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1.
This paper describes a comparison study of test methods and supports the use of real‐time polymerase chain reaction (PCR) for the detection of Clavibacter michiganensis subsp. sepedonicus and Ralstonia solanacearum in potato tubers in routine testing. These 2 bacteria are quarantine organisms under European Union (EU) regulatory control and testing for (latent) infections of these bacteria in seed potatoes is mandatory. Real‐time PCR tests were performed on 276 routine potato tuber samples, including samples infected with either C. michiganensis subsp. sepedonicus or R. solanacearum, and the performance of these real‐time PCR tests was compared with that of immunofluorescence (IF). Real‐time PCR tests, using different primer sets and extraction and PCR protocols, proved to be sensitive and specific for the detection of C. michiganensis subsp. sepedonicus and R. solanacearum in potato tubers in routine testing, and performed at least as well as IF. Real‐time PCR is a good addition to the detection protocols as laid down in EU regulations (EU Council Directives 2006/56/EC and 2006/63/EC).  相似文献   

2.
A new DNA extraction method and a new multiplex real‐time TaqMan PCR test for detection of Ralstonia solanacearum, Ralstonia pseudosolanacearum and Clavibacter michiganensis subsp. sepedonicus in asymptomatic potato tubers are presented. This new multiplex PCR and three published TaqMan PCRs for detection of R. solanacearum and/or R. pseudosolanacearum and/or R. syzygii spp. and/or C. michiganensis subsp. sepedonicus were validated using linear regression analysis for estimating the Ct values and its variation at 5 × 103 bacteria mL?1. The three published PCRs that have been validated are Massart et al. (2014, detecting R. solanacearum and C. michiganensis subsp. sepedonicus), Weller et al. (1999, detecting R. solanacearum, R. pseudosolanacearum and R. syzygii spp.) and Gudmestad et al. (2009, detecting C. michiganensis subsp. sepedonicus). All tested PCRs were fit for purpose for their target organisms. The PCR tests have different target genes, allowing one of the sets to be used as first screening test and another as second screening test for the detection of R. solanacearum and/or R. pseudosolanacearum and/or C. michiganensis subsp. sepedonicus in asymptomatic potato tubers.  相似文献   

3.
In the European Union (EU) potato production is surveyed for Clavibacter michiganensis subsp. sepedonicus (potato ring rot) and Ralstonia solanacearum (potato brown rot) under Commission Directives 93/85/EEC with its amendment 2006/56/EC and 98/57/EEC with its amendment 2006/63/EC. A regular update of the Directives is required in view of developments in understanding of the biology of these organisms and the diagnostics recommended for their detection and identification. Three inter‐laboratory tests (ILT1, ILT2 and ILT3) were performed from 2009 to 2012 as part of a Euphresco Phytosanitary ERA‐NET project to assess performance of current official methods for C. michiganensis subsp. sepedonicus and R. solanacearum. A major aim of the ILTs was to generate data on the performance of real‐time PCR protocols to support their introduction as primary (core) screening tests for both pathogens. In ILT1, 29 laboratories from 23 countries participated, in ILT2, 23 laboratories from 18 countries and in ILT3 42 laboratories from 24 countries. Relative accuracies for real‐time PCR tests averaged 92% for R. solanacearum and 96% for C. michiganensis subsp. sepedonicus) and compared with existing primary (core) screening tests (immunofluorescence, conventional PCR, semi‐selective plating and bioassay) in terms of analytical sensitivity, analytical specificity and robustness. It was concluded that all methods tested, including real‐time PCR, can be considered as equivalent. Therefore TaqMan ® real‐time PCR is recommended for inclusion in EU Directives and EPPO Standards as a reliable primary (core) screening method.  相似文献   

4.
Monilinia fructicola was until very recently a regulated pest in the European Union, and EU countries were requested to monitor its presence on their territories. As accredited laboratories should use validated tests, the mycological laboratory of CRA‐PAV carried out a validation process for the multiplex based PCR test (Coté et al., 2004 ), that is one of the most widely used tests for the identification of M. fructicola, although this test is not described in the EPPO diagnostic protocol PM 7/18 (2) because the validation data were lacking. The performance characteristics of this multiplex PCR test were established according to the EPPO Standard PM 7/98 (1) and the test was compared in a collaborative study with the end point PCR test (Ioos & Frey, 2000 ), considered as the ‘standard test’. The validation data were obtained using different isolates of M. fructicola, M. laxa, M. fructigena and Monilia polystroma, as well as different fruit tissues. Four series of the DNA target at different concentration, repeated three times, were analyzed in four Italian laboratories. The results showed that the multiplex PCR detection test (Coté et al., 2004 ) was fit for diagnostic purpose, although the analytical sensitivity was significantly lower compared to the conventional PCR ‘standard test’.  相似文献   

5.
Since 2011, the outbreaks of brown rot caused by Ralstonia solanacearum race 3, biovar 2, phylotype IIB-1 (R3/B2/PIIB-1) have significantly compromised potato production in Serbia. During 6 years of monitoring (2013–2018) among 3,524 potato tuber samples, 344 were found positive for brown rot disease. R. solanacearum R3/B2/PIIB-1 was isolated from seven cultivars among 12 monitored, and in five localities among 17 monitored. Cultivar Lady Claire was found to have the highest disease frequency (31.98%). A total of 78 isolates were identified by R. solanacearum-specific primer pairs (PS-1/PS-2 and OLI-1/Y-2), as well as the following tests: restriction fragment length polymorphism analysis, biovar determination, immunofluorescence, biochemical analysis, and pathogenicity. The genetic composition of 36 selected isolates assessed using multilocus sequence analysis with seven genes (adk, gapA, gdhA, gyrB, ppsA, hrpB, and fliC) showed that all isolates originating from Serbian potato were homogeneous. By using the TCS algorithm of concatenated sequences to get insight into the phylogeography of isolates and other R. solanacearum strains deposited in the NCBI database, we showed that their origin is undetermined. Peroxidase (POD) activity was measured in brown rotted potato tubers. A positive correlation was found between POD activity and disease severity rated on the analysed tubers. In general, POD activity increased by 2–22 times in vascular necrotic tissues compared to non-necrotic ones, and depended on disease severity but not on cultivar. Native polyacrylamide gel electrophoresis analysis of POD profiles resulted in a total of 10 distinct POD isoforms, of which PODs 3–5 were highly intensified in response to R. solanacearum.  相似文献   

6.
A survey of entomopathogenic nematodes was conducted in Damascus countryside from January 2011 to December 2013. Soil samples were tested for the presence of steinernematid and heterorhabditid nematodes by baiting with Galleria mellonella larvae. Of the 189 soil samples studied 17 were positive for entomopathogenic nematodes (9%), with 11 of these positive samples (65%) containing Heterorhabditis and 6 (35%) Steinernema isolates. Morphological studies were carried out to characterize eight isolates. The Heterorhabditis isolates collected in Syria were identified as Heterorhabditis zealandica (Poinar, 1990), Heterorhabditis indica (Poinar et al., 1992) and Heterorhabditis bacteriophora (Poinar, 1990). Heterorhabditis zealandica was isolated from 4 sites. Heterorhabditis indica and H. bacteriophora were isolated from two sites each. Entomopathogenic nematodes were mainly found in stone fruit orchards and apple orchards but also in citrus groves, vineyards, and walnut orchards.  相似文献   

7.
Common scab of potato tubers caused by pathogenic Streptomyces spp. is a cause of serious economic loss worldwide. For the rapid and accurate quantification of pathogenic Streptomyces spp. residing in soil, a new competitive real‐time PCR method using fluorescent quenching‐based probes (quantitative competitive quenching probe PCR: QCQP‐PCR) was developed. The virulence gene of pathogenic Streptomyces spp., nec1, was selected as the target for QCQP‐PCR. A specific primer set to amplify the nec1 gene, and a fluorescently labelled probe that specifically hybridizes with the nec1 amplicon were designed. For QCQP‐PCR, an internal standard DNA (IS DNA) that is identical to the nec1 amplicon but has a 4‐base mismatch in the probe‐hybridizing region, and a fluorescently labelled probe IS, which specifically hybridizes with IS DNA at the mutagenized region, were PCR‐synthesized. The target nec1 gene was co‐amplified with the known copy number of IS DNA by PCR using the same primer set in the presence of the specific probes. The PCR products were monitored in real‐time by measuring the fluorescence intensity (quenching) of each probe. The initial amount of the nec1 gene was quantified based on the ratio of the PCR products of the same PCR cycle. The results revealed that QCQP‐PCR could be used to precisely quantify the nec1 gene, even in the presence of PCR inhibitors in the soil samples examined. The lower limit of quantification was 20 copies per tube, which corresponded to 1500 copies per g dry soil. The quantification achieved by this method was completed within 5 h, i.e. the duration of the entire analysis. These results demonstrate the usefulness of the present method for monitoring pathogenic Streptomyces species in soil.  相似文献   

8.
A sensitive real‐time polymerase chain reaction (PCR) assay was developed for the quantification of Phytophthora infestans, the cause of foliar and tuber late blight in potato. A primer pair (PinfTQF/PinfTQR) and a fluorogenic probe (PinfTQPR) were designed to perform a quantitative assay for the detection of P. infestans in leaves, tubers and soils. The assay was shown to be specific to P. infestans and the very closely taxonomically related non‐potato pathogen species P. mirabilis, P. phaseoli and P. ipomoea, but did not detect the potato pathogens P. erythroseptica and P. nicotianae. The assay was able to reliably detect P. infestans DNA at 100 fg per reaction and was effective in quantifying P. infestans in infected leaf tissue from 24 h after inoculation and also in infected symptomless tubers and diseased tubers. Attempts to detect oospores of P. infestans in naturally and artificially infested soil samples are described and compared with baiting tests and previous literature. It was not possible to detect oospores in soil samples due to problems with DNA extraction from the oospores themselves. However, the assay was shown to detect even very low levels of asexual inoculum (sporangia and mycelium) in soil. This work assembles all the necessary features of a quantitative P. infestans assay, which have previously been somewhat disparate: the sensitivity, specificity and quantitation are fully validated, the assay is shown to work in common applications in leaf and tuber tissue and the problems with P. infestans oospore detection are explored and tested experimentally.  相似文献   

9.
Ralstonia solanacearum causes bacterial wilt disease in Solanaceae spp. Expression of the Phytophthora inhibitor protease 1 (PIP1) gene, which encodes a papain‐like extracellular cysteine protease, is induced in R. solanacearum‐inoculated stem tissues of quantitatively resistant tomato cultivar LS‐89, but not in susceptible cultivar Ponderosa. Phytophthora inhibitor protease 1 is closely related to Rcr3, which is required for the Cf‐2‐mediated hypersensitive response (HR) to the leaf mould fungus Cladosporium fulvum and manifestation of HR cell death. However, up‐regulation of PIP1 in R. solanacearum‐inoculated LS‐89 stems was not accompanied by visible HR cell death. Nevertheless, upon electron microscopic examination of inoculated stem tissues of resistant cultivar LS‐89, several aggregated materials associated with HR cell death were observed in xylem parenchyma and pith cells surrounding xylem vessels. In addition, the accumulation of electron‐dense substances was observed within the xylem vessel lumen of inoculated stems. Moreover, when the leaves of LS‐89 or Ponderosa were infiltrated with 106 cells mL?1 R. solanacearum, cell death appeared in LS‐89 at 18 and 24 h after infiltration. The proliferation of bacteria in the infiltrated leaf tissues of LS‐89 was suppressed to approximately 10–30% of that in Ponderosa, and expression of the defence‐related gene PR‐2 and HR marker gene hsr203J was induced in the infiltrated tissues. These results indicated that the response of LS‐89 is a true HR, and induction of vascular HR in xylem parenchyma and pith cells surrounding xylem vessels seems to be associated with quantitative resistance of LS‐89 to R. solanacearum.  相似文献   

10.
Bean anthracnose is a seedborne disease of common bean (Phaseolus vulgaris) caused by the fungal pathogen Colletotrichum lindemuthianum. Using seed that did not test positive for the pathogen has been proven to be an effective strategy for bean anthracnose control. To quantify the extent of anthracnose seed infection, a real‐time PCR‐based diagnostic assay was developed for detecting C. lindemuthianum in seeds of the commercial bean class navy bean. The ribosomal DNA (rDNA) region consisting of part of the18S rDNA, 5.8S rDNA, internal transcribed spacers (ITS) 1, 2 and part of the 28S rDNA of seven races of C. lindemuthianum, 21 isolates of Colletotrichum species and nine other bean pathogens were sequenced with the universal primer set ITS5/ITS4. Based on the aligned sequence matrix, one primer set and a probe were designed for a SYBR Green dye assay and a TaqMan MGB (minor groove binder) assay. The primer set was demonstrated to be specific for C. lindemuthianum and showed a high sensitivity for the target pathogen. The detection limit of both assays was 5 fg of C. lindemuthianum genomic DNA. To explore the correlation between the lesion area and the DNA amount of C. lindemuthianum in bean seed, seeds of the navy bean cultivar Navigator with lesions of different sizes, as well as symptomless seeds, were used in both real‐time PCR assays.  相似文献   

11.
Three different versions of the conventional PCR described by Bulman & Marshall ( 1997 ) for the identification of cysts and juveniles of Globodera pallida and G. rostochiensis were compared: the original Bulman & Marshall, Bulman & Marshall as described in EPPO PM 7/40 (2) and an in‐house modified version of the Dutch National Plant Protection Organization (NPPO‐NL). The versions differ from each other in thermocycler conditions and primer sequences. Two different polymerases (Invitrogen and Roche) were assessed using the different test versions, and performance criteria analytical sensitivity and analytical specificity were determined. Roche‐based reaction mixes had the highest amplicon yield and were used for further comparison of the different test versions. The different test versions performed equally well in terms of analytical specificity. No false positive or false negative results were observed. The test version NPPO‐NL proved to be the most sensitive test version with a limit of detection of 1 juvenile for both G. pallida and G. rostochiensis.  相似文献   

12.
A test performance study (TPS) was organized in 2018 with ten official testing laboratories to evaluate the performance of different real-time PCR tests for the detection of Clavibacter sepedonicus and/or Ralstonia solanacearum in potato tubers. Participants were sent spiked potato extracts with low (0.8–1.2 × 104 cfu mL-1), medium (1.6–2.4 × 105 cfu mL-1) and high (1.6–2.4 × 107 cfu mL-1) bacterial loads, DNA extracts thereof and heel-end cores from symptomatic potato tubers. The four real-time PCR tests in this TPS for detection of C. sepedonicus were considered fit for purpose as principal screening methods. Two real-time PCRs in this TPS were considered fit for purpose as principal screening methods for detection of R. solanacearum. A third real-time PCR missed 23% of the DNA samples from low-level R. solanacearum spikes and is considered not fit for purpose as a principal screening method. Correct identification of spiked samples was lower when DNA extraction from the spiked samples was performed by the participating laboratories, highlighting the importance of appropriate DNA extraction protocols.  相似文献   

13.
Bacterial soft rots are a serious limitation to the production of orchids and other horticultural plants. Here, the characterization of causative bacteria isolated from Phalaenopsis orchids showing symptoms, from a commercial production site, is reported. The most commonly isolated bacteria were identified as Dickeya spp. Partial sequencing of 16S rDNA, fliC and dnaX showed diversity among the isolates and divided the isolates into two groups, with greatest similarity to previously reported undefined Dickeya lineages from orchids (UDL‐3 and UDL‐4). Two isolates (B16, S1) were sequenced using next‐generation sequencing, which has provided draft genomes of these two isolates for further studies (Ali? et al., 2015 ). Newly developed fliC‐based lineage‐specific quantitative real‐time PCR assays were used to distinguish among the lineages and to assess their relative abundances in diseased tissues. Virulence and aggressiveness comparison tests in vivo on Phalaenopsis orchids, potato plants and witloof chicory leaves indicated high virulence and extreme maceration potential of these novel Dickeya isolates, compared to a reference panel of other Dickeya spp. Pantoea cypripedii (formerly Pectobacterium cypripedii), which has previously been reported as a soft rot pathogen of orchids, was not detected, and isolates obtained from culture collections did not cause symptoms on artificially infected Phalaenopsis orchids.  相似文献   

14.
Since 1995, the Dutch potato production chain has been hit by several outbreaks of brown rot, a quarantine disease caused by Ralstonia solanacearum race 3, biovar 2. To avoid establishment of brown rot in the potato production chain and avert the consequences on potato export, the Dutch government has implemented an intensive and costly control policy. It is unknown whether this policy is cost‐effective. A bio‐economic model was developed that can be used to simulate the effect of a control policy on the epidemiology and economic consequences of brown rot in the Dutch potato production chain. Two applications of this model are presented, based on which the potential contribution of the model to cost‐effective control of brown rot is discussed.  相似文献   

15.
Ascochyta blight of field pea, caused by Didymella pinodes, Phoma medicaginis var. pinodella, Phoma koolunga and Didymella pisi, is controlled through manipulating sowing dates to avoid ascospores of D. pinodes, and by field selection and foliar fungicides. This study investigated the relationship between number of ascospores of D. pinodes at sowing and disease intensity at crop maturity. Field pea stubble infested with ascochyta blight from one site was exposed to ambient conditions at two sites, repeated in 2 years. Three batches of stubble with varying degrees of infection were exposed at one site, repeated in 3 years. Every 2 weeks, stubble samples were retrieved, wetted and placed in a wind tunnel and up to 2500 ascospores g?1 h?1 were released. Secondary inoculum, monitored using seedling field peas as trap plants in canopies arising from three sowing dates and external to field pea canopies, was greatest in early sown crops. A model was developed to calculate the effective number of ascospores using predictions from G1 blackspot manager (Salam et al., 2011b; Australasian Plant Pathology, 40 , 621–31), distance from infested stubble (Salam et al., 2011a; Australasian Plant Pathology, 40 , 640–7) and winter rainfall. Maximum disease intensity was predicted based on the calculated number of effective ascospores, soilborne inoculum and spring rainfall over two seasons. Predictions were validated in the third season with data from field trials and commercial crops. A threshold amount of ascospores of D. pinodes, 294 g?1 stubble h?1, was identified, above which disease did not increase. Below this threshold there was a linear relationship between ascospore number and maximum disease intensity.  相似文献   

16.
A previously published TaqMan PCR test for R. solanacearum race 3 biovar 2 was modified to enable both the validation of negative results and the confirmation of positive results in a closed-tube system. Negative results were validated through the use of a reaction control plasmid, designated pRB2C2, which was designed to generate a 94bp product using the same amplimers targeting the primary diagnostic 68bp sequence in R. solanacearum race 3 biovar 2 DNA. SYBR Green was included in the reaction mix to facilitate the identification of post-reaction products using melt peak analysis. The 94bp reaction control had a melt peak temperature of about 90°C, while the diagnostic target amplicon had a melt peak temperature of about 83°C; thus positive results could be easily confirmed and distinguished from the reaction control product. Addition of pRB2C2 at 100 copies per reaction had no effect on the sensitivity of the TaqMan assay for R. solanacearum race 3 biovar 2, and the modified assay successfully detected R. solanacearum race 3 biovar 2 in infected, asymptomatic tomato stems and leaves as well as in potato tubers and stems.  相似文献   

17.
The potential of Biological Soil Disinfestation (BSD) to control potato brown rot, caused by Ralstonia solanacearum race 3 biovar 2, was investigated. BSD involves the induction of anaerobic soil conditions by increasing microbial respiration through incorporation of fresh organic amendments (here: grass or potato haulms) and by reducing re-supply of oxygen by covering with airtight plastic sheets. Control treatments were left without cover and amendment, or amended without covering or covered only without amendment. The effect of BSD on survival of R. solanacearum was tested at three different scales: in 1-l glass mesocosms under laboratory conditions, in 1.2-m-diam microplots positioned in an outdoor quarantine field, and in a naturally infested commercial field. Within a few days, anaerobic conditions developed in the BSD-treated soils. In the mesocosm and microplot experiment, anaerobic conditions persisted till the end of the 4-week experimental period. In the field experiment, the period of anaerobiosis was shorter due to birds damaging the plastic cover. In all three experiments, BSD reduced soil populations of R. solanacearum significantly by 92.5% to >99.9% compared to the non-amended and uncovered control treatments. In the field experiment, BSD also resulted in a significant reduction of R. solanacearum survival in potato tubers buried at 15 or 35 cm and in the rapid decomposition of superficially buried potatoes remaining after harvesting, thus destroying an important inoculum reservoir of R. solanacearum. The treatments with grass amendment only or covering with only plastic did not result in anaerobic conditions and did not decrease R. solanacearum populations during the experimental period. PCR-DGGE analyses of 16S-rDNA from soil samples of the various treatments in the mesocosm and microplot experiments revealed that BSD hardly affected bacterial diversity but did result in clear shifts in the composition of the bacterial community. The possible implications of these shifts are discussed. It is concluded that BSD has the potential to strongly decrease soil infestation levels of R. solanacearum and to become an important element in a sustainable and effective management strategy for potato brown rot, especially in areas where the disease is endemic.  相似文献   

18.
Bacterial wilt caused by race 1 strains of Ralstonia solanacearum is endemic on tomato produced in diverse agro-ecosystems in Taiwan. Using a new BIO-PCR protocol developed in this study, R. solanacearum was detected in soil, weed, and water samples collected from eight fields with different disease histories and cropping systems located in major tomato production areas. The sensitivity of the BIO-PCR was 1.9 CFU ml−1 and 17 CFU g−1 of soil for pure suspension and infested soil, respectively. The positive detection frequency of the BIO-PCR method was 66.6, 39.6, 23.1, and 31.8% for all tested samples of soil, weed rhizosphere soil, weed root, and water, respectively, and was higher than plating on MSM-1 medium. Detection of R. solanacearum from field soil indicated that spatial distribution of the pathogen in the field was not even regardless of the presence or absence of the disease and the different agro-ecosystems where the sampled fields were located, and the degree of unevenness was higher when tomato was absent from the field. Weed rhizosphere soils could be good sampling targets to monitor the pathogen in the field, because a higher positive detection proportion and population of R. solanacearum were found in the rhizosphere rather than the root of the collected weed samples. Symptomless weeds and contaminated irrigation, standing, or drainage waters were found to be important for the over-season survival and dissemination of R. solanacearum.  相似文献   

19.
Three nursery fields and three rootstock mother fields from commercial nurseries located in Comunidad Valenciana region (central‐eastern Spain) were surveyed in July 2011 to detect the presence and to quantify Ilyonectria spp. in the soil. In each field, ten soil samples were taken randomly with a soil probe at a depth of 10–30 cm, and 10–20 cm from the base of the plant. Three replicate subsamples (10 g each) were taken from each soil sample. DNA was extracted and a multiplex nested PCR with species‐specific primer pairs (Mac1/MaPa2, Lir1/Lir2 and Pau1/MaPa2) was used to identify the species present. Among the 180 soil DNA samples analysed, Ilyonectria spp. were detected in 172 of them. Ilyonectria macrodidyma complex was the most frequently detected, being identified in 141 samples from all the fields evaluated. However, I. liriodendri was detected in only 16 samples, but was present in all open‐root field nurseries and in two rootstock mother fields. In addition, quantitative PCR (qPCR) assays were done to assess the levels of I. liriodendri and I. macrodidyma‐complex DNA in the soil samples. Detection of Ilyonectria spp. DNA using qPCR correlated with the fields found positive with the nested multiplex PCR. DNA concentrations of Ilyonectria spp. ranged from 0·004 to 1904·8 pg μL?1. In general, samples from rootstock mother fields showed the highest DNA concentrations. The ability to detect and quantify Ilyonectria spp. genomic DNA in soil samples from nursery fields and rootstock mother fields confirms soils from both field types as important inoculum sources for black‐foot pathogens.  相似文献   

20.
The real‐time RT‐PCR protocol of Boonham and coworkers performed extremely well in a recent ring test, comparing different methods for detection of Potato spindle tuber pospiviroid (PSTVd) in several laboratories. Since, in addition, real‐time PCR technology has proved suitable for high‐throughput testing, this method was chosen as the starting point for the development of a protocol for the large‐scale testing of potato. The initial experiments focused on the specificity of the primers and probes with regard to different isolates of PSTVd and other (pospi‐) viroids. Further experiments were performed with leaf material from both primarily and secondarily infected plants. The parameters studied were sampling position, growing‐on temperature and bulking rate. In addition, different grinding, nucleic‐acid extraction and disinfection methods were compared. To monitor false negatives and positives, different controls were included and tested in duplex and triplex formats. The final protocol was tested using a hundred samples from the Dutch potato‐monitoring programme. The results of this pilot experiment were promising. Future plans include the development of a protocol for direct tuber testing and inter‐laboratory ring testing of the protocols.  相似文献   

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