Molecular and biochemical characterization of urease and survival of Yersinia enterocolitica biovar 1A in acidic pH in vitro

Background  

Yersinia enterocolitica, an important food- and water-borne enteric pathogen is represented by six biovars viz. 1A, 1B, 2, 3, 4 and 5. Despite the lack of recognized virulence determinants, some biovar 1A strains have been reported to produce disease symptoms resembling that produced by known pathogenic biovars (1B, 2-5). It is therefore imperative to identify determinants that might contribute to the pathogeniCity of Y. enterocolitica biovar 1A strains. Y. enterocolitica invariably produces urease and the role of this enzyme in the virulence of biovar 1B and biovar 4 strains has been reported recently. The objective of this work was to study genetic organization of the urease (ure) gene complex of Y. enterocolitica biovar 1A, biochemical characterization of the urease, and the survival of these strains under acidic conditions in vitro.     

Multilocus variable number tandem repeat analysis as a tool to discern genetic relationships among strains of Yersinia enterocolitica biovar 1A

Aims:  To identify variable number tandem repeat (VNTR)-containing loci, and to use multilocus VNTR (MLVA) to discern genetic relationships among strains of Yersinia enterocolitica biovar 1A isolated from diverse sources.
Methods and Results:  The whole genome sequence of Y. enterocolitica 8081 was analysed and eight VNTR loci with repeat sizes between 4 and 9 bp, and each containing more than four repeat copies were selected for MLVA typing of 88 strains of Y. enterocolitica . Of these, four loci were polymorphic and generated 26 MLVA genotypes among 81 strains of Y. enterocolitica biovar 1A. MLVA was found to be quite discriminatory (DI = 0·87). Cluster analysis and population modelling using minimum spanning tree (MST) clearly clustered Y. enterocolitica biovar 1A into two major groups.
Conclusions:  The MLVA is easy to perform and can be used to discern clonal relationship among strains of Y. enterocolitica . Also the phylogenetic relationships obtained with MLVA genotypes were in good agreement with those established by other typing methods.
Significance and Impact of the Study:  The MLVA method reported is relatively more discriminatory than the other genotyping methods and has the potential to be used as an epidemiological tool for the study of strains of Y. enterocolitica biovar 1A.     

Cloning,expression and characterization of attachment‐invasion locus protein (Ail) of Yersinia enterocolitica and its utilization in rapid detection by immunoassays

Aims: Rapid detection of pathogenic Yersinia enterocolitica isolates by using antisera raised against recombinant attachment‐invasion locus (Ail) protein. Methods and Results: The complete gene (471 bp) encoding for the Ail protein was amplified by PCR and cloned in pQE 30 UA vector. The recombinant clones were selected by polymerase chain reaction (PCR). Recombinant protein was expressed using induction with 1 mmol l^?1 final concentration of isopropylthiogalactoside (IPTG). Polyclonal antibodies were raised in mice against this purified recombinant protein. An indirect plate ELISA was standardized based on rAil protein for the detection of Y. enterocolitica. Western blot analysis with the sera raised against recombinant Ail protein exhibited reaction at 17 kDa region of the native Ail protein present in pathogenic Y. enterocolitica standard strains and strains isolated from pork samples suggesting that the antigenicity of recombinant Ail protein was similar to that of native Ail protein. Nonpathogenic Y. enterocolitica and the other species of Yersinia, namely, Y. pseudotuberculosis, Y. intermedia, Y. kristenseni, Y. fredrickseni and also the Enterobacteriaceae organisms tested were not found reacting to polyclonal antisera against this recombinant Ail protein. Conclusion: The antibodies raised against recombinant Ail protein could specifically identify pathogenic Y. enterocolitica strains both by indirect plate ELISA and Western blot immunoassay. Significance and Impact of the Study: The method developed in this study may find application in the detection of pathogenic Y. enterocolitica not only from food and environmental samples but also from clinical samples.     

Genetic relationships between clinical and non-clinical strains of <Emphasis Type="Italic">Yersinia enterocolitica</Emphasis> biovar 1A as revealed by multilocus enzyme electrophoresis and multilocus restriction typing

Background  

Genetic relationships among 81 strains of Y. enterocolitica biovar 1A isolated from clinical and non-clinical sources were discerned by multilocus enzyme electrophoresis (MLEE) and multilocus restriction typing (MLRT) using six loci each. Such studies may reveal associations between the genotypes of the strains and their sources of isolation.     

Characterization of a Yersinia enterocolitica biotype 1A strain harbouring an ail gene

Aims: The chromosomal ail gene (attachment and invasion locus) is commonly used as target gene for the detection of pathogenic Y. enterocolitica strains in food testing. The ail PCR does not detect strains of biotype 1A (BT1A), which are regarded as non‐pathogenic because BT1A strains lack the virulence plasmid and chromosomally encoded virulence genes. In some recent reports, however, BT1A strains were discovered that harboured the ail gene. We isolated an ail‐positive strain and characterized this strain with phenotypic and genotypic methods to study its possible relation to pathogenic Y. enterocolitica strains. Methods and Results: The ail region of the BT1A strain was sequenced and compared with the corresponding region of nonpathogenic BT1A strains and pathogenic strains. Pulsed field gel electrophoresis (PFGE) analysis was applied revealing no similarity of the PFGE pattern of this strain to the patterns of pathogenic strains. Virulence‐gene‐based PCR analyses showed the strain to be positive for ystB, but negative for virulence genes ystA, virF and yadA. Whole‐cell MALDI‐TOF MS combined with a shrinkage discriminant analysis approach was applied and clearly classified the ail‐positive biotype 1A strain within the cluster of BT1A strains. Conclusions: PCR detection of ail sequences in food matrices should be followed by the isolation of the responsible strain and its characterization using phenotypic or genotypic methods. Significance and Impact of the Study: The ail gene may be present in Y. enterocolitica BT1A strains, which are commonly considered as nonpathogenic. Efficient methods such as PCR typing of other virulence genes or rapid MALDI‐TOF MS‐based bacterial profiling allow a more comprehensive assessment of the pathogenicity potential of Yersinia strains.     

Specific identification of pathogenic Yersinia enterocolitica by monoclonal antibodies generated against recombinant attachment invasion locus (rAil) protein

Classical pathogenic strains of Yersinia enterocolitica produce a 17 kDa outer membrane protein, Ail (attachment-invasion locus), which mediates bacterial attachment to some cultures epithelial cell lines and invasion of others. In the present study, hybridomas were developed for the production of monoclonal antibodies (MAbs) against Ail protein of Y. enterocolitica. A set of five stabilized hybridoma cell lines were generated, of which, two MAbs, YEA 302 and YEA 303, exhibited specific reaction to the native Ail protein (17 kDa) present in whole cell lysate of Y. enterocolitica strains beside having reaction with rAil. The other three MAbs, YEA 5, 17 and 32, had some cross reactions with proteins other than Ail. Two out of five MAbs were IgG1, two were IgG2b and one in IgM in nature. MAbs (YEA 302 and YEA 303) did not show any cross-reaction with whole cell lysate of Brucella abortus, Vibrio cholerae, Salmonella typhimurium and Escherichia coli and other species of Enterobacteriaceae including Y. pestis in ELISA and Western blot analysis. The presence of Ail protein among the strains recovered from pork and milk samples was evaluated by these sets of MAbs and the results were compared with the duplex PCR. Collectively, the data suggest that these MAbs may have the potential for their use in the detection of pathogenic Y. enterocolitica reliably, rapidly and at a relatively low cost.     

Genetic structure and phylogenetic relationships of Ralstonia solanacearum strains from diverse origins in Guangdong Province,China

Bacterial wilt, caused by Ralstonia solanacearum species complex is a key yield‐limiting factor on crops in Guangdong province, China. The genetic diversity of 110 R. solanacearum strains collected from 16 host plants in different areas of Guangdong province was analysed using biovar and phylotype classification schemes. Of 110 strains, fifty‐five strains belong to biovar 3, fifty‐two strains belong to biovar 4, two strains belong to biovar 2 and one strain belonged to biovar 1. Phylotype‐specific multiplex PCR showed that 108 strains belonged to phylotype I (biovars 1, 3, 4) and two strains belonged to phylotype II (biovar 2). The result of phylogenetic relationships analysis based on egl gene sequences demonstrated that 108 strains of phylotype I were grouped into nine previously described sequevars and a new sequevar 57, and two strains of phylotype II were grouped into sequevar 1. Sequevars 15, 34 and 44 widely distributed in Guangdong were predominant sequevars. Sequevar 45 was first reported on potato and pumpkin in China. These results revealed the genetic structure and phylogenetic relationships of R. solanacearum population in Guangdong and will be helpful in bacterial wilt‐resistance breeding.     

Evaluation of isolation methods for pathogenic Yersinia enterocolitica from pig intestinal content

Aims: The aim of this study was to evaluate the efficiency of four isolation methods for the detection of pathogenic Yersinia enterocolitica from pig intestinal content. Methods and Results: The four methods comprised of 15 isolation steps using selective enrichments (irgasan–ticarcillin–potassium chlorate and modified Rappaport broth) and mildly selective enrichments at 4 or 25°C. Salmonella–Shigella‐desoxycholate–calcium chloride agar, cefsulodin–irgasan–novobiocin agar were used as plating media. The most sensitive method detected 78% (53/68) of the positive samples. Individual isolation steps using cold enrichment as the only enrichment or as a pre‐enrichment step with further selective enrichment showed the highest sensitivities (55–66%). All isolation methods resulted in high numbers of suspected colonies not confirmed as pathogenic Y. enterocolitica. Conclusions: Cold enrichment should be used in the detection of pathogenic Y. enterocolitica from pig intestinal contents. In addition, more than one parallel isolation step is needed. Significance and Impact of the Study: The study shows that depending on the isolation method used for Y. enterocolitica, the detected prevalence of Y. enterocolitica in pig intestinal contents varies greatly. More selective and sensitive isolation methods need to be developed for pathogenic Y. enterocolitica.     

Characterization of Yersinia enterocolitica 4/O:3 isolates from tonsils of Bavarian slaughter pigs

Aims: Yersinia enterocolitica 4/O:3 isolates of slaughter pigs originating from different farms were characterized to study the distribution of different genotypes at farm. A correlation between the genotypes and the resistance patterns was also examined. Methods and Results: Hundred and eighty‐seven ail‐positive Y. enterocolitica 4/O:3 isolates recovered from pigs originating from 31 Bavarian farms in 2000, 2003 and 2004 were characterized. PFGE using NotI, ApaI and XhoI enzymes revealed 31 genotypes. The most common genotype was found in 13% of the pigs. From most farms (71%), only one genotype was found. Some genotypes were found during different years. Low resistance was noted to streptomycin (9%), sulphamethoxazole (9%), amoxicillin/clavulanic acid (5%) and tetracycline (1%) by agar disc diffusion method. Conclusions: Several genotypes were found. Some genotypes were widely distributed and persisted for years. Farm‐specific genotypes may exist. No clear relation between the genotypes and antimicrobial patterns was found. Significance and Impact of the Study: This study provides data on the genetic diversity of Bavarian pig strains and antimicrobial resistance. It may be of interest for other countries where Y. enterocolitica strains are genotyped to get more information about the strain distribution of this pathogen.     

DNA identification and characterization of Campylobacter jejuni and Campylobacter coli isolated from caecal samples of chickens in Grenada

Aims: To speciate Campylobacter strains from the caeca of chickens in Grenada using PCR and to evaluate DNA‐based typing methods for the characterization of these isolates. Methods and Results: Isolates were speciated with two multiplex PCR assays and were typed with flaA‐RFLP, pulsed‐field gel electrophoresis (PFGE) and multilocus sequence typing (MLST). Results confirmed that Campylobacter coli strains were more predominant than Campylobacter jejuni strains. From 56 isolates, 18 were misidentified using biochemical tests. PFGE typing gave the highest discriminatory power among the methods used (Simpson’s index of diversity, D = 0·9061). However, the combination of flaA‐RFLP, PFGE and MLST results gave the highest discrimination for subtyping of these isolates (D = 0·9857). A band position tolerance of 4% in Bio Numerics was the most appropriate for the analysis of this database. MLST profiles were generally concordant with PFGE and/or flaA‐RFLP types. Several isolates exhibited new MLST sequence types (STs), and 43 of the 49 Camp. coli strains belonged to the ST‐828 clonal complex. Conclusions: Campylobacter coli was the most prevalent species isolated from broilers and layers in Grenada, and a combination of restriction and sequence methods was most appropriate for the typing of Camp. coli isolates. Campylobacter coli STs clustered with described poultry‐associated Camp. coli STs by phylogenetic analysis. Significance and Impact of the Study: Further studies to understand the predominance of Camp. coli within Campylobacter spp. from chickens in Grenada may help elucidate the epidemiology of these pathogens in chickens.     

Transport of haemin across the cytoplasmic membrane through a haemin-specific periplasmic binding-protein-dependent transport system in Yersinia enterocolitica

The Yersinia enterocolitica O:8 periplasmic binding-protein-dependent transport (PBT) system for haemin was cloned and characterized. It consisted of four proteins: the periplasmic haemin-binding protein HemT, the haemin permease protein HemU, the ATP-binding hydrophilic protein HemV and the putative haemin-degrading protein HemS. Y. enterocolitica strains mutated in hemU or hemV genes were unable to use haemin as an iron source whereas those mutated in the hemT gene were able to use haemin as an iron source. As Escherichia coli strains expressing only the haemin outer membrane receptor protein HemR from Y. enterocolitica were capable of using haemin as an iron source the existence of an E. coli K-12 haemin-specific PBT system is postulated. The first gene in the Y. enterocolitica haemin-specific PBT system encoded a protein, HemS, which is probably involved in the degradation of haemin in the cytoplasm. The presence of the hemS gene was necessary to prevent haemin toxicity in E. coli strains that accumulate large amounts of haemin in the cytoplasm. We propose a model of haemin utilization in Y. enterocolitica in which HemT, HemU and HemV proteins transport haemin into the cytoplasm where it is degraded by HemS thereby liberating the iron.     

Possible use of <Emphasis Type="Italic">ail</Emphasis> and <Emphasis Type="Italic">foxA</Emphasis> polymorphisms for detecting pathogenic <Emphasis Type="Italic">Yersinia enterocolitica</Emphasis>

Background  

Yersinia enterocolitica is an enteric pathogen that invades the intestinal mucosa and proliferates within the lymphoid follicles (Peyer's patches). The attachment invasion locus (ail) mediates invasion by Y. enterocolitica and confers an invasive phenotype upon non-invasive E. coli; ail is the primary virulence factor of Y. enterocolitica. The ferrioxamine receptor (foxA) located on the Y. enterocolitica chromosome, together with its transport protein, transports a siderophore specific for ferric ion. Currently, ail is the primary target gene for nucleic acid detection of pathogenic Y. enterocolitica.     

Genetic Variability of Yersinia pestis Isolates as Predicted by PCR-Based IS100 Genotyping and Analysis of Structural Genes Encoding Glycerol-3-Phosphate Dehydrogenase (glpD)

A PCR-based genotyping system that detects divergence of IS100 locations within the Yersinia pestis genome was used to characterize a large collection of isolates of different biovars and geographical origins. Using sequences derived from the glycerol-negative biovar orientalis strain CO92, a set of 27 locus-specific primers was designed to amplify fragments between the end of IS100 and its neighboring gene. Geographically diverse members of the orientalis biovar formed a homogeneous group with identical genotype with the exception of strains isolated in Indochina. In contrast, strains belonging to the glycerol-positive biovar antiqua showed a variety of fingerprinting profiles. Moreover, strains of the biovar medievalis (also glycerol positive) clustered together with the antiqua isolates originated from Southeast Asia, suggesting their close phylogenetic relationships. Interestingly, a Manchurian biovar antiqua strain Nicholisk 51 displayed a genotyping pattern typical of biovar orientalis isolates. Analysis of the glycerol pathway in Y. pestis suggested that a 93-bp deletion within the glpD gene encoding aerobic glycerol-3-phosphate dehydrogenase might account for the glycerol-negative phenotype of the orientalis biovar. The glpD gene of strain Nicholisk 51 did not possess this deletion, although it contained two nucleotide substitutions characteristic of the glpD version found exclusively in biovar orientalis strains. To account for this close relationship between biovar orientalis strains and the antiqua Nicholisk 51 isolate, we postulate that the latter represents a variant of this biovar with restored ability to ferment glycerol. The fact that such a genetic lesion might be repaired as part of the natural evolutionary process suggests the existence of genetic exchange between different Yersinia strains in nature. The relevance of this observation on the emergence of epidemic Y. pestis strains is discussed.     

Molecular modeling and docking of novel laccase from multiple serotype of Yersinia enterocolitica suggests differential and multiple substrate binding

Multi-copper oxidases (MCOs) are widely distributed in bacteria, where they are responsible for metal homeostasis, acquisition and oxidation. Using specific primers, yacK coding for MCO was amplified from different serotypes of Yersinia enterocolitica biovar 1A. Homology modeling of the protein followed by docking with five well-known substrates for different MCO’s (viz., 2,2′-azino-bis(3-ethylbenzthiazoline-6-sulphonic acid [ABTS], syringaldazine, l-tyrosine, ammonium ferrous sulfate and guaiacol), lignin monomers (Coniferyl alcohol, p-coumaryl alcohol and sinapyl alcohol) and two inhibitors i.e., kojic acid and N-hydroxyglycine was done. The docking gave maximum GoldScore i.e., 91.93 and 72.64 with ammonium ferrous sulfate and ABTS, respectively. Similarly, docking with ICM gave −82.10 and −83.61 docking score, confirming the protein to be true laccase with ferroxidase activity. Further, validation with ammonium ferrous sulfate as substrate gave laccase activity of 0.36 Units/L/min. Guaiacol, l-tyrosine, and lignin monomers showed good binding affinity with protein models with GoldScores of 35.89, 41.82, 40.41, 41.12 and 43.10, respectively. The sequence study of all the cloned Yack genes showed serotype specific clade in dendrogram. There was distinct discrimination in the ligand binding affinity of Y. enterocolitica laccase, among strains of same clonal groups, suggesting it as a tool for phylogenetic studies.     

Spontaneous binding ofYersinia enterocolitica to murine leukocytes

Twelve strains ofYersinia enterocolitica were examined for their ability to bind spontaneously to murine leukocytes. Each of eight HeLa cell invasive strains exhibited nonselective binding to peritoneal leukocytes, lymph node leukocytes, and thymocytes, whereas four noninvasive strains lacked binding properties. Like the HeLa cell invasion, the binding ofY. enterocolitica to leukocytes was much less efficient for bacteria grown at 37°C than for bacteria grown at 22°C. The binding properties were not influenced by the virulence plasmid that codes for Vwa⁺ phenotype. This leukocyte binding test is proposed as a simple assay for invasive properties ofY. enterocolitica.     

Effect of Flagellar Mutations on Yersinia enterocolitica Biofilm Formation

Yersinia enterocolitica biovar 1B is one of a number of strains pathogenic to humans in the genus Yersinia. It has three different type III secretion systems, Ysc, Ysa, and the flagella. In this study, the effect of flagella on biofilm formation was evaluated. In a panel of 31 mutant Y. enterocolitica strains, we observed that mutations that abolish the structure or rotation of the flagella greatly reduce biofilm formation when the bacteria are grown under static conditions. These results were further evaluated by assessing biofilm formation under continuous culture using a flow cell chamber. The results confirmed the important contribution of flagella to the initiation of biofilm production but indicated that there are differences in the progression of biofilm development between static growth and flow conditions. Our results suggest that flagella play a critical role in biofilm formation in Y. enterocolitica.     

Detection by using monoclonal antibodies of Yersinia enterocolitica in artificially-contaminated pork

Monoclonal antibodies against Yersinia enterocolitica were produced by fusion of NS‐1 mouse myeloma cells with spleen cells of ICR mice immunized with heat‐killed and heat‐killed plus SDS‐mercaptoethanol treated forms of Y. enterocolitica ATCC 27729 alone or mixed with Y. enterocolitica MU. The twenty‐five MAbs obtained from five fusions were divided into nine groups according to their specificities to different bacterial strains and species, as determined by dot blotting. The first five groups of MAbs were specific only to Y. enterocolitica, but did not recognize all of the isolates tested. MAbs in groups 6 and 7 reacted with all isolates of Y. enterocolitica tested but showed cross‐reaction with some Yersinia spp. and Edwardsiella tarda, especially in the case of group 7. MAbs in groups 8 and 9 reacted with all isolates of Y. enterocolitica and Yersinia spp., as well as other Gram‐negative bacteria that belong to the family Enterobacteriaceae. These MAbs recognized Y. enterocolitica antigens with apparent molecular weights ranging from 10 – 43 kDa by Western blotting, and could detect Y. enterocolitica from ～10³– 10⁵ colony forming units (CFUs) by dot blotting. The hybridoma clone YE38 was selected for detection of Y. enterocolitica in pork samples which had been artificially‐contaminated by inoculation with Y. enterocolitica ATCC 27729 at concentrations of ～10⁴– 10⁶ CFUs/g and incubation in peptone sorbitol bile broth at 4°C. Samples were collected and applied on a nitrocellulose membrane for dot blotting with trypticase soy and cefsulodin‐Irgasan‐novobiocin agars. After 48 hr of incubation, the detection limit was ～10²– 10³ CFU/g by dot blotting.     

Enterotoxin production at refrigeration temperature byYersinia enterocolitica andYersinia enterocolitica-like bacteria

Enterotoxin production after cultivation for 7 days in a refrigerator (3–6°C) was indicated for 4 of 20 strains ofYersinia enterocolitica andY. enterocolitica-like bacteria, by use of the infant mouse assay. These four strains were isolated from wild-living small mammals and water. Three of these isolates (Y. kristensenii, serogroups 11 and 28) were enterotoxigenic at 22 and 37°C as well as at refrigeration temperature. The remaining strain (Y. enterocolitica sensu stricto, serogroup 6) produced enterotoxin only at refrigeration temperature and at 22°C. The results indicate thatY. enterocolitica andY. enterocolitica-like bacteria may be capable of causing food intoxication after food storage at refrigeration temperature. A potential clinical significance of theY. enterocolitica enterotoxin in cold-blooded animals such as fish is suggested.     

Rapid identification and typing of <Emphasis Type="Italic">Yersinia pestis</Emphasis> and other <Emphasis Type="Italic">Yersinia</Emphasis> species by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry

Background  

Accurate identification is necessary to discriminate harmless environmental Yersinia species from the food-borne pathogens Yersinia enterocolitica and Yersinia pseudotuberculosis and from the group A bioterrorism plague agent Yersinia pestis. In order to circumvent the limitations of current phenotypic and PCR-based identification methods, we aimed to assess the usefulness of matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) protein profiling for accurate and rapid identification of Yersinia species. As a first step, we built a database of 39 different Yersinia strains representing 12 different Yersinia species, including 13 Y. pestis isolates representative of the Antiqua, Medievalis and Orientalis biotypes. The organisms were deposited on the MALDI-TOF plate after appropriate ethanol-based inactivation, and a protein profile was obtained within 6 minutes for each of the Yersinia species.     

Miniprimer PCR assay targeting multiple genes: a new rapid and reliable tool for genotyping Pantoea stewartii subsp. stewartii

Aim: Development of a ‘miniprimer’ PCR assay for genotyping Pantoea stewartii subsp. stewartii, the causal agent of the Stewart’s bacterial wilt on maize. Methods and Results: Four 10‐nucleotide (10‐nt) ‘miniprimer’ sets were designed and evaluated in the presence of Titanium Taq DNA polymerase. Under optimal reaction conditions, the miniprimer pair Uni‐BacF‐10/Uni‐BacR‐10 reproducibly generated identical banding patterns among 10 strains of P. stewartii subsp. stewartii, different patterns from strains of P. stewartii subsp. indologenes, other Panteoa species, Clavibacter michiganensis, Pectobacterium spp., Pseudomonas spp. and other bacterial species. The amplicons of Pantoea stewartii subsp. stewartii were cloned and sequenced to identify genes or DNA fragments that are targeted by the miniprimer PCR assay. Of the 14 ‘clone types’ identified, sequences of a 1·23‐kb fragment had a 99·8% similarity to part of the Pantoea stewartii zeaxanthin diglucoside biosynthetic operon ( AY166713 ). Other dominant cloned fragments included a 411‐bp amplicon that exhibited 99·8% similarity to the psaU gene (syn:ysaU; GQ249669 ), a type III protein‐secretion system complex of P. stewartii subsp. stewartii strain DC283, and a 548‐bp fragment showed 63% homology to the Asp/Glu racemase encoding gene in Erwinia tasmaniensis strain ET1/99. Conclusion: The miniprimer PCR assay reported here is highly discriminatory and reproducible in genotyping Pantoea stewartii subsp. stewartii. Significance and Impact of the study: This miniprimer PCR assay could be a new reliable and rapid tool for fingerprinting the Stewart’s wilt pathogen of maize.