A post-enrichment enzyme-linked immunosorbent assay (ELISA) on nitrocellulose membrane (NCM-ELISA) is described for the detection of Ralstonia solanacearum in latently infected potato tubers. The polyclonal antiserum specificity was significantly improved by adsorption with cross-reacting bacteria. The detection efficiency after enrichment was compared with those of nucleic acid spot hybridization (NASH), double-antibody-sandwich immunoassay (DAS-ELISA) and plating on modified Kelman's medium. After 48 h of incubation of the tuber extracts with modified SMSA broth at 30°C, sensitivities of post-enrichment NCM-ELISA. DAS-ELISA and NASH were similar. As few as 10cellsmL-' were detected in either inoculated or naturally infected tuber extracts. Of 255 field samples, no cross-reactivity of NCM-ELISA was observed. Post-enrichment NCM-ELISA thus provides a reliable and sensitive low-cost method that is rapid and easy to use, making it suitable for assessing susceptibility of breeding lines to bacterial wilt, ecological studies and seed quality control in developing countries.
A reliable, sensitive, low-cost and easy-to-use technique is described for the detection of Ralstonia solanacearum (the causal organism of bacterial wilt, BW) in soil. A total of 273 potato isolates belonging to five different biovars (Bv), originating from 33 countries worldwide, were tested and successfully detected by antibodies produced at the International Potato Center (CIP). Isolates of R. solanacearum belonging to Bv1 and Bv2A were successfully detected by double antibody sandwich-enzyme-linked immunosorbent assay (DAS-ELISA) at low population levels after incubation of soil suspensions for 48 h at 30 ° C in a new semiselective broth containing a potato tuber infusion. Detection thresholds of 20 and 200 CFU g − 1 inoculated soil were obtained for Bv1 and Bv2A, respectively. Sensitivity of detection of Bv2A was similar or even higher in five different inoculated soil types. No cross-reactions were obtained in DAS-ELISA after enrichment of soil suspensions (i) prepared from 23 different soils sampled in BW-free areas in six departments of Peru; and (ii) inoculated with 10 identified bacteria and 136 unknown isolates of soil microbiota isolated from eight different locations. Only the blood disease bacterium gave a low-level reaction after enrichment. In naturally infested soils, average sensitivities of 97·6 (SE 14·8) and 100·9 (SE 22·6) CFU g − 1 were obtained for biovars 1 and 2A, respectively. By making serial dilutions of the soil suspension before enrichment, densities of R. solanacearum could be determined in a semiquantitative way. Results also showed that composite samples of five soils could be analysed to assess field soil populations without reducing detection sensitivity.
The current bacterial wilt infestation level in the potato fields in the Peruvian Andes was investigated by collecting stem samples from wilted plants and detecting Ralstonia solanacearum. In total 39 farmers’ fields located in the central and northern Peru between the altitudes 2111 and 3742 m above sea level were sampled. R. solanacearum was detected in 19 fields, and in 153 out of the 358 samples analyzed. Phylogenetic analysis using the partial sequence of the endoglucanase gene on strains collected in Peru between 1966 and 2016 from potato, pepper, tomato, plantain or soil, divided the strains in phylotypes I, IIA, and IIB. The Phylotype IIB isolates formed seven sequevar groups including the previously identified sequevars 1, 2, 3, 4, and 25. In addition to this, three new sequevars of phylotype IIB were identified. Phylotype IIA isolates from Peru clustered together with reference strains previously assigned to sequevars 5, 39, 41, and 50, and additionally one new sequevar was identified. The Phylotype I strain was similar to the sequevar 18. Most of the Peruvian R. solanacearum isolates were IIB-1 strains. In the old collection sampled between 1966 and 2013, 72% were IIB-1 and in the new collection at 2016 no other strains were found. The pathogenicity of 25 isolates representing the IIA and IIB sequevar groups was tested on potato, tomato, eggplant and tobacco. All were highly aggressive on potato, but differed in pathogenicity on the other hosts, especially on tobacco. All IIA strains caused latent infection on tobacco and some strains also caused wilting, while IIB strains caused only few latent infections on this species. In conclusion, high molecular diversity was found among the R. solanacearum strains in Peru. Most of the variability was found in areas that are no longer used for potato cultivation and thus these strains do not pose a real threat for potato production in the country. Compared to the previous data from the 1990s, the incidence of bacterial wilt has decreased in Peru. The epidemics are likely caused by infected seed tubers carrying the clonal brown rot strain IIB-1.
SummaryThis paper reports results of a 3-year evaluation of CIP advanced potato clones in a bacterial wilt-infested field (race 3) in Peru. Clones resistant or moderately resistant to wilt were selected and all tubers harvested from each clone were tested for latent infection by Ralstonia solanacearum using a sensitive serological technique developed at CIP. A sampling strategy to estimate accurately the frequency of infected tubers in the clones has been evaluated. This method will allow consideration of tuber latent infection as a new selection cri(erion in breeding for resistance to bacterial wilt. Thirteen clones were found resistant to wilt in all three evaluations (i.e. <6% wilt), from which five had no wilt in all trials. However, all clones harboured latent infection in tubers averaging 30%. Analysing 30 tubers/clone provides an accurate estimation of the proportion of infected tubers with a high precision level.
SummaryA sampling strategy was evaluated in the Andean highlands of Peru to optimise the detection of Ralstonia solanacearum in seed tubers harvested from symptomless crops. A sensitive and specific serological method developed at CIP was used to detect the pathogen in latently infected tubers. Optimum sample size was evaluated for symptomless crops after analysing various numbers of composite samples and using a binomial distribution model to calcillate the detection probabilities. R. solanacearum was detected in all lots from fields with visible symptoms, so validating the detection technique. About half of the seed lots from apparently healthy fields at altitudes of up to 3,100 m were found positive for the pathogen. R. solanacearum was detected with 99% probability in samples of 350 tubers from seed lots from symptomless crops. This number of seed tubers could feasibly be processed in a seed-health test without incurring too high a cost for labour and materials.
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