Genotypic diversity of lactic acid bacteria isolated from African traditional alkaline‐fermented foods

Aim: To identify and compare lactic acid bacteria (LAB) isolated from alkaline fermentations of cassava (Manihot esculenta Crantz) leaves, roselle (Hibiscus sabdariffa) and African locust bean (Parkia biglobosa) seeds for production of, respectively, Ntoba Mbodi, Bikalga and Soumbala. Methods and Results: A total of 121 LAB were isolated, identified and compared by phenotyping and genotyping using PCR amplification of 16S–23S rDNA intergenic transcribed spacer (ITS‐PCR), repetitive sequence‐based PCR (rep‐PCR) and DNA sequencing. The results revealed a diversity of genera, species and subspecies of LAB in African alkaline fermentations. The isolates were characterized as nonmotile (in most cases) Gram‐positive rods, cocci or coccobacilli, catalase and oxidase negative. ITS‐PCR allowed typing mainly at species level, with differentiation of a few bacteria at subspecies level. Rep‐PCR permitted typing at subspecies level and revealed significant genotypic differences between the same species of bacteria from different raw materials. DNA sequencing combined with use of API 50CHL and API 20Strep systems allowed identification of bacteria as Weissella confusa, Weissella cibaria, Lactobacillus plantarum, Pediococcus pentosaceus, Enterococcus casseliflavus, Enterococcus faecium, Enterococcus faecalis, Enterococcus avium and Enterococcus hirae from Ntoba Mbodi; Ent. faecium, Ent. hirae and Pediococcus acidilactici from Bikalga and Soumbala. Conclusion: LAB found in African alkaline‐fermented foods belong to a range of genera, species and subspecies of bacteria and vary considerably according to raw material. Significance and Impact of the Study: Our study confirms that LAB survive in alkaline fermentations, a first crucial stage in determining their significance and possible value as probiotic bacteria.     

The microbiology of Bandji,palm wine of Borassus akeassii from Burkina Faso: identification and genotypic diversity of yeasts,lactic acid and acetic acid bacteria

Aim

To investigate physicochemical characteristics and especially genotypic diversity of the main culturable micro‐organisms involved in fermentation of sap from Borassus akeassii, a newly identified palm tree from West Africa.

Methods and Results

Physicochemical characterization was performed using conventional methods. Identification of micro‐organisms included phenotyping and sequencing of: 26S rRNA gene for yeasts, 16S rRNA and gyrB genes for lactic acid bacteria (LAB) and acetic acid bacteria (AAB). Interspecies and intraspecies genotypic diversities of the micro‐organisms were screened respectively by amplification of the ITS1‐5.8S rDNA‐ITS2/16S‐23S rDNA ITS regions and repetitive sequence‐based PCR (rep‐PCR). The physicochemical characteristics of samples were: pH: 3·48–4·12, titratable acidity: 1·67–3·50 mg KOH g^?1, acetic acid: 0·16–0·37%, alcohol content: 0·30–2·73%, sugars (degrees Brix): 2·70–8·50. Yeast included mainly Saccharomyces cerevisiae and species of the genera Arthroascus, Issatchenkia, Candida, Trichosporon, Hanseniaspora, Kodamaea, Schizosaccharomyces, Trigonopsis and Galactomyces. Lactobacillus plantarum was the predominant LAB species. Three other species of Lactobacillus were also identified as well as isolates of Leuconostoc mesenteroides, Fructobacillus durionis and Streptococcus mitis. Acetic acid bacteria included nine species of the genus Acetobacter with Acetobacter indonesiensis as predominant species. In addition, isolates of Gluconobacter oxydans and Gluconacetobacter saccharivorans were also identified. Intraspecies diversity was observed for some species of micro‐organisms including four genotypes for Acet. indonesiensis, three for Candida tropicalis and Lactobacillus fermentum and two each for S. cerevisiae, Trichosporon asahii, Candida pararugosa and Acetobacter tropicalis.

Conclusion

fermentation of palm sap from B. akeassii involved multi‐yeast‐LAB‐AAB cultures at genus, species and intraspecies level.

Significance and Impact of the Study

First study describing microbiological and physicochemical characteristics of palm wine from B. akeassii. Genotypic diversity of palm wine LAB and AAB not reported before is demonstrated and this constitutes valuable information for better understanding of the fermentation which can be used to improve the product quality and develop added value by‐products.     

GENETIC VARIATION AMONG STRAINS OF PSEUDOPFIESTERIA SHUMWAYAE AND PFIESTERIA PISCICIDA (DINOPHYCEAE)1

The putatively toxic dinoflagellates Pseudopfiesteria shumwayae (Glasgow et J. M. Burkh.) Litaker, Steid., P. L. Mason, Shields et P. A. Tester and Pfiesteria piscicida Steid. et J. M. Burkh. have been implicated in massive fish kills and of having negative impacts on human health along the mid‐Atlantic seaboard of the USA. Considerable debate still remains as to the mechanisms responsible for fish mortality (toxicity vs. micropredation) caused by these dinoflagellates. Genetic differences among these cultures have not been adequately investigated and may account for or correlate with phenotypic variability among strains within each species. Genetic variation among strains of Ps. shumwayae and P. piscicida was examined by PCR–RFLP analysis using cultures obtained from the Provasoli‐Guillard National Center for Culture of Marine Phytoplankton (CCMP), as well as those from our own and other colleagues’ collection efforts. Examination of restriction digest banding profiles for 22 strains of Ps. shumwayae revealed the presence of 10 polymorphic restriction endonuclease sites within the first and second internal transcribed spacers (ITS1 and ITS2) and the 5.8S gene of the rDNA complex, and the cytochrome oxidase subunit I (COI) gene. Three compound genotypes were represented within the 22 Ps. shumwayae strains. Conversely, PCR–RFLP examination of 14 strains of P. piscicida at the same ITS1, 5.8S, and ITS2 regions revealed only one variable restriction endonuclease site, located in the ITS1 region. In addition, a dinoflagellate culture listed as P. piscicida (CCMP 1928) and analyzed as part of this study was identified as closely related to Luciella masanensis P. L. Mason, H. J. Jeong, Litaker, Reece et Steid.     

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.     

CONSPECIFICITY AND INDO-PACIFIC DISTRIBUTION OF SYMBIODINIUM GENOTYPES (DINOPHYCEAE) FROM GIANT CLAMS

We previously reported the occurrence of genetically‐diverse symbiotic dinoflagellates (zooxanthellae) within and between 7 giant clam species (Tridacnidae) from the Philippines based on the algal isolates' allozyme and random amplified polymorphic DNA (RAPD) patterns. We also reported that these isolates all belong to clade A of the Symbiodinium phylogeny with identical 18S rDNA sequences. Here we extend the genetic characterization of Symbiodinium isolates from giant clams and propose that they are conspecific. We used the combined DNA sequences of the internal transcribed spacer (ITS)1, 5.8S rDNA, and ITS2 regions (rDNA‐ITS region) because the ITS1 and ITS2 regions evolve faster than 18S rDNA and have been shown to be useful in distinguishing strains of other dinoflagellates. DGGE of the most variable segment of the rDNA‐ITS region, ITS1, from clonal representatives of clades A, B, and C showed minimal intragenomic variation. The rDNA‐ITS region shows similar phylogenetic relationships between Symbiodinium isolates from symbiotic bivalves and some cnidarians as does 18S rDNA, and that there are not many different clade A species or strains among cultured zooxanthellae (CZ) from giant clams. The CZ from giant clams had virtually identical sequences, with only a single nucleotide difference in the ITS2 region separating two groups of isolates. These data suggest that there is one CZ species and perhaps two CZ strains, each CZ strain containing individuals that have diverse allozyme and RAPD genotypes. The CZ isolated from giant clams from different areas in the Philippines (21 isolates, 7 clam species), the Australian Great Barrier Reef (1 isolate, 1 clam species), Palau (8 isolates, 7 clam species), and Okinawa, Japan (1 isolate, 1 clam species) shared the same rDNA‐ITS sequences. Furthermore, analysis of fresh isolates from giant clams collected from these geographical areas shows that these bivalves also host indistinguishable clade C symbionts. These data demonstrate that conspecific Symbiodinium genotypes, particularly clade A symbionts, are distributed in giant clams throughout the Indo‐Pacific.     

Molecular intraspecific characterization of Photobacterium damselae ssp. damselae strains affecting cultured marine fish

Aims: The aim of this study was to analyse the intraspecific variability of Photobacterium damselae ssp. damselae strains isolated from different cultured marine fish species using molecular typing methods. Methods and Results: Twenty P. damselae ssp. damselae strains isolated from marine fish species were used in this study. Phenotypic characterization of the strains was carried out using standard microbiological methods. Genetic characterization was conducted using three PCR‐based methods [random amplified polymorphic DNA (RAPD), enterobacterial repetitive intergenic consensus‐PCR (ERIC‐PCR) and repetitive extragenic palindromic‐PCR (REP‐PCR)]. Dice coefficient and the unweighted pair group method with average linkage were used for numerical analyses of banding patterns. At phenotypic level, the strains analysed showed seven different profiles, which could not be related to the host fish species, geographic area or outbreak of disease. Isolates were grouped into nine and eight clusters using the RAPD technique with primers 5 and 4, respectively. In both cases, the main cluster grouped 45% of strains. The techniques ERIC‐PCR and REP‐PCR were more discriminatory, both resulting in 14 different clusters, which grouped 15–20% of the isolates. Conclusions: In this study, the techniques tested are confirmed as good tools for molecular typing, because they allow discrimination between P. damselae ssp. damselae strains isolated within the same outbreak. In addition, ERIC‐PCR and REP‐PCR methods were more adequate for rapid typing of P. damselae ssp. damselae than RAPD, allowing the discrimination at strain level. Significance and Impact of the Study: The results, in agreement with previous studies, confirmed the high intraspecific variability among isolated P. damselae ssp. damselae strains at both phenotypic and genetic levels. This suggests the existence of different clonal lineages that coexist in the same geographic area, within a short period of time (2–3 years). The discrimination at strain level can be useful to study the traceability of infections.     

Characterization of Pectobacterium carotovorum subsp. carotovorum Causing Watermelon Soft Rot Disease in Iran

The aim of this study was characterized Pectobacterium carotovorum subsp. carotovorum (Pcc) the causal pathogen of watermelon soft rot disease in Iran. Of fifty bacterial isolates with white grey and convex colonies on nutrient agar obtained from symptomatic watermelon, ten isolates were selected for further tests. Pathogenicity tests results showed that all test isolates developed typical water‐soak symptoms after 2 days and signs of soft rot began 4 days after inoculation on watermelon fruits. Based on the phenotypic properties, the isolates were identified as Pectobacterium carotovorum subsp. carotovorum. The 16S rDNA sequences of isolates were 99% similar to the corresponding 16S rDNA sequence of the reference Pcc isolate. BOX and ERIC‐PCR analysis indicated that genetic diversity was present among the isolated Pcc isolates did not relate to the geographic location isolated from. To the best of our knowledge, this is the first study of biochemical and genotypic characterization of Pcc isolates the causal agents of soft rot disease on watermelon, in Iran.     

链霉菌的rep-PCR基因指纹分析

对重复片段PCR(repPCR)基因指纹分析应用于链霉菌分子分型进行研究,结果表明repPCR基因指纹分析具有分辨率高、稳定、重现性好、简便易行等特点,在一定程度上与16S rDNA 序列比较结果相一致,是一种快速而有效的DNA指纹技术,能反映出链霉菌种和菌株水平的基因型、系统发育和分类学关系,可应用于种及以下水平的分类和快速鉴定,尤其适用于分析大量的菌株或分离株。     

Virulotyping of <Emphasis Type="Italic">Salmonella enterica</Emphasis> subsp. <Emphasis Type="Italic">enterica</Emphasis> isolated from indigenous vegetables and poultry meat in Malaysia using multiplex-PCR

The increased occurrence of Salmonella occurrence in local indigenous vegetables and poultry meat can be a potential health hazards. This study is aimed to detect the prevalence of twenty different virulence factors among Salmonella enterica strains isolated from poultry and local indigenous vegetables in Malaysia via an optimized, rapid and specific multiplex PCR assay. The assay encompasses a total of 19 Salmonella pathogenicity islands genes and a quorum sensing gene (sdiA) in three multiplex reaction sets. A total of 114 Salmonella enterica isolates belonging to 38 different serovars were tested. Each isolate in under this study was found to possess up to 70% of the virulence genes tested and exhibited variable pathogenicity gene patterns. Reproducibility of the multiplex PCR assay was found to be 100% and the detection limit of the optimized multiplex PCR was tested with lowest detectable concentration of DNA 0.8 pg μl⁻¹. This study demonstrated various Salmonella pathogenicity island virulence gene patterns even within the same serovar. This sets of multiplex PCR system provide a fast and reliable typing approach based on Salmonella pathogenicity islands, thus enabling an effective monitoring of emerging pathogenic Salmonella strains as an additional tool in Salmonella surveillance studies.     

Internal Transcribed Spacer Sequence Analysis of Puccinia helianthi Schw. and Its Application in Detection of Sunflower Rust

Two basidiomycete‐specific primers ITS1‐F and ITS4‐B were used in identification of the genus Puccinia. The primers showed good specificity for the genus with an 816‐bp product that was amplified exclusively. Twenty sequences of internal transcribed spacer (ITS) regions of Puccinia helianthi isolates from China remain unchanged. The whole ITS length (including ITS1 sequence 194 bp, 5.8S rRNA gene 156 bp, ITS2 sequence 206 bp) was 556 bp. By comparing the aligned ITS sequences of several Puccinia isolates from China, Spain and the United States, ITS homogeneity among these sunflower rust isolates was >99%. Genetic homology and phylogeny of P. helianthi with other Puccinia spp. was investigated. Nineteen sequences of rDNA ITS1 and ITS2 were determined and used as phylogenetic markers. Phylogenetic analysis of ITS regions showed that Puccinia spp. of sunflower was clustered in one clade with P. komarovii and P. violae, divergent from Puccinia spp. of Chrysanthemum, P. tenaceti of tansy (Tanacetum vulgare) and Puccina spp. of big sagebrush (Artemisia tridentate) indicating sunflower rust had distant phylogenetic relationships with other Compositae rusts. With the specified primers SR‐1 and SR‐2, either from purified urediniospores or symptomless (but infected) sunflower leaves could be examined specifically. Therefore, results of this study help in detection and polygenetic study of rust fungi occurring on sunflower.     

Molecular divergence of the soil yeasts <Emphasis Type="Italic">Williopsis</Emphasis> sensu stricto

Fifty-three strains of Saturn-spored yeasts were analyzed by means of restriction analysis of the amplified fragment of rDNA comprising the 5.8S rRNA gene and the internal transcribed spacers ITS1 and ITS2. The use of endonucleases HaeIII and MspI enabled clear differentiation of yeast species Williopsis mucosa, W. salicorniae, Zygowilliopsis californica, and Komagataea pratensis and the Williopsis sensu stricto complex. The minisatellite primer M13 was proposed for differentiation between sibling species of Williopsis sensu stricto, which have identical restriction profiles. PCR with primer M13 enabled reidentification of a number of collection strains, species identification of Saturn-spored isolates from the Far East, and detection of three strains affiliated to novel taxa. The latter have unique PCR profiles and differ in the nucleotide sequences of ITS1 and ITS2 fragments of rDNA. Possible variations in the results obtained with different molecular methods are discussed.Translated from Mikrobiologiya, Vol. 73, No. 6, 2004, pp. 768–776.Original Russian Text Copyright © 2004 by Naumova, Gazdiev, Naumov.     

Characterization of a Chromobacterium haemolyticum population from a natural tropical lake

Aim: To study genetic diversity of Chromobacterium haemolyticum isolates recovered from a natural tropical lake. Methods and Results: A set of 31 isolates were recovered from a bacterial freshwater community by conventional plating methods and subjected to genetic and phenotypic characterization. The 16S ribosomal RNA (rRNA) gene phylogeny revealed that the isolates were related most closely with C. haemolyticum. In addition to the molecular data, our isolates exhibited strong β‐haemolytic activity, were nonviolacein producers and utilized i‐inositol, d ‐mannitol and d ‐sorbitol in contrast with the other known chromobacteria. Evaluation of the genetic diversity in the 16S rRNA gene, tRNA intergenic spacers (tDNA) and 16S‐23S internal transcribed spacers (ITS) unveiled different levels of genetic heterogeneity in the population, which were also observed with repetitive extragenic palindromic (rep)‐PCR genomic fingerprinting using the BOX‐AR1 primer. tDNA‐ and ITS‐PCR analyses were partially congruent with the 16S rRNA gene phylogeny. The isolates exhibited high resistance to β‐lactamic antibiotics. Conclusion: The population genetic heterogeneity was revealed by 16S rRNA gene sequence, ITS and BOX‐PCR analysis. Significance and Impact of the Study: This study provides for the first time an insight into the genetic diversity of phylogenetically close isolates to C. haemolyticum species.     

Identification of Ochratoxigenic Aspergillus Section Nigri Isolated from Grapes by ITS‐5.8S rDNA Sequencing Analysis and In Silico RFLP

To characterize Aspergillus section Nigri strains involved in the ochratoxin A (OTA) contamination of Tunisian wine and table grapes, a total of 33 strains were analysed. A molecular characterization of the isolates was performed by the amplification of internal transcribed spacer (ITS1‐5.8S rDNA‐ITS2) region combined with amplicon sequencing. Analysis of similarity between the obtained sequences and those deposited in the GenBank database was performed. Twelve strains were confirmed to belong to the Aspergillus carbonarius species. Strains belonging to the Aspergillus niger aggregate group were classified by in silico RFLP assay into two patterns N and T, corresponding to A. niger and Aspergillus tubingensis. Among the 21 OTA producing isolates analysed, 13 showed the T‐type pattern and 8 showed the N‐type pattern. The presented method showed to be a reliable alternative to the classic RFLP method. Our findings unambiguously revealed that multiple aspergilli species isolated from wine and table grape in Tunisia are able to produce OTA.     

Differentiation of probiotic and environmental Saccharomyces cerevisiae strains in animal feed

Aims: To establish an identification system for probiotic Saccharomyces cerevisiae strains based on artificial neural network (ANN)–assisted Fourier‐transform infrared (FTIR) spectroscopy to improve quality control of animal feed. Methods and Results: The ANN‐based system for differentiating environmental from probiotic S. cerevisiae strains comprises five authorized feed additive strains plus environmental strains isolated from different habitats. A total of 108 isolates were used as reference strains to create the ANN. DHPLC analysis and δ‐PCR were used as reference methods to type probiotic yeast isolates. The performance of the FTIR‐ANN was tested in an internal validation using unknown spectra of each reference strain. This validation step yielded a classification rate of 99·1 %. For an external validation, a test data set comprising 965 spectra of 63 probiotic and environmental S. cerevisiae isolates unknown to the ANN was used, resulting in a classification rate of 98·2 %. Conclusions: Our results demonstrate that probiotic S. cerevisiae strains in feed can be differentiated successfully from environmental isolates using both genotypic approaches and ANN‐based FTIR spectroscopy. Significance and Impact of the Study: FTIR‐based artificial neural network analysis provides a rapid and inexpensive technique for yeast identification both at the species and at the strain level in routine diagnostic laboratories, using a single sample preparation.     

Characterization of Two Fungal Isolates from Cotton and Evaluation of their Potential for Biocontrol of Verticillium Wilt of Cotton

Two isolates (CVd‐WHw and CVn‐WHg) recovered from Verticillium‐wilt‐symptomatic cotton grown in Hubei Province of China were identified based on their morphology, growth characteristics in culture, specific amplification and identification of internal transcribed spacer (ITS) rDNA sequence. According to the morphological characteristics, specific PCR amplification and ITS sequences, CVd‐WHw was identified as V. dahliae and CVn‐WHg as Gibellulopsis nigrescens. In bioassays, the two isolates had significantly lower pathogenicity to cotton plant than V. dahliae isolate CVd‐AYb. Cotton pre‐inoculated with isolate CVn‐WHg or CVd‐WHw exhibited reduced disease indices of Verticillium wilt compared with those inoculated with CVd‐AYb alone. Cotton co‐inoculated with CVn‐WHg or CVd‐WHw and CVd‐AYb provided increased protection from subsequent CVd‐AYb inoculation. These results suggest that the two isolates have the potential to be developed as biocontrol agents for the control of Verticillium wilt in cotton. To our knowledge, this is the first report of a cross‐protection phenomenon using Gibellulopsis nigrescens against Verticillium wilt caused by V. dahliae on cotton.     

Assessment of genetic diversity of Iranian Ascochyta rabiei isolates using rep‐PCR markers

Genetic diversity and population structure among 29 isolates of Ascochyta rabiei (AR) obtained from diseased chickpea plants in six different geographical origins in Iran was characterized by MAT and rep‐PCR (BOX/ERIC/REP) markers. Both mating types were found in all six populations, and the frequencies of mating types were variable between populations. The majority of the isolates belonged to Mat1‐1 (58.12%) with the remainder (41.88%) being Mat1‐2. A dendrogram was calculated with Jaccard's similarity coefficients with unweighted pair group method clustering (UPGMA) for the combination of rep‐PCR results, AR strains were differentiated into four clusters (A–D) at 60% similarity level. ERIC, REP and BOX showed a total of 19, 37 and 24 alleles per locus, respectively. Gene diversity (He) and Shannon's information index (I) were the highest in the REP (He = 0.82; I = 2.11), while the lowest values were estimated for the ERIC (He = 0.42; I = 1.3). Our result showed that among the three techniques studied, REP‐PCR produced the most complex amplified banding patterns, which reflected a high degree of diversity among the Iranian AR strains. ERIC‐PCR was the least discriminating method, and BOX‐PCR was intermediate. To the best our knowledge, this is first study of assessment of genetic diversity of AR isolates by rep‐PCR markers.     

GENETIC DIVERSITY AND INTROGRESSION IN TWO CULTIVATED SPECIES (PORPHYRA YEZOENSIS AND PORPHYRA TENERA) AND CLOSELY RELATED WILD SPECIES OF PORPHYRA (BANGIALES,RHODOPHYTA)1

We investigated the genetic variations of the samples that were tentatively identified as two cultivated Porphyra species (Porphyra yezoensis Ueda and Porphyra tenera Kjellm.) from various natural populations in Japan using molecular analyses of plastid and nuclear DNA. From PCR‐RFLP analyses using nuclear internal transcribed spacer (ITS) rDNA and plastid RUBISCO spacer regions and phylogenetic analyses using plastid rbcL and nuclear ITS‐1 rDNA sequences, our samples from natural populations of P. yezoensis and P. tenera showed remarkably higher genetic variations than found in strains that are currently used for cultivation. In addition, it is inferred that our samples contain four wild Porphyra species, and that three of the four species, containing Porphyra kinositae, are closely related to cultivated Porphyra species. Furthermore, our PCR‐RFLP and molecular phylogenetic analyses using both the nuclear and plastid DNA demonstrated the occurrence of plastid introgression from P. yezoensis to P. tenera and suggested the possibility of plastid introgression from cultivated P. yezoensis to wild P. yezoensis. These results imply the importance of collecting and establishing more strains of cultivated Porphyra species and related wild species from natural populations as genetic resources for further improvement of cultivated Porphyra strains.     

Detection and Molecular Diversity of Pantoea ananatis Associated with White Spot Disease in Maize,Sorghum and Crabgrass in Brazil

Bacteria of the genus Pantoea have become important plant pathogens worldwide in recent years. Pantoea ananatis was reported as the cause of maize white spot, a serious maize disease in Brazil, causing significant yield losses. However, very little information is available about how to detect this pathogen, its genetic variability and the putative alternative hosts in maize‐growing areas. To address these issues, we implemented a rapid and efficient PCR‐based method to identify P. ananatis isolated from leaves showing white spot symptoms and evaluated its genetic diversity in maize, sorghum and crabgrass. Of the 29 bacteria isolated from typical water‐soaked lesions of white spot disease that produced yellow colonies, 15 isolates were identified as P. ananatis by 16S rDNA sequencing and correctly detected by the PCR reaction, amplifying a specific fragment of the ice nucleation gene (ina). These P. ananatis isolates included 13 from maize, one from sorghum and one from crabgrass, while the other 14 yellow colony isolates were from other bacterial species, including two Pantoea species (Pantoea dispersa and Pantoea agglomerans) that were not amplified by the ina primers. These results indicate that the optimized PCR assay can be used to detect P. ananatis isolated from white spot lesions and could be used as a large‐scale and cost‐effective method of detecting this pathogen in leaf lesions on maize and other grasses. All isolates were evaluated for hypersensitive response (HR) on tobacco, revealing that some P. ananatis were able to induce HR. The high genetic variability revealed by rep‐PCR did not differentiated the P. ananatis isolates based on their hosts or HR reaction. The detection, characterization and diversity of P. ananatis from maize, sorghum and crabgrass in our study can be applied in understanding epidemiology and designing control strategies for maize white spot disease in Brazil.