 -23 302.5 kg/hm^2, with higher marketable tuber rate and lower rotten tuber rate. With the increase in fungicide dose, the difference in control effect against late blight was significant, but the yield-increasing effect on potatoes was not significant. The appropriate application dosage of 45% propamecarb · fenamidone SC were 450 -675 g/hm^2.展开更多
Cultivated potato with high level of horizontal resistance against late blight is one of the most important goals of potato breeding.The recurrent selection has been adopted to increase the level of potato horizontal ...Cultivated potato with high level of horizontal resistance against late blight is one of the most important goals of potato breeding.The recurrent selection has been adopted to increase the level of potato horizontal resistance and a B3C1 population without R1-R11 dominant genes has been released by the International Potato Center at the short-day condition of Peru.The present research was carried out to further improve the resistance and the agronomic traits of B3C1 population under long-day condition of Hubei,China,with maximized retention of its genetic diversity.Twenty-seven individual clones of B3C1 were used to generate population B3C2 by in-population crossing with the bulk pollens aiming to elevate the frequency of late blight resistance genotypes and to improve the adaptation to local long-day conditions.The late blight resistance and the main agronomic traits including the maturity,the plant characters and the tuber traits were evaluated for the foreground selection in three years,by which 130 pedigrees were maintained as the basic population of B3C2 for further selection.A total of 312 polymorphic loci detected by 9 AFLP marker combinations were used to monitor the genetic diversity of the populations for the background selection.The B3C2 population of 51 clones was finally selected,of which the frequency of resistant genotypes increased by 23.8% points and the genetic diversity was maintained by about 96% as referred to B3C1.Our results strongly suggested that combination of the foreground selection for target traits and the background selection for the genetic diversity is an efficient strategy in the recurrent selection of tetraploid potato to improve quantitative traits.展开更多
In the years 2008-2010, an experiment was conducted Phytophthora infestans under organic and conventional production on four potato cultivars differing in maturity and resistance to systems. During the growing season,...In the years 2008-2010, an experiment was conducted Phytophthora infestans under organic and conventional production on four potato cultivars differing in maturity and resistance to systems. During the growing season, plant growth was evaluated by measuring plant height, stem number, leaf and stem biomass and leaf area index (LAI). Photosynthetic active radiation (PAR) absorption and leaf chlorophyll content were also measured. The rate of late blight development, tuber yield, tuber size, and harvest index was assessed. There were significant differences between the two production systems in the most studied parameters. Plants growing in the organic system were characterized by reduced plant development compared to plants growing in the conventional system. As a result of lower plant growth, tuber yield was reduced by 22% and tuber size was smaller. Harvest index did not differ significantly between production systems. A positive effect of the reduced development of aboveground plant parts in the organic system was later appearance of the first symptoms of late blight and slower spread the disease.展开更多
Thirteen promising clones from population B3C2 potato genotypes (bred for quantitative resistance to late blight) obtained from the International Potato Center and three control cultivars were evaluated for four pla...Thirteen promising clones from population B3C2 potato genotypes (bred for quantitative resistance to late blight) obtained from the International Potato Center and three control cultivars were evaluated for four planting dates within two cropping seasons at Kalengyere Research Station in Southwestern Uganda in order to determine performance and yield stability. The analysis of variance of the relative area under disease progress curve (rAUDPC) revealed significant difference (P 〈 0.001) among genotype x planting date interaction, and significant difference (P 〈 0.001) among genotypes x fungicide treatments x planting date interaction. The analysis of variance (ANOVA) of yield revealed also significant difference among genotypes x planting date interaction and significant difference (P 〈 0.05) among genotypes x fungicide treatments x planting date interaction, showing the variable response of genotypes and the need for stability analysis. The additive main effects and multiplicative interactive (AMMI) statistical model showed that the most stable and high yielding genotypes were 396038.107, 396026.103 and 393280.82. The cultivars Victoria, Nakpot 5 and Cruza recorded low yields (below the average), but Nakpot 5 was generally more variable, and is therefore highly adaptable to some environments.展开更多
The objective of the present study was to evaluate the resistance of 10 accessions to P. infestans, by in-vitro inoculation of detached leaflets with a complex isolation of the fungus. Late blight, caused by the fungu...The objective of the present study was to evaluate the resistance of 10 accessions to P. infestans, by in-vitro inoculation of detached leaflets with a complex isolation of the fungus. Late blight, caused by the fungus Phytophthora infestans Mont. De Bary, is one of the most important diseases of the potato crop, and can destroy complete plantations in a short space of time. Chile is considered as a sub-centre of the origin of cultivated potatoes with many native potato varieties in the country. The different resistance components demonstrated that within the material of Chilean native Solanum, there was a wide range of variation to late blight. The resistant control (R-8906384) and the accessions UCT-34-Cor presented the lowest infection efficiency, small sizes of the lesions and low levels of sporulation classifying them as the most resistant. This suggests low efficiency of the infection and high resistance to penetration in these materials. The more susceptible accessions often presented a good level of resistance for one or few components. It would be of great interest to go into the genetic control of the different resistance components to know if the same level of resistance expressed for a component by different accessions is under the same genetic control or not.展开更多
Late blight caused by <i>Phytophthora</i> <i>infestans</i> (Mont.) De Bary is the most devastating disease of potato. This study was carried out to evaluate the efficacy of ten botanical extrac...Late blight caused by <i>Phytophthora</i> <i>infestans</i> (Mont.) De Bary is the most devastating disease of potato. This study was carried out to evaluate the efficacy of ten botanical extracts against the late blight disease incidence and severity in experimental potato field at University of Rajshahi, Bangladesh during 2019-2020. Crude aqueous extract of leaves of <i>Syzygium</i> <i>cumini</i>, <i>Psidium</i> <i>guajava</i>, <i>Eucalyptus</i> <i>globusus</i>, <i>Carica</i> <i>papaya</i> and <i>Lawsonia</i> <i>inermis</i>;fruits of <i>Terminalia</i> <i>bellirica</i>, <i>T.</i> <i>chebula</i> and <i>Piper</i> <i>nigrum</i>;flower buds of <i>Syzygium</i> <i>aromaticum</i> and cloves of <i>Allium</i> <i>sativum</i> were used at 5% (w/v) concentration for evaluation. Out of ten botanicals, <i>Syzygium</i> <i>cumini</i> leaves extract was found most effective in controlling the late blight disease incidence and severity up to 66 DAS (days after sowing) and increased the potato yield by 71.29% compare to untreated control. The efficacy of <i>Lawsonia</i> <i>inermis</i> extract against late blight disease was found promising and increased the potato yield by 48.51%. Other four botanical extracts (<i>Terminalia</i> <i>chebula</i>, <i>Piper</i> <i>nigrum</i>, <i>Syzygium</i> <i>aromaticum</i> and <i>Carica</i> <i>papaya</i>) showed moderate efficacy <span>against the incidence and severity of late blight disease, and increased 30% </span>more potato yield compare to control. These results suggest that botanical extract of <i>Syzygium</i> <i>cumini</i> ha<span style="font-family:;" "="">s</span><span style="font-family:;" "=""> a great potential as an alternative </span><span style="font-family:;" "="">of</span><span style="font-family:;" "=""> chemical fungicides to control the late blight disease of potato in</span><span style="font-family:;" "=""> </span><span style="font-family:;" "="">eco-friendly way.</span>展开更多
The potato crop in Peru is the main income and food source for the smallholder of the highland grower of the Peruvian Andes.For urban population,it represents one of the main components of the food basket and for comm...The potato crop in Peru is the main income and food source for the smallholder of the highland grower of the Peruvian Andes.For urban population,it represents one of the main components of the food basket and for commercial intermediaries.It is the main brokerage product considering its volume and value.To facilitate the adoption and diffusion of new potato cultivars after its release,adequate methodologies are necessary to apply during the process of evaluation and selection.One of these methodologies is called participatory varietal selection(PVS).The objective of this study was to identify new potato cultivars and/or genotypes with resistance or tolerance to adverse effects of climate change applying PVS,in order to obtain new varieties with acceptable economic yields.In this way potato growers of the Peruvian highland Andes should benefit through the improvement of their economic status,food security and overall life quality.During 2016-2017,three potato clones(CIP393079.4,CIP387096.2 and CIP396034.268)and two commercial varieties(Unica,Canchan)were evaluated at eight Peruvian locations in three regions(Huánuco,Junín and Huancavelica).Data were analyzed using a randomized complete block design,with three replications.Main criteria for selection were late blight resistance,abundant foliage,drought tolerance,yield and uniform and healthy tubers.In all three regions the three best clones selected were CIP396034.268,CIP393079.4 and CIP387096.2,ranking in first,second and third place,respectively.Men and women selected the same clones,but in a different order.Commercial cultivars ranked 4th and 5th.However,local growers selected Canchan,CIP387096.2 and CIP393079.4 based on appearance,texture and taste tests.The last two clones(CIP387096.2 and CIP393079.4)should be considered for a future release.展开更多
[Objectives] The research aimed to investigate the genetic rule of the disease resistance of tomato CLN2037,find molecular markers linked with disease-resistant genes and locate the disease-resistant genes. [Methods] ...[Objectives] The research aimed to investigate the genetic rule of the disease resistance of tomato CLN2037,find molecular markers linked with disease-resistant genes and locate the disease-resistant genes. [Methods] BCr,BCs and F2 were constructed from tomato CLN2037 and susceptible cultivar T2-03,and their resistance to late blight was identified and analyzed by inoculating the disease in the seedling stage of tomatoes. The genetic linkage analysis was made based on the genetic linkage map constructed by ICu GI using group segregation method and 90 pairs of tomato SSR primers. [Results]The resistance of CLN2037 to late blight was controlled by a single recessive gene. The polymorphic bands amplified by primer DM0231 had a linkage relationship with resistance genes. The size of the polymorphism fragment was 226 bp with the genetic linkage distance of 2. 67 c M,and the disease resistance gene was localized on CCPB272-03741.[Conclusions]DM0231 could be used as a molecular marker for molecular breeding of tomato against late blight,which laid the foundation for further fine localization of late blight resistance genes.展开更多
Potato late blight, caused by the oomycete Phytophthora infestans, is one of the most devastating diseases in the agricultural sector around the world. Many genes (R genes) conferring resistance to late blight have be...Potato late blight, caused by the oomycete Phytophthora infestans, is one of the most devastating diseases in the agricultural sector around the world. Many genes (R genes) conferring resistance to late blight have been identified in various potato species and most of these R genes have been used in potato breeding. The aim of this study was to develop and validate PCR-based assays for the R genes Rpi-blb1, Rpi-blb2, Rpi-blb3 and Rpi-bt1, to distinguish between late blight resistant and late blight susceptible potato progeny in the given breeding background. A total of 100 breeding progeny were screened for the presence of these R genes and tested for resistance against P. infestans mating type A2, genotype US-8 strain, using detached leaf and tuber rot assays. PCR products for the Rpi-blb1 and Rpi-bt1 resistance genes were identified in the resistant progeny but were absent in the susceptible ones;therefore these PCR assays could differentiate between late blight resistant and susceptible plants. Genotypic data from the DNA markers derived from the Rpi-blb1 and Rpi-bt1 genes was found to correlate with the phenotypic data for foliar late blight but not with data for tuber rot. Our results demonstrate that markers derived from these two R genes could be useful for marker-assisted selection (MAS) for foliar late blight resistance in potato breeding programs.展开更多
Late blight (LB), caused by the oomycete Phytophthora infestans, is one of the most devastating diseases of tomato. Three major genes Ph-1, Ph-2 and Ph-3 conferring resistance to LB have been identified and mapped to ...Late blight (LB), caused by the oomycete Phytophthora infestans, is one of the most devastating diseases of tomato. Three major genes Ph-1, Ph-2 and Ph-3 conferring resistance to LB have been identified and mapped to the chromosomes 7, 10 and 9, respectively. However, PCR-based molecular markers associated with these genes are limited. Molecular markers are extremely useful in the screening and selection of tomato lines for the development of LB resistant genotypes. The objective of this study was to identify molecular markers associated with Ph-3 gene conferring LB resistance in tomato. Four co-dominant markers were found to be associated with Ph-3, all of which were sequence characterized amplified region (SCAR) type. Breeding lines and cultivars were inoculated with a field isolate of Phytophthora infestans to collect phenotypic data on disease resistance. Genotypic data from molecular markers associated with Ph-3 were in close agreement with the phenotypic data for the lines tested. With the verification of genotypic data from novel molecular markers in known genotypes supported by phenotypic data, the novel molecular markers may be useful in screening tomato populations aiming to develop LB resistant genotypes or cloning the LB resistant genes.展开更多
Phurejas potatoes (Solanum phureja Juz et Buk) are cultivated in very restricted areas of the Bolivian Andes. Late blight caused by Phytophthora infestans is a destructive, endemic disease that affects the survival an...Phurejas potatoes (Solanum phureja Juz et Buk) are cultivated in very restricted areas of the Bolivian Andes. Late blight caused by Phytophthora infestans is a destructive, endemic disease that affects the survival and cultivation of this crop. The aim of this study was to determine the resistance characteristics of phurejas potato varieties to P. infestans in a traditional area of cultivation. An experimental plot was prepared in the locality of Chojchoni (3200 m) and planted with different phurejas varieties: 1) Chojllu Phureja (Sste);2) Phureja Amarilla (Sphu);3) Polo Phureja (Sphu);4) Phureja Roja (Sphu);5) Phureja Negra (Sphu) and 6) Waych’a Pacena (Sadg), a susceptible control. Severity was assessed according to the criteria of the Centro Internacional dela Papa, determining the area under the disease progress curve (AUDPC). Regression analysis (logN disease severity against time) was performed using the logistic model [ln(y/1 - y)] to determine infection rates. The different varieties showed different levels of resistance. The disease progress curve, the AUDPC and the linear regression results revealed the varieties Chojllu Phureja, Phureja Amarilla and Polo Phureja to likely have larger copy numbers of minor resistance genes against P. infestans than Phureja Roja or Phureja Negra. Late blight caused by P. infestans could cause the long-term loss of some phurejas varieties through farmers selecting others less severely affected by the disease.展开更多
Late blight,caused by the oomycete plant pathogen Phytophthora infestans,is a destructive disease that leads to significant yield loss in potatoes and tomatoes.The introgression of disease resistance(R)genes,which enc...Late blight,caused by the oomycete plant pathogen Phytophthora infestans,is a destructive disease that leads to significant yield loss in potatoes and tomatoes.The introgression of disease resistance(R)genes,which encode nucleotide-binding domain leucine-rich repeat-containing receptors(NLRs),into cultivated potatoes,is highly effective in controlling late blight.Here,we generated transgenic 2R and 3R potato lines by stacking R genes Rpi-blb2/Rpi-vnt1.1and Rpi-vnt1.1/RB/R8,respectively,in the susceptible cv.Desiree background.The resulting 2R and3R transgenic potato plants showed resistance to highly virulent P.infestans field isolates.We hypothesized that stacking R genes either resulted in up-regulation of a broader range of immune-related genes,or,more importantly,increase in the fold change of gene expression.To test our hypotheses,we performed transcriptome analysis and identified a subset of core immune-related genes that are induced in response to P.infestans in transgenic lines carrying single R genes versus lines carrying stacks of multiple R genes.In our analysis,stacking R genes resulted not only in the induction of a broader range of defense-associated genes but also a global increase in gene expression fold change,caused by the pathogen.We further demonstrated that the calcium-dependent protein kinase 16(StCDPK16)gene significantly contributed to resistance to a virulent P.infestans strain,in the R gene background,in a kinase activity-dependent manner.Thus,our data suggest that stacking the R genes enhances late blight resistance through modulating the expression of a broader range of defense-related genes and highlights StCDPK16 as a novel player in potato R gene-mediated resistance.展开更多
Plant pathogens deliver effector proteins that alter host processes to create an environment conducive to colonization. Attention has focused on identifying the targets of effectors and how their manipulation facil- i...Plant pathogens deliver effector proteins that alter host processes to create an environment conducive to colonization. Attention has focused on identifying the targets of effectors and how their manipulation facil- itates disease. RXLR effector Pi04089 from the potato blight pathogen Phytophthora infestans accumu- lates in the host nucleus and enhances colonization when transiently expressed in planta. Its nuclear local- ization is required for enhanced P. infestans colonization. Pi04089 interacts in yeast and in planta with a putative potato K-homology (KH) RNA-binding protein, StKRBPI. Co-localization of Pi04089 and StKRBP1, and bimolecular fluorescence complementation between them, indicate they associate at nuclear speckles. StKRBP1 protein levels increased when it was co-expressed with Pi04089. Indeed, such accumu- lation of StKRBP1 was observed also on the first day of leaf colonization by the pathogen. Remarkably, overexpression of StKRBP1 significantly enhances P. infestans infection. Mutation of the nucleotide- binding motif GxxG to GDDG in all three KH domains of StKRBP1 abolishes its interaction with Pi04089, its localization to nuclear speckles, and its increased accumulation when co-expressed with the effector. Moreover, the mutant StKRBP1 protein no longer enhances leaf colonization by P. infestans, implying that nucleotide binding is likely required for this activity. We thus argue that StKRBP1 can be regarded as a sus- ceptibility factor, as its activity is beneficial to the pathogen.展开更多
Species of the genus Phytophthora,the plant killer,cause disease and reduce yields in many crop plants.Although many Resistance to Phytophthora infestans(Rpi)genes effective against potato late blight have been cloned...Species of the genus Phytophthora,the plant killer,cause disease and reduce yields in many crop plants.Although many Resistance to Phytophthora infestans(Rpi)genes effective against potato late blight have been cloned,few have been cloned against other Phytophthora species.Most Rpi genes encode nucleotide-binding domain,leucine-rich repeat-containing(NLR)immune receptor proteins that recognize RXLR(Arg-X-Leu-Arg)effectors.However,whether NLR proteins can recognize RXLR effectors from multiple Phytophthora species has rarely been investigated.Here,we identified a new RXLR-WY effector AVRamr3 from P.infestans that is recognized by Rpi-amr3 from a wild Solanaceae species Solanum americanum.Rpi-amr3 associates with AVRamr3 in planta.AVRamr3 is broadly conserved in many different Phytophthora species,and the recognition of AVRamr3 homologs by Rpi-amr3 activates resistance against multiple Phytophthora pathogens,including the tobacco black shank disease and cacao black pod disease pathogens P.parasitica and P.palmivora.Rpi-amr3 is thus the first characterized resistance gene that acts against P.parasitica or P.palmivora.These findings suggest a novel path to redeploy known R genes against different important plant pathogens.展开更多
Potato late blight,which is caused by Phytophthorainfestans(Mont.)de Bary,is a worldwide devastating disease for potato.It decreased yields of potato and caused unpredictable losses all over the world.Various simple s...Potato late blight,which is caused by Phytophthorainfestans(Mont.)de Bary,is a worldwide devastating disease for potato.It decreased yields of potato and caused unpredictable losses all over the world.Various simple statistical methods and forecasting models have been developed to predict and manage potato late blight.Meanwhile,there is a rising need to develop prediction models reflecting peroxidase(POD)activity,which is an important health index that varies with infection and correlated with stress resistance in plants.Thus,the aim of this research was to develop kinetic models to predict POD activity.Infection-induced changes in potato leaves stored in an artificial climate chest at 25°C were analyzed using hyperspectroscopy.Four prediction models were developed by using linear partial least squares(PLS)and nonlinear support vector machine(SVM)methods based on the full spectrum and effective wavelengths.The effective wavelengths were selected by the successive projection algorithm(SPA).In this study,the prediction model developed by means of SPA-SVM method obtained the best performance,with a Rp(correlation coefficient of prediction)value of 0.923 and a RMSEp(root mean square error of prediction)value of 24.326.Five-order kinetics models according to the prediction model were developed,and late blight disease can be predicted using this model.This study provided a theoretical basis for the prediction of latencies of late blight.展开更多
Using harpin protein gene from apple fire blight pathogen Erwinia amylavora and potato prp1-1 promoter as main DNA elements, the feasibility of using pathogen infection-induced hypersensitive response was explored as ...Using harpin protein gene from apple fire blight pathogen Erwinia amylavora and potato prp1-1 promoter as main DNA elements, the feasibility of using pathogen infection-induced hypersensitive response was explored as a new strategy of engineering fungal disease resistance. Three plant transformation vectors were constructed and 68 transgenic potato plants were produced through Agrobacterium mediated transformation method. Southern, Northern and Western blot analysis demonstrated the insertion, transcription and protein expression of harpin protein gene in transgenic plants. Disease resistance test using a complex race of Phytophthora infestans as challenging pathogen showed that both constitutive and pathogen infection-induced expression of harpin protein gene in transgenic potato reduced the lesion growth rate of fungus. Among plants where harpin protein gene expression was induced only by fungus infection, two plants were found to be highly resistant to P. infestans infection. Fungal hyphae were not produced on total of 30 inoculated leaves from the two resistant plants and necrotic lesion was limited to inoculation area. The results highlighted that engineered hypersensitive response in plants was a very promising approach to produce fungal disease resistant genotype.展开更多
To engineer crop disease resistance by utilizing natural defense mechanism that was expressed in the incompatible host-pathogen interactions is expected to result in a durable and broad-spectrum resistance. In order t...To engineer crop disease resistance by utilizing natural defense mechanism that was expressed in the incompatible host-pathogen interactions is expected to result in a durable and broad-spectrum resistance. In order to prove this viewpoint, we amplified the coding region of the glucose oxidase (GO) gene from Aspergillus nigervia PCR and fused it to the pathogen-inducible promoter, Prp1-1. The chimeric gene was cloned into a plant expression vector and conjugated into Agrobacterium. Twenty-three transgenic potato plants were obtained by Agrobacterium-mediated transformation. The integration of GO gene was confirmed by Southern hybridization and the GO gene expression was identified with Kl-starch color reaction. Phytophthora infestans inoculation revealed that the expression of the chimeric transgene was induced by pathogen infection. Most of the transgenic plants exhibited various degrees of enhanced disease resistance. Four of them had lesion sizes reduced to less than half of the non-transgenic展开更多
Late blight is one of the most important potato diseases. To minimize yield losses, various protective measures are used including fungicide application. Active use of fungicides results in a contamination of the envi...Late blight is one of the most important potato diseases. To minimize yield losses, various protective measures are used including fungicide application. Active use of fungicides results in a contamination of the environment. Therefore, crop protection strategies optimizing the number of treatments are of great interest.Using information about late blight development in an experimental potato field recorded over 30 seasons, a simulator to forecast yield losses caused by the disease was developed based on the number of 5-d periods favorable for reinfection of plants during a vegetation season. The simulator was successfully verified using independent data on the disease development from nine unprotected potato fields in the Netherlands and Germany. The average difference between the calculated and real yield losses did not exceed 5%. Using the simulator and weather data for a period of 2007–2017, yield losses were calculated for several areas of the Bryansk, Tambov, and Orenburg Regions of Russia. The results revealed differences in disease development between these regions and may be used to develop recommendations for a frequency of fungicide applications according to the regional risk of epidemics, leading to a significant reduction in fungicide use.展开更多
文摘Late blight caused by Phytophthora infestans is the most serious disease of tomato production in China. Studies on the genetics of resistance and identification of molecular markers are very useful for breeding late blight resistant varieties. The objective of this paper was to study the inheritance of late blight resistance and identify simple sequence repeat (SSR) markers associated with resistance allele in tomato (Lycopersicon esculentum Mill). The results came from an F2 progeny of 241 plants derived from a cross between 5~ inbred line that is susceptible to late blight and a resistant accession CLN2037E. The late blight responses of F2 plants were tested by artificially inoculation of detached-leaflets in plate and natural infection assayed under greenhouse conditions. Both methods showed that the resistance is dominant and inherited as monogenic trait. Genetic mapping and linkage analysis showed that the late blight resistance gene Ph-ROL was located on chromosome 9 with a genetic distance of 5.7 cM to the SSR marker TOM236.
基金supported by the National Natural Science Foundation of China (32130088)the Guangdong Major Project of Basic and Applied Basic Research,China(2021B0301030004) to Dong Suomengthe Agricultural Science and Technology Innovation Program of Chinese Academy of Agricultural Sciences (CAAS-ASTIP) to Zhou Shaoqun
文摘Over 170 years after the infamous Irish Potato Famine,potato late blight(PLB)caused by Phytophthora infestans remains the single most devastating disease of global potato production,causing up to 10 billion USD in yield loss and management costs.Through decades of research,growers and agronomists in the field as well as laboratory scientists have made significant progress in understanding the molecular pathogenesis process of this critical pathosystem and effective management strategies to control PLB.Yet,the need to feed an ever-increasing global population under changing climate demands continued improvement in efficient and sustainable PLB management schemes that can be implemented across a broad economic spectrum.In this review,we briefly summarize the current understanding of the molecular interaction between P.infestans and its host plants,highlight the current integrated pest management strategy to control PLB on local and continental scales,and discuss the potential of further improvement of sustainable PLB control through genetic enhancement of crop resistance and emerging crop protection technologies.
基金Supported by Special Fund for China Agricultural Industry Research System(CARS-10)Project of Agricultural Science and Technology Innovation Center of Hubei Province "Breeding Technology of High Yield and High Quality Potato and Breeding and Promotion of New Varieties"(2007-620-001-03)
文摘The effects of different doses of 45% pmpamoearb · fenamidone SC on potato late blight were studied in the paper. The results showed that the overall control effect of 45% propamocarb · fenamidone SC against potato late blight on the 14^th day after the third spraying were 67.64% -83.78%. The yield of potato reached 19 972.5 -23 302.5 kg/hm^2, with higher marketable tuber rate and lower rotten tuber rate. With the increase in fungicide dose, the difference in control effect against late blight was significant, but the yield-increasing effect on potatoes was not significant. The appropriate application dosage of 45% propamecarb · fenamidone SC were 450 -675 g/hm^2.
基金Funding from the National High Technology Research and Development Program of China (2003AA207130)
文摘Cultivated potato with high level of horizontal resistance against late blight is one of the most important goals of potato breeding.The recurrent selection has been adopted to increase the level of potato horizontal resistance and a B3C1 population without R1-R11 dominant genes has been released by the International Potato Center at the short-day condition of Peru.The present research was carried out to further improve the resistance and the agronomic traits of B3C1 population under long-day condition of Hubei,China,with maximized retention of its genetic diversity.Twenty-seven individual clones of B3C1 were used to generate population B3C2 by in-population crossing with the bulk pollens aiming to elevate the frequency of late blight resistance genotypes and to improve the adaptation to local long-day conditions.The late blight resistance and the main agronomic traits including the maturity,the plant characters and the tuber traits were evaluated for the foreground selection in three years,by which 130 pedigrees were maintained as the basic population of B3C2 for further selection.A total of 312 polymorphic loci detected by 9 AFLP marker combinations were used to monitor the genetic diversity of the populations for the background selection.The B3C2 population of 51 clones was finally selected,of which the frequency of resistant genotypes increased by 23.8% points and the genetic diversity was maintained by about 96% as referred to B3C1.Our results strongly suggested that combination of the foreground selection for target traits and the background selection for the genetic diversity is an efficient strategy in the recurrent selection of tetraploid potato to improve quantitative traits.
文摘In the years 2008-2010, an experiment was conducted Phytophthora infestans under organic and conventional production on four potato cultivars differing in maturity and resistance to systems. During the growing season, plant growth was evaluated by measuring plant height, stem number, leaf and stem biomass and leaf area index (LAI). Photosynthetic active radiation (PAR) absorption and leaf chlorophyll content were also measured. The rate of late blight development, tuber yield, tuber size, and harvest index was assessed. There were significant differences between the two production systems in the most studied parameters. Plants growing in the organic system were characterized by reduced plant development compared to plants growing in the conventional system. As a result of lower plant growth, tuber yield was reduced by 22% and tuber size was smaller. Harvest index did not differ significantly between production systems. A positive effect of the reduced development of aboveground plant parts in the organic system was later appearance of the first symptoms of late blight and slower spread the disease.
文摘Thirteen promising clones from population B3C2 potato genotypes (bred for quantitative resistance to late blight) obtained from the International Potato Center and three control cultivars were evaluated for four planting dates within two cropping seasons at Kalengyere Research Station in Southwestern Uganda in order to determine performance and yield stability. The analysis of variance of the relative area under disease progress curve (rAUDPC) revealed significant difference (P 〈 0.001) among genotype x planting date interaction, and significant difference (P 〈 0.001) among genotypes x fungicide treatments x planting date interaction. The analysis of variance (ANOVA) of yield revealed also significant difference among genotypes x planting date interaction and significant difference (P 〈 0.05) among genotypes x fungicide treatments x planting date interaction, showing the variable response of genotypes and the need for stability analysis. The additive main effects and multiplicative interactive (AMMI) statistical model showed that the most stable and high yielding genotypes were 396038.107, 396026.103 and 393280.82. The cultivars Victoria, Nakpot 5 and Cruza recorded low yields (below the average), but Nakpot 5 was generally more variable, and is therefore highly adaptable to some environments.
文摘The objective of the present study was to evaluate the resistance of 10 accessions to P. infestans, by in-vitro inoculation of detached leaflets with a complex isolation of the fungus. Late blight, caused by the fungus Phytophthora infestans Mont. De Bary, is one of the most important diseases of the potato crop, and can destroy complete plantations in a short space of time. Chile is considered as a sub-centre of the origin of cultivated potatoes with many native potato varieties in the country. The different resistance components demonstrated that within the material of Chilean native Solanum, there was a wide range of variation to late blight. The resistant control (R-8906384) and the accessions UCT-34-Cor presented the lowest infection efficiency, small sizes of the lesions and low levels of sporulation classifying them as the most resistant. This suggests low efficiency of the infection and high resistance to penetration in these materials. The more susceptible accessions often presented a good level of resistance for one or few components. It would be of great interest to go into the genetic control of the different resistance components to know if the same level of resistance expressed for a component by different accessions is under the same genetic control or not.
文摘Late blight caused by <i>Phytophthora</i> <i>infestans</i> (Mont.) De Bary is the most devastating disease of potato. This study was carried out to evaluate the efficacy of ten botanical extracts against the late blight disease incidence and severity in experimental potato field at University of Rajshahi, Bangladesh during 2019-2020. Crude aqueous extract of leaves of <i>Syzygium</i> <i>cumini</i>, <i>Psidium</i> <i>guajava</i>, <i>Eucalyptus</i> <i>globusus</i>, <i>Carica</i> <i>papaya</i> and <i>Lawsonia</i> <i>inermis</i>;fruits of <i>Terminalia</i> <i>bellirica</i>, <i>T.</i> <i>chebula</i> and <i>Piper</i> <i>nigrum</i>;flower buds of <i>Syzygium</i> <i>aromaticum</i> and cloves of <i>Allium</i> <i>sativum</i> were used at 5% (w/v) concentration for evaluation. Out of ten botanicals, <i>Syzygium</i> <i>cumini</i> leaves extract was found most effective in controlling the late blight disease incidence and severity up to 66 DAS (days after sowing) and increased the potato yield by 71.29% compare to untreated control. The efficacy of <i>Lawsonia</i> <i>inermis</i> extract against late blight disease was found promising and increased the potato yield by 48.51%. Other four botanical extracts (<i>Terminalia</i> <i>chebula</i>, <i>Piper</i> <i>nigrum</i>, <i>Syzygium</i> <i>aromaticum</i> and <i>Carica</i> <i>papaya</i>) showed moderate efficacy <span>against the incidence and severity of late blight disease, and increased 30% </span>more potato yield compare to control. These results suggest that botanical extract of <i>Syzygium</i> <i>cumini</i> ha<span style="font-family:;" "="">s</span><span style="font-family:;" "=""> a great potential as an alternative </span><span style="font-family:;" "="">of</span><span style="font-family:;" "=""> chemical fungicides to control the late blight disease of potato in</span><span style="font-family:;" "=""> </span><span style="font-family:;" "="">eco-friendly way.</span>
文摘The potato crop in Peru is the main income and food source for the smallholder of the highland grower of the Peruvian Andes.For urban population,it represents one of the main components of the food basket and for commercial intermediaries.It is the main brokerage product considering its volume and value.To facilitate the adoption and diffusion of new potato cultivars after its release,adequate methodologies are necessary to apply during the process of evaluation and selection.One of these methodologies is called participatory varietal selection(PVS).The objective of this study was to identify new potato cultivars and/or genotypes with resistance or tolerance to adverse effects of climate change applying PVS,in order to obtain new varieties with acceptable economic yields.In this way potato growers of the Peruvian highland Andes should benefit through the improvement of their economic status,food security and overall life quality.During 2016-2017,three potato clones(CIP393079.4,CIP387096.2 and CIP396034.268)and two commercial varieties(Unica,Canchan)were evaluated at eight Peruvian locations in three regions(Huánuco,Junín and Huancavelica).Data were analyzed using a randomized complete block design,with three replications.Main criteria for selection were late blight resistance,abundant foliage,drought tolerance,yield and uniform and healthy tubers.In all three regions the three best clones selected were CIP396034.268,CIP393079.4 and CIP387096.2,ranking in first,second and third place,respectively.Men and women selected the same clones,but in a different order.Commercial cultivars ranked 4th and 5th.However,local growers selected Canchan,CIP387096.2 and CIP393079.4 based on appearance,texture and taste tests.The last two clones(CIP387096.2 and CIP393079.4)should be considered for a future release.
基金Supported by the Science and Technology Pilot Project of Xinjiang Academy of Agricultural Reclamation Science(50YYD201610)
文摘[Objectives] The research aimed to investigate the genetic rule of the disease resistance of tomato CLN2037,find molecular markers linked with disease-resistant genes and locate the disease-resistant genes. [Methods] BCr,BCs and F2 were constructed from tomato CLN2037 and susceptible cultivar T2-03,and their resistance to late blight was identified and analyzed by inoculating the disease in the seedling stage of tomatoes. The genetic linkage analysis was made based on the genetic linkage map constructed by ICu GI using group segregation method and 90 pairs of tomato SSR primers. [Results]The resistance of CLN2037 to late blight was controlled by a single recessive gene. The polymorphic bands amplified by primer DM0231 had a linkage relationship with resistance genes. The size of the polymorphism fragment was 226 bp with the genetic linkage distance of 2. 67 c M,and the disease resistance gene was localized on CCPB272-03741.[Conclusions]DM0231 could be used as a molecular marker for molecular breeding of tomato against late blight,which laid the foundation for further fine localization of late blight resistance genes.
文摘Potato late blight, caused by the oomycete Phytophthora infestans, is one of the most devastating diseases in the agricultural sector around the world. Many genes (R genes) conferring resistance to late blight have been identified in various potato species and most of these R genes have been used in potato breeding. The aim of this study was to develop and validate PCR-based assays for the R genes Rpi-blb1, Rpi-blb2, Rpi-blb3 and Rpi-bt1, to distinguish between late blight resistant and late blight susceptible potato progeny in the given breeding background. A total of 100 breeding progeny were screened for the presence of these R genes and tested for resistance against P. infestans mating type A2, genotype US-8 strain, using detached leaf and tuber rot assays. PCR products for the Rpi-blb1 and Rpi-bt1 resistance genes were identified in the resistant progeny but were absent in the susceptible ones;therefore these PCR assays could differentiate between late blight resistant and susceptible plants. Genotypic data from the DNA markers derived from the Rpi-blb1 and Rpi-bt1 genes was found to correlate with the phenotypic data for foliar late blight but not with data for tuber rot. Our results demonstrate that markers derived from these two R genes could be useful for marker-assisted selection (MAS) for foliar late blight resistance in potato breeding programs.
文摘Late blight (LB), caused by the oomycete Phytophthora infestans, is one of the most devastating diseases of tomato. Three major genes Ph-1, Ph-2 and Ph-3 conferring resistance to LB have been identified and mapped to the chromosomes 7, 10 and 9, respectively. However, PCR-based molecular markers associated with these genes are limited. Molecular markers are extremely useful in the screening and selection of tomato lines for the development of LB resistant genotypes. The objective of this study was to identify molecular markers associated with Ph-3 gene conferring LB resistance in tomato. Four co-dominant markers were found to be associated with Ph-3, all of which were sequence characterized amplified region (SCAR) type. Breeding lines and cultivars were inoculated with a field isolate of Phytophthora infestans to collect phenotypic data on disease resistance. Genotypic data from molecular markers associated with Ph-3 were in close agreement with the phenotypic data for the lines tested. With the verification of genotypic data from novel molecular markers in known genotypes supported by phenotypic data, the novel molecular markers may be useful in screening tomato populations aiming to develop LB resistant genotypes or cloning the LB resistant genes.
文摘Phurejas potatoes (Solanum phureja Juz et Buk) are cultivated in very restricted areas of the Bolivian Andes. Late blight caused by Phytophthora infestans is a destructive, endemic disease that affects the survival and cultivation of this crop. The aim of this study was to determine the resistance characteristics of phurejas potato varieties to P. infestans in a traditional area of cultivation. An experimental plot was prepared in the locality of Chojchoni (3200 m) and planted with different phurejas varieties: 1) Chojllu Phureja (Sste);2) Phureja Amarilla (Sphu);3) Polo Phureja (Sphu);4) Phureja Roja (Sphu);5) Phureja Negra (Sphu) and 6) Waych’a Pacena (Sadg), a susceptible control. Severity was assessed according to the criteria of the Centro Internacional dela Papa, determining the area under the disease progress curve (AUDPC). Regression analysis (logN disease severity against time) was performed using the logistic model [ln(y/1 - y)] to determine infection rates. The different varieties showed different levels of resistance. The disease progress curve, the AUDPC and the linear regression results revealed the varieties Chojllu Phureja, Phureja Amarilla and Polo Phureja to likely have larger copy numbers of minor resistance genes against P. infestans than Phureja Roja or Phureja Negra. Late blight caused by P. infestans could cause the long-term loss of some phurejas varieties through farmers selecting others less severely affected by the disease.
基金supported by the National Natural Science Foundation of China(NSFC)(32488302 and 32130088)Science and Technology Plan Projects in Inner Mongolia Autonomous Region(2024KJHZ0005)to S.D.+4 种基金the Natural Science Foundation of Jiangsu Province(BK20240086)NSFC(831003)Jiangsu Specially-Appointed Professor Fund(840006)to L.K.the Open subject program fund from State Key Laboratory for Biology of Plant Diseases and Insect Pests(SKLOF202310)the Foundation of China Postdoctoral Science(GZC20231131)to F.Z.。
文摘Late blight,caused by the oomycete plant pathogen Phytophthora infestans,is a destructive disease that leads to significant yield loss in potatoes and tomatoes.The introgression of disease resistance(R)genes,which encode nucleotide-binding domain leucine-rich repeat-containing receptors(NLRs),into cultivated potatoes,is highly effective in controlling late blight.Here,we generated transgenic 2R and 3R potato lines by stacking R genes Rpi-blb2/Rpi-vnt1.1and Rpi-vnt1.1/RB/R8,respectively,in the susceptible cv.Desiree background.The resulting 2R and3R transgenic potato plants showed resistance to highly virulent P.infestans field isolates.We hypothesized that stacking R genes either resulted in up-regulation of a broader range of immune-related genes,or,more importantly,increase in the fold change of gene expression.To test our hypotheses,we performed transcriptome analysis and identified a subset of core immune-related genes that are induced in response to P.infestans in transgenic lines carrying single R genes versus lines carrying stacks of multiple R genes.In our analysis,stacking R genes resulted not only in the induction of a broader range of defense-associated genes but also a global increase in gene expression fold change,caused by the pathogen.We further demonstrated that the calcium-dependent protein kinase 16(StCDPK16)gene significantly contributed to resistance to a virulent P.infestans strain,in the R gene background,in a kinase activity-dependent manner.Thus,our data suggest that stacking the R genes enhances late blight resistance through modulating the expression of a broader range of defense-related genes and highlights StCDPK16 as a novel player in potato R gene-mediated resistance.
文摘Plant pathogens deliver effector proteins that alter host processes to create an environment conducive to colonization. Attention has focused on identifying the targets of effectors and how their manipulation facil- itates disease. RXLR effector Pi04089 from the potato blight pathogen Phytophthora infestans accumu- lates in the host nucleus and enhances colonization when transiently expressed in planta. Its nuclear local- ization is required for enhanced P. infestans colonization. Pi04089 interacts in yeast and in planta with a putative potato K-homology (KH) RNA-binding protein, StKRBPI. Co-localization of Pi04089 and StKRBP1, and bimolecular fluorescence complementation between them, indicate they associate at nuclear speckles. StKRBP1 protein levels increased when it was co-expressed with Pi04089. Indeed, such accumu- lation of StKRBP1 was observed also on the first day of leaf colonization by the pathogen. Remarkably, overexpression of StKRBP1 significantly enhances P. infestans infection. Mutation of the nucleotide- binding motif GxxG to GDDG in all three KH domains of StKRBP1 abolishes its interaction with Pi04089, its localization to nuclear speckles, and its increased accumulation when co-expressed with the effector. Moreover, the mutant StKRBP1 protein no longer enhances leaf colonization by P. infestans, implying that nucleotide binding is likely required for this activity. We thus argue that StKRBP1 can be regarded as a sus- ceptibility factor, as its activity is beneficial to the pathogen.
基金financed by Biotechnology and Biological Sciences Research Council(BBSRC,UK)grants BB/P021646/1,BB/S018832/1,and BB/M017834/1and the GatsbyCharitableFoundation(Coregrant to TSL).
文摘Species of the genus Phytophthora,the plant killer,cause disease and reduce yields in many crop plants.Although many Resistance to Phytophthora infestans(Rpi)genes effective against potato late blight have been cloned,few have been cloned against other Phytophthora species.Most Rpi genes encode nucleotide-binding domain,leucine-rich repeat-containing(NLR)immune receptor proteins that recognize RXLR(Arg-X-Leu-Arg)effectors.However,whether NLR proteins can recognize RXLR effectors from multiple Phytophthora species has rarely been investigated.Here,we identified a new RXLR-WY effector AVRamr3 from P.infestans that is recognized by Rpi-amr3 from a wild Solanaceae species Solanum americanum.Rpi-amr3 associates with AVRamr3 in planta.AVRamr3 is broadly conserved in many different Phytophthora species,and the recognition of AVRamr3 homologs by Rpi-amr3 activates resistance against multiple Phytophthora pathogens,including the tobacco black shank disease and cacao black pod disease pathogens P.parasitica and P.palmivora.Rpi-amr3 is thus the first characterized resistance gene that acts against P.parasitica or P.palmivora.These findings suggest a novel path to redeploy known R genes against different important plant pathogens.
基金This research was supported by the Natural Science Foundation of China(31671965)the project of Key Laboratory of Agricultural Internet of Things,Ministry of Agriculture,China(2017001).
文摘Potato late blight,which is caused by Phytophthorainfestans(Mont.)de Bary,is a worldwide devastating disease for potato.It decreased yields of potato and caused unpredictable losses all over the world.Various simple statistical methods and forecasting models have been developed to predict and manage potato late blight.Meanwhile,there is a rising need to develop prediction models reflecting peroxidase(POD)activity,which is an important health index that varies with infection and correlated with stress resistance in plants.Thus,the aim of this research was to develop kinetic models to predict POD activity.Infection-induced changes in potato leaves stored in an artificial climate chest at 25°C were analyzed using hyperspectroscopy.Four prediction models were developed by using linear partial least squares(PLS)and nonlinear support vector machine(SVM)methods based on the full spectrum and effective wavelengths.The effective wavelengths were selected by the successive projection algorithm(SPA).In this study,the prediction model developed by means of SPA-SVM method obtained the best performance,with a Rp(correlation coefficient of prediction)value of 0.923 and a RMSEp(root mean square error of prediction)value of 24.326.Five-order kinetics models according to the prediction model were developed,and late blight disease can be predicted using this model.This study provided a theoretical basis for the prediction of latencies of late blight.
基金Project partly supported by the Molecular Biology Laboratory of CPRO-DLO in Netherlands.
文摘Using harpin protein gene from apple fire blight pathogen Erwinia amylavora and potato prp1-1 promoter as main DNA elements, the feasibility of using pathogen infection-induced hypersensitive response was explored as a new strategy of engineering fungal disease resistance. Three plant transformation vectors were constructed and 68 transgenic potato plants were produced through Agrobacterium mediated transformation method. Southern, Northern and Western blot analysis demonstrated the insertion, transcription and protein expression of harpin protein gene in transgenic plants. Disease resistance test using a complex race of Phytophthora infestans as challenging pathogen showed that both constitutive and pathogen infection-induced expression of harpin protein gene in transgenic potato reduced the lesion growth rate of fungus. Among plants where harpin protein gene expression was induced only by fungus infection, two plants were found to be highly resistant to P. infestans infection. Fungal hyphae were not produced on total of 30 inoculated leaves from the two resistant plants and necrotic lesion was limited to inoculation area. The results highlighted that engineered hypersensitive response in plants was a very promising approach to produce fungal disease resistant genotype.
文摘To engineer crop disease resistance by utilizing natural defense mechanism that was expressed in the incompatible host-pathogen interactions is expected to result in a durable and broad-spectrum resistance. In order to prove this viewpoint, we amplified the coding region of the glucose oxidase (GO) gene from Aspergillus nigervia PCR and fused it to the pathogen-inducible promoter, Prp1-1. The chimeric gene was cloned into a plant expression vector and conjugated into Agrobacterium. Twenty-three transgenic potato plants were obtained by Agrobacterium-mediated transformation. The integration of GO gene was confirmed by Southern hybridization and the GO gene expression was identified with Kl-starch color reaction. Phytophthora infestans inoculation revealed that the expression of the chimeric transgene was induced by pathogen infection. Most of the transgenic plants exhibited various degrees of enhanced disease resistance. Four of them had lesion sizes reduced to less than half of the non-transgenic
基金supported by the Governmental Program "Development of potato breeding and seed production in Russian Federation" (Block 8, project "Monitoring and study of a potato late blight in Russia: mapping of regions by the threat of possible epidemics and the costs of protective fungicide treatments")
文摘Late blight is one of the most important potato diseases. To minimize yield losses, various protective measures are used including fungicide application. Active use of fungicides results in a contamination of the environment. Therefore, crop protection strategies optimizing the number of treatments are of great interest.Using information about late blight development in an experimental potato field recorded over 30 seasons, a simulator to forecast yield losses caused by the disease was developed based on the number of 5-d periods favorable for reinfection of plants during a vegetation season. The simulator was successfully verified using independent data on the disease development from nine unprotected potato fields in the Netherlands and Germany. The average difference between the calculated and real yield losses did not exceed 5%. Using the simulator and weather data for a period of 2007–2017, yield losses were calculated for several areas of the Bryansk, Tambov, and Orenburg Regions of Russia. The results revealed differences in disease development between these regions and may be used to develop recommendations for a frequency of fungicide applications according to the regional risk of epidemics, leading to a significant reduction in fungicide use.
