Molecular characterization, morphology, and pathogenicity of Alternaria panax from araliaceous plants in Korea

Alternaria blight on araliaceous plants is a common disease caused by Alternaria panax Whetzel and occurs worldwide. Genetic diversity among 58 isolates of A. panax from different araliaceous hosts in Korea was determined by amplified fragment length polymorphism (AFLP) analysis. Selected isolates from genetic groups (determined by AFLP analysis) were examined based on the results of phylogenetic analyses of eight genes (Alt a1, BT1, BT2, EF-1α, gpd, H3, ITS, and RPB2), morphological characteristics, and pathogenicity tests. Isolates were divided into two distinct genetic groups (A and B) by AFLP analysis and based on the results of sequence analyses of the BT1, BT2, gpd, and RPB2 genes. Isolates from ginseng plants (Panax ginseng and P. quinquefolius) fell into group B, whereas isolates from the other araliaceous plants clustered in group A. Morphologically, although some overlap was observed among isolates in the two groups, isolates in group B had longer and narrower conidia, distinct sporulation patterns at 15 °C, and did not secrete pigment into PDA media. Pathogenicity tests revealed that isolates in groups A and B only induced severe disease symptoms on leaves of their hosts, such as isolates in group A on Aralia elata, Aralia continentalis, and in group B on Panax ginseng. The results indicate that the two genetic groups of Alternaria from araliaceous plants should be considered as two different species, and we propose that group A is a candidate of new Alternaria species distinguished from A. panax.     

Molecular diversity and allergenic profiles of Alternaria spp. from desert environments in Arizona

This study examined the genetic diversity of small-spored Alternaria species in the southwest desert of the USA by sampling 552 isolates from different habitats (soil and plant debris) in different locations (urban and an undisturbed desert). To estimate the genetic diversity, Amplified Fragment Length Polymorphism (AFLP) fingerprinting analysis was performed for all isolates. Strains representative of the sampled genotypic diversity (n = 125) were further characterized according their sporulation pattern and the capability to produce allergens. Morphological characterization assigned the majority of the strains to the Alternaria alternata and Alternaria tenuissima morpho-groups with only two isolates assigned to the Alternaria arborescens morpho-group. AFLP fingerprinting differentiated the A. arborescens morpho-groups, but could not distinguish between the A. alternata and A. tenuissima morpho-groups. Western blot analysis showed that a large number of allergenic proteins were produced by strains. These proteins were not specific for any morpho-group nor source of isolation. A hierarchical analysis of molecular variance was performed on the AFLP data to quantify molecular variation and partition this variation among sampled locations and habitat. No statistically significant differentiation among locations and habitat was detected indicating a lack of population structure across environments.     

Genetic Diversity, Aggressiveness and Metalaxyl Sensitivity of Pythium spinosum Infecting Cucumber in Oman

A total of 24 isolates of Pythium spinosum from cucumber obtained from five regions in Oman were characterized for genetic diversity using amplified fragment length polymorphism (AFLP) fingerprinting and three isolates from the Netherlands, South Africa and Japan were included for comparison. Isolates from Oman were also characterized for aggressiveness on cucumber seedlings and sensitivity to metalaxyl. Identity of all isolates was confirmed using sequences of the internal transcribed spacer (ITS) region of the ribosomal DNA (rDNA), which showed more than 99% nucleotide similarity among all isolates. Using six primer‐pair combinations, AFLP fingerprinting resolved 295 AFLP markers of which 193 were polymorphic among isolates from other countries and only six were polymorphic among isolates of P. spinosum from Oman. Seven different AFLP phenotypes of P. spinosum were recovered in Oman; two of them were found to contain over 79% of isolates and one was recovered from all regions in Oman. Phenotypes from Oman showed very high (≥99%) levels of genetic similarity to each other compared to moderate (mean =53%) levels of genetic similarity with phenotypes from other countries. In addition, all isolates from Oman were found to be highly sensitive to metalaxyl and all were aggressive on cucumber seedlings at 25°C. The high genetic similarity among phenotypes of P. spinosum in Oman as well as recovering two major clones across regions may suggest that P. spinosum has been recently introduced in Oman via a common source.     

PFGE and AFLP genotyping of Staphylococcus aureus subsp. anaerobius isolated from goats with Morel’s disease

Staphylococcus aureus subsp. anaerobius is the etiological agent of the Morel’s disease in sheep and goats. The disease presents with subcutaneous abscesses, located mainly in the superficial lymph nodes. Forty-one isolates of S. aureus subsp. anaerobius were collected from two outbreaks of the Morel’s disease in Poland in years 2006–2008. Analysis of DNA SmaI digests by PFGE showed that 35 of 41 isolates belonged to the same PFGE type, identical to the type strain of S. aureus subsp. anaerobius ATCC 35844, confirming high level of clonality of the species. The DNA patterns of the remaining identical 6 isolates, different from the reference strain only by two bands, were found closely related. Genotyping performed with AFLP technique revealed two clonal groups including 16 and 25 isolates, respectively. The study indicated that AFLP technique might be a better discriminatory tool for genetic analysis of S. aureus subsp. anaerobius isolates, when compared to PFGE.     

Assessment and comparison of AFLP and SSR based molecular genetic diversity in Indian isolates of Ascochyta rabiei, a causal agent of Ascochyta blight in chickpea (Cicer arietinum L.)

Ascochyta blight (AB), caused by Ascochyta rabiei (Pass.) Labr. (anamorph), is the most damaging disease of chickpea (Cicer arietinum L.) and is a serious biotic stress constraint for chickpea production. To understand the molecular diversity in A. rabiei populations of India, a total of 64 isolates collected from AB-infected chickpea plants from different agroclimatic regions in the North Western Plain Zone (NWPZ) of India were analyzed with 11 AFLP (amplified fragment length polymorphism) and 20 SSR (simple sequence repeat) markers. A total of 9 polymorphic AFLP primer pairs provided a total of 317 fragments, of which 130 were polymorphic and showed an average PIC value 0.28. Of the SSR markers, 12 showed polymorphism and provided a total of 29 alleles with an average PIC value 0.35. To the best of our knowledge, this is the first report on a comparison of AFLP and SSR diversity estimates in A. rabiei populations. The dendrogram developed based on AFLP and SSR data separately, as well as on the combined marker dataset, grouped the majority of AB isolates as per geographic regions. Model based population structure analysis revealed four distinct populations with varying levels of ancestral admixtures among 64 isolates studied. Interestingly, several AFLP primer combinations and SSR markers showed the locus/allele specific to AB isolates of certain regions, e.g., Hisar, Sriganganagar, Gurdaspur, and Sundarnagar. Genetic variability present in AB isolates of the NWPZ of India suggests the continuous monitoring of changes in A. rabiei population to anticipate the breakdown of AB resistance in chickpea cultivars grown in India.     

Traceability of Marketable Japanese Shoro in New Zealand: Using Multiplex PCR To Exploit Phylogeographic Variation among Taxa in the Rhizopogon Subgenus Roseoli

Rhizopogon roseolus Corda (synonym Rhizopogon rubescens Tul.), an economically important edible mushroom associated with the Pinaceae (mostly Pinus sp.), has a global distribution resulting from the introduction of exotic trees into the Southern Hemisphere for plantation forestry. However, the marketability of R. roseolus varies with the place of origin. R. roseolus strains cultivated in New Zealand from local carpophores for the Japanese market are morphologically and biologically distinct from those produced in Japan and are consequently considered less valuable. In this study, the ITS1-5.8S-ITS2 rRNA (internal transcribed spacer [ITS]) region was used to examine the phylogenetic relationships of R. roseolus and other closely related fungi belonging to Rhizopogon subgenus Roseoli to determine the genetic basis for phenotypic differences among R. roseolus isolates from different geographic regions. Phylogenetic comparison revealed phylogeographic variation within Rhizopogon subgenus Roseoli. Collections from the United States and Europe grouped into four distinct clades. Rhizopogon roseolus isolates found in New Zealand were closely related to those from the United States, likely due to introduction of Pinus radiata from its native California in the United States. In contrast, Japanese R. roseolus isolates clustered closely with European collections. Phylogenetic differences between Japanese and New Zealand R. roseolus isolates may explain the morphological and biological properties attributed to these geographical variants. The ITS region was subsequently used to design a multiplex PCR for the simultaneous identification of Japanese and New Zealand R. roseolus isolates to track the establishment of ectomycorrhiza on P. radiata seedlings inoculated with commercially valuable R. roseolus. This diagnostic demonstrated the first fruiting of Japanese shoro cultivated on P. radiata in the Southern Hemisphere.Since the latter half of the 19th century, Northern Hemisphere species of exotic trees, in particular Pinus radiata, have been planted in the Southern Hemisphere (e.g., Chile, Argentina, South Africa, Australia, and New Zealand). Indeed, over 1,000,000 ha of exotic trees have been established in New Zealand alone (32, 9). Over 200 nonnative basidiomycete and ascomycete ectomycorrhizal (ECM) fungal species are associated with Pinus or Eucalyptus plantations in the Southern Hemisphere from the introduction of plants with intact root systems (46).The genus Rhizopogon Fries (Basidiomycota, Boletales) contains more than 100 species of hypogeous fungi (24), which form ECM associations mostly with members of the Pinaceae (44). The greatest diversity of Rhizopogon can be found in the coniferous forests of the Pacific northwestern United States (40, 30), although a number of species are known to occur in Europe (40) and Asia (3). At least four introduced species of Rhizopogon have also been reported in New Zealand, including R. clelandii Cunn., R. luteolus Fr., R. roseolus (7), and R. vinicolor A. H. Smith (5). At least two species, R. luteolus and R. roseolus, have been associated with P. radiata seedlings in forest nurseries in the North Island of New Zealand (6).In Japan, R. roseolus is known locally as shoro. Shoro is considered a delicacy (20), and its production is dependent on the collection of the carpophores in the field. In fact, only 200 years ago, shoro was the fourth most commonly consumed mushroom in Japan (34). However, the number of natural shoro has declined in the second half of the 20th century (15), resulting in its cultivation in forestry plantations since the late 1980s (50). To fulfill Japanese demand, plantations of P. radiata artificially inoculated with R. roseolus have been established in New Zealand since 1999 using spores from fruiting bodies collected locally (47). Three of the four plantations have subsequently produced fruiting bodies, but the crop has been deemed unsuitable due to consumer sensitivity in Japan to the origin of the products and doubts surrounding the authenticity of the fruiting bodies as Japanese shoro. The quality and market price of other edible fungi differ not only with species but also with their origin. In Japan, domestic Tricholoma matsutake is considered the premium source of matsutake, traded at $500/kg, while South Korean matsutake and those from China are considered less valuable ($250/kg and $100/kg, respectively) (31). Highly prized edible fungi have also been found to be contaminated with less valuable species. Tuber rufum Pico is a truffle species that is found alongside other valuable species in countries where truffles are commercially important. However, it is considered to be a poorly flavored species with no marketable value and is deemed a “contaminant” in truffières (4).Unfortunately, the taxonomy of the genus Rhizopogon is surrounded by many unresolved issues, which makes differentiation of shoro-like fungi found in different geographical locations difficult. In 1966, Smith and Zeller (40) completed the first taxonomic study of the genus Rhizopogon, dividing it into two subgenera, Rhizopogonella (subsequently transferred to Alpova [45]) and Rhizopogon. The subgenus Rhizopogon was further divided into four sections based on differences in the host plant, sporocarp morphology, and color of the peridium. All species associated with Pinus spp. were classified in Rhizopogon section Rhizopogon. Rhizopogon roseolus and R. rubescens were placed in subsection Angustispori, stirps Rubescens. A third species, Rhizopogon vulgaris Vittad., was placed in subsection Angustispori, stirps Vulgaris, due to differences in its spore morphology.Similarities between species in stirps Rubescens and stirps Vulgaris were recorded, with stirps Vulgaris considered a continuation of stirps Rubescens into the narrow-spore species. However, classification was based only on examinations of North American collections even though these species were originally described in Europe in the 19th century (40). Taxonomic reexamination of Rhizopogon using phylogenetic analyses of internal transcribed spacer (ITS) DNA sequences showed that Rhizopogon burlinghamii, R. roseolus, and R. vulgaris formed Rhizopogon section Rhizopogon clade C, separate from the other species sampled from section Rhizopogon (clades A and B). Their ITS sequences lacked insertions and deletions that are diagnostic of other section Rhizopogon clades. Rhizopogon roseolus and R. vulgaris were placed together under Rhizopogon subgenus Roseoli (13). Unfortunately, collections classified as R. rubescens were not included in the phylogenetic study. More recently, species concepts in the R. roseolus species group were examined by Martín and García (25). ITS sequence analyses separated the collections into five possible phylogenetic species.The continued taxonomic instability of Rhizopogon subgenus Roseoli has created ongoing confusion, and the correct species names are still not clear. In Japan, until now, shoro has been referred to as R. rubescens; however, R. rubescens is used widely as a synonym for R. roseolus. In this study, R. roseolus will be used to describe all collections unless specifically stated, as this taxonomic name appears to have precedence in previous phylogenetic studies of Rhizopogon (13, 19, 40) and since Mycobank (http://www.MycoBank.org/) considers R. rubescens to be a synonym of R. roseolus.Molecular diagnostic tools capable of distinguishing genetic differences in ECM fungi have been developed, allowing the differentiation of commercially important species from contaminants or similar species of less economic value. There are many studies where PCR primers designed for the amplification of the ITS region have been used to identify basidiomycetes (12, 18). Species-specific primers were created to identify and differentiate marketable boletes (28), to detect black truffle species (37), and to distinguish Asiatic black truffles from Tuber melanosporum in commercialized products (22). A multiplex PCR has also been developed to simultaneously detect different white truffle species and one of the most aggressive contaminant fungi for monitoring the persistence of a selected truffle in inoculated seedlings (1).Due to the sensitivity of consumers to the origins of shoro and the existing taxonomic complexity of the genus Rhizopogon, morphological and molecular methods were used to establish the diversity and genetic structure of Rhizopogon subgenus Roseoli. Phylogenetic relationships between shoro-like species (originally classified as R. vulgaris, R. rubescens, and R. roseolus) from different geographical locations were investigated to verify previously observed differences between shoro grown in Japan and New Zealand. A multiplex PCR was then developed for the rapid identification of ECMs and fruiting bodies grown from Japanese shoro in New Zealand to track the commercial production of this economically valuable edible fungus.     

Identification and Molecular Epidemiology of Campylobacter coli Isolates from Human Gastroenteritis, Food, and Animal Sources by Amplified Fragment Length Polymorphism Analysis and Penner Serotyping

Campylobacter coli is an infrequently studied but important food-borne pathogen with a wide natural distribution. We investigated its molecular epidemiology by use of amplified fragment length polymorphism (AFLP)-based genotyping and Penner serotyping. Serotype reference strains and 177 Danish isolates of diverse origin identified by routine phenotyping as C. coli were examined. Molecular tools identified some 12% of field isolates as Campylobacter jejuni, emphasizing the need for improved identification methods in routine laboratories. Cluster analysis of AFLP profiles of 174 confirmed C. coli isolates revealed a difference in the distribution of isolates from pig and poultry (chicken, duck, turkey, and ostrich) species and indicated the various poultry species, but not pigs, to be likely sources of human C. coli infection. A poor correlation was observed between serotyping and AFLP profiling, suggesting that the former method has limited value in epidemiological studies of this species.     

Vancomycin-Resistant Enterococcus faecium (VREF) from Norwegian Poultry Cluster with VREF from Poultry from the United Kingdom and The Netherlands in an Amplified Fragment Length Polymorphism Genogroup

The genetic relationship between 197 vancomycin-resistant Enterococcus faecium (VREF) isolates and 21 vancomycin-susceptible E. faecium isolates from Norwegian poultry was analyzed by amplified fragment length polymorphism (AFLP). The isolates were compared to 255 VREF isolates from various sources and countries. The Norwegian isolates constituted a relatively homogeneous population of E. faecium and clustered in a previously defined poultry AFLP genogroup.     

Characterization of DNA polymorphisms in Rhizopogon roseolus homeodomain protein genes and their utilization for strain identification

We sequenced and characterized the genes for homeodomain proteins (RrA1-hox1, RrA1-hox2) and the flanking mip gene in a bipolar ectomycorrhizal basidiomycete, Rhizopogon roseolus. The sequenced region mapped to the A mating type locus. By nucleotide alignment of partial nucleotide sequences of two Rrhox1 genes from two mating compatible monokaryotic strains, we deduced that the 3′-region of Rrhox1 gene sequences in R. roseolus has a divergence-homogenization duality, which makes restriction fragment length polymorphism (RFLP) analysis of this region possible. Using a primer pair designed according to the 3′-regions of the RrA1-hox1 and mip genes in the A1 mating type, target PCR products were amplified from ten dikaryotic strains of R. roseolus collected from nine prefectures in Japan. RFLP patterns obtained using AluI and RsaI allowed distinguishing of all ten R. roseolus strains, indicating that the 3′-regions of Rrhox1 and mip are suitable for strain identification.     

Analysis of genetic diversity in Phytophthora colocasiae causing leaf blight of taro (Colocasia esculenta) using AFLP and RAPD markers

The oomycetous fungus Phytophthora colocasiae that causes taro leaf blight is one of the most devastating diseases of taro and is widely distributed in India. Molecular and cultural techniques were employed for assessing and exploiting the genetic variability among isolates of P. colocasiae obtained from different geographical regions of India. Analysis of the 5.8-ITS region revealed detectable intraspecific variation among isolates. Ten random amplified polymorphic DNA (RAPD) and eight amplified fragment length polymorphism (AFLP) primers produced 198 and 510 reproducible fragments, respectively. AFLP produced 100 % polymorphism, whereas RAPD showed 93.5 % polymorphism. The average value of the number of observed alleles, the number of effective alleles, mean Nei’s genetic diversity, and Shannon’s information index were 2.00–1.94, 1.53–1.36, 0.31–0.24, and 0.47–0.40, respectively, for two DNA markers used. Analysis of molecular variance (AMOVA) for both markers produced similar results with the majority (85 %, AFLP; 89 %, RAPD) of the diversity present within population of P. colocasiae. Dendrograms based on two molecular data using the unweighted pair group method with arithmetic mean (UPGMA) was incongruent and classified the P. colocasiae isolates into one and two major clusters. Cophenetic correlation coefficient between dendrogram and original similarity matrix were significant for RAPD (r?=?0.904) and AFLP (r?=?0.825). The results of this study displayed a high level of genetic variation among the isolates irrespective of the geographical origin. The possible mechanisms and implications of this genetic variation are discussed.     

Molecular Characterization of Korean Bacillus anthracis Isolates by Amplified Fragment Length Polymorphism Analysis and Multilocus Variable-Number Tandem Repeat Analysis

We analyzed the genetic relationships and molecular characteristics of 34 Bacillus anthracis isolates from soil and clinical samples in various regions of Korea and 17 related Bacillus species, using the amplified fragment length polymorphism (AFLP) and multilocus variable-number tandem repeat (MLVA) approaches. Triplicate AFLP profiles of these strains showed high reproducibility and identified 376 polymorphisms. AFLP phylogenetic analysis of B. anthracis isolates showed a high level of similarity, 0.93, and this monomorphic fragment profile proved to be useful to differentiate B. anthracis strains from other Bacillus species. The B. cereus group was separated from other Bacillus species at a level of similarity of 0.68. Among them, some B. cereus strains showed genetic interspersion with B. thuringiensis strains. The evolutionary pattern of nucleotide differences among B. anthracis strains with the eight MLVA markers showed nine MLVA types. Three MLVA types, M1 to M3, were pathogenic B. anthracis isolates and were assigned as new genotypes belonging to the A4 and B3 clusters, compared with 89 genotypes deduced from previous data. This indicates that differences in cluster prevalence and distribution may be influenced more by MLVA markers on two plasmids loci and human activity. Consequently, we suggest that the novel MLVA type may represent significant evidence for historic adaptation to environmental conditions of the Asian continent, particularly Korea. Therefore, MLVA techniques may be available for molecular monitoring on anthrax-release-related bioterrorism and further study is required for the continuous epidemiological study of variable anthrax collections.     

Evidence of the genetic diversity and clonal population structure of <Emphasis Type="Italic">Oenococcus oeni</Emphasis> strains isolated from different wine-making regions of China

Studies of the genetic diversity and population structure of Oenococcus oeni (O. oeni) strains from China are lacking compared to other countries and regions. In this study, amplified fragment length polymorphism (AFLP) and multilocus sequence typing (MLST) methods were used to investigate the genetic diversity and regional evolutionary patterns of 38 O. oeni strains isolated from different wine-making regions in China. The results indicated that AFLP was markedly more efficient than MLST for typing O. oeni strains. AFLP distinguished 37 DNA patterns compared to 7 sequence types identified using MLST, corresponding to discriminatory indices of 0.999 and 0.602, respectively. The AFLP results revealed a high level of genetic diversity among the O. oeni strains from different regions of China, since two subpopulations and an intraspecific homology higher than 60% were observed. Phylogenetic analysis of the O. oeni strains using the MLST method also identified two major phylogroups, which were differentiated into two distinct clonal complexes by minimum spanning tree analysis. Neither intragenic nor intergenic recombination verified the existence of the clonal population structure of the O. oeni strains.     

Genotyping of Brazilian Erysipelothrix spp. strains by amplified fragment length polymorphism

One hundred and fifty-one Erysipelothrix spp. isolates from diseased and carrier swine from Brazil were identified by PCR, submitted to serotyping and analyzed by amplified fragment length polymorphism with a single enzyme (AFLP).Reference strains from Australia and the United Kingdom were also examined. The 151 strains were classified into 18 different serotypes (1a, 1b, 2a, 2b, 4, 5, 6, 7, 8, 10, 11, 12, 15, 17, 19, 21, 24 and 25), being serotype 2b the most frequent (39.7%). By associating serotyping and PCR results, it was possible to identify 146 strains as E. rhusiopathiae and five strains as E. tonsillarum. Despite the fact that for this genus AFLP did not cluster all isolates according to serotype, origin, disease or isolation data, the execution of the technique was easy and fast, demonstrating high discriminatory power. The results produced by the AFLP analysis of Erysipelothrix spp. could also support its use as a discriminatory tool for E. rhusiopathiae and E. tonsillarum species.     

Evaluation of RAPD, ISSR and AFLP Markers for Characterization of the Loose Smut Fungus Ustilago tritici

Random Amplified Polymorphic DNA (RAPD), inter simple sequence repeat (ISSR) and Amplified Fragment Length Polymorphism (AFLP) profiling were evaluated for assessing the extent of genetic variation among the isolates of Ustilago tritici (Pers.) Rostr., which causes the loose smut disease of wheat.Thirty random decamer primers, six random primer pairs, four SSR primers such as (GACA)₄, (GATA)₄, (CAA)₅ and (GTG)₅ and nine combinations of AFLP selective primers were used to characterize nine isolates of the fungus. These isolates were collected from infected earheads of seven commercial wheat cultivars grown at eight different locations in Haryana, which is a major wheat growing state in the North-West Plain Zone of India. The RAPD and ISSR primers generated 21 0 scorable amplified fragments, all of which were monomorphic among the isolates.The AFLP primer combinations generated 239 fragments out of which 193 were polymorphic. All the isolates could be precisely differentiated from each other employing AFLP and grouped into two distinct clusters.The molecular classification partly corresponded with geographic distribution and host origin of the isolates. AFLP profiling was found superior to RAPD and ISSR and can be effectively utilized for further characterization of loose smut pathogen.     

Molecular characterization of Cryptococcus gattii genotype AFLP6/VGII isolated from woody debris of divi-divi (Caesalpinia coriaria), Bonaire,Dutch Caribbean

BackgroundThe basidiomycetous yeast Cryptococcus gattii is an emerging and primary pathogen. There is a lack of information about its environmental spread outside outbreak regions in Mediterranean Europe, North and South America. Environmental sampling for C. gattii and molecular characterization of the obtained isolates will provide an insight into the global spread of the various genotypes.MethodsWoody debris of native divi-divi (Caesalpinia coriaria) trees were sampled across Bonaire, Dutch Caribbean. Colonies suspected for Cryptococcus species were subjected to standard mycology investigations and identification by matrix-assisted laser desorption ionization-time of flight mass spectrometry. Isolates identified as C. gattii were subjected to amplified fragment length polymorphism genotyping, mating-type analysis and multi-locus sequence typing.ResultsTen colonies of C. gattii were cultured from different trunk hollows of the same divi-divi tree. Molecular characterization showed that all isolates were genotype AFLP6/VGII and mating-type α. Multi-locus sequence typing revealed that all isolates were genetically indistinguishable from each other.ConclusionsC. gattii is present in the environment of Bonaire, which suggests that this yeast is likely to be present in the environment of other Caribbean islands.     

Genetic Diversity and Ecological Success of Staphylococcus aureus Strains Colonizing Humans

The genetic determinants and phenotypic traits which make a Staphylococcus aureus strain a successful colonizer are largely unknown. The genetic diversity and population structure of 133 S. aureus isolates from healthy, generally risk-free adult carriers were investigated using four different typing methods: multilocus sequence typing (MLST), amplified fragment length polymorphism analysis (AFLP), double-locus sequence typing (DLST), and spa typing were compared. Carriage isolates displayed great genetic diversity which could only be revealed fully by DLST. Results of AFLP and MLST were highly concordant in the delineation of genotypic clusters of closely related isolates, roughly equivalent to clonal complexes. spa typing and DLST provided considerably less phylogenetic information. The resolution of spa typing was similar to that of AFLP and inferior to that of DLST. AFLP proved to be the most universal method, combining a phylogeny-building capacity similar to that of MLST with a much higher resolution. However, it had a lower reproducibility than sequencing-based MLST, DLST, and spa typing. We found two cases of methicillin-resistant S. aureus colonization, both of which were most likely associated with employment at a health service. Of 21 genotypic clusters detected, 2 were most prevalent: cluster 45 and cluster 30 each colonized 24% of the carrier population. The number of bacteria found in nasal samples varied significantly among the clusters, but the most prevalent clusters were not particularly numerous in the nasal samples. We did not find much evidence that genotypic clusters were associated with different carrier characteristics, such as age, sex, medical conditions, or antibiotic use. This may provide empirical support for the idea that genetic clusters in bacteria are maintained in the absence of adaptation to different niches. Alternatively, carrier characteristics other than those evaluated here or factors other than human hosts may exert selective pressure maintaining genotypic clusters.     

Fluorescent Amplified Fragment Length Polymorphism Analysis of Norwegian Bacillus cereus and Bacillus thuringiensis Soil Isolates

We examined 154 Norwegian B. cereus and B. thuringiensis soil isolates (collected from five different locations), 8 B. cereus and 2 B. thuringiensis reference strains, and 2 Bacillus anthracis strains by using fluorescent amplified fragment length polymorphism (AFLP). We employed a novel fragment identification approach based on a hierarchical agglomerative clustering routine that identifies fragments in an automated fashion. No method is free of error, and we identified the major sources so that experiments can be designed to minimize its effect. Phylogenetic analysis of the fluorescent AFLP results reveals five genetic groups in these group 1 bacilli. The ATCC reference strains were restricted to two of the genetic groups, clearly not representative of the diversity in these bacteria. Both B. anthracis strains analyzed were closely related and affiliated with a B. cereus milk isolate (ATCC 4342) and a B. cereus human pathogenic strain (periodontitis). Across the entire study, pathogenic strains, including B. anthracis, were more closely related to one another than to the environmental isolates. Eight strains representing the five distinct phylogenetic clusters were further analyzed by comparison of their 16S rRNA gene sequences to confirm the phylogenetic status of these groups. This analysis was consistent with the AFLP analysis, although of much lower resolution. The innovation of automated genotype analysis by using a replicated and statistical approach to fragment identification will allow very large sample analyses in the future.     

An AFLP-based database of Shigella flexneri and Shigella sonnei isolates and its use for the identification of untypable Shigella strains

Amplified fragment length polymorphism (AFLP) can be used to assess the genetic diversity of closely related microbial genomes. In this study, the first of its kind for identification of Shigella, the high discriminatory power of AFLP has been used to determine the genetic relatedness of 230 isolates of Shigella flexneri and Shigella sonnei strains. An AFLP database was generated to demonstrate its utility in the discrimination of closely related strains. Based on AFLP, S. flexneri strains could be grouped into separate clusters according to their serotypes. Within each serotype, strains demonstrated 80–100% similarity indicating that identical strains and closely related strains could be distinguished by this technique. S. flexneri 6 formed a distinct cluster with 55% similarity to the rest of the S. flexneri strains showing significant divergence from the rest of the S. flexneri strains. Significantly, S. sonnei isolates formed a distinct group and showed approximately the same level of genetic linkage to S. flexneri as Escherichia coli strains. Untypable isolates that showed conflicting agglutination reactions with conventional typing sera were identifiable by AFLP. Thus AFLP can be used for genetic fingerprinting of Shigella strains and aid in the identification of variant untypable isolates.     

Fluorescent Amplified Fragment Length Polymorphism Analysis of Bacillus anthracis, Bacillus cereus, and Bacillus thuringiensis Isolates

DNA from over 300 Bacillus thuringiensis, Bacillus cereus, and Bacillus anthracis isolates was analyzed by fluorescent amplified fragment length polymorphism (AFLP). B. thuringiensis and B. cereus isolates were from diverse sources and locations, including soil, clinical isolates and food products causing diarrheal and emetic outbreaks, and type strains from the American Type Culture Collection, and over 200 B. thuringiensis isolates representing 36 serovars or subspecies were from the U.S. Department of Agriculture collection. Twenty-four diverse B. anthracis isolates were also included. Phylogenetic analysis of AFLP data revealed extensive diversity within B. thuringiensis and B. cereus compared to the monomorphic nature of B. anthracis. All of the B. anthracis strains were more closely related to each other than to any other Bacillus isolate, while B. cereus and B. thuringiensis strains populated the entire tree. Ten distinct branches were defined, with many branches containing both B. cereus and B. thuringiensis isolates. A single branch contained all the B. anthracis isolates plus an unusual B. thuringiensis isolate that is pathogenic in mice. In contrast, B. thuringiensis subsp. kurstaki (ATCC 33679) and other isolates used to prepare insecticides mapped distal to the B. anthracis isolates. The interspersion of B. cereus and B. thuringiensis isolates within the phylogenetic tree suggests that phenotypic traits used to distinguish between these two species do not reflect the genomic content of the different isolates and that horizontal gene transfer plays an important role in establishing the phenotype of each of these microbes. B. thuringiensis isolates of a particular subspecies tended to cluster together.     

The Widespread Presence of a Multidrug-Resistant Escherichia coli ST131 Clade among Community-Associated and Hospitalized Patients

Background & Aims

The extent of entry of multidrug-resistant Escherichia coli from the community into the hospital and subsequent clonal spread amongst patients is unclear. To investigate the extent and direction of clonal spread of these bacteria within a large teaching hospital, we prospectively genotyped multidrug-resistant E. coli obtained from community- and hospital associated patient groups and compared the distribution of diverse genetic markers.

Methods

A total of 222 E. coli, classified as multi-drug resistant according to national guidelines, were retrieved from both screening (n = 184) and non-screening clinical cultures (n = 38) from outpatients and patients hospitalized for various periods. All isolates were routinely genotyped using an amplified fragment length polymorphism (AFLP) assay and real-time PCR for CTX-M genes. Multi-locus sequence typing was additionally performed to confirm clusters. Based on demographics, patients were categorized into two groups: patients that were not hospitalized or less than 72 hours at time of strain isolation (group I) and patients that were hospitalized for at least 72 hours (group II).

Results

Genotyping showed that most multi-drug resistant E. coli either had unique AFLP profiles or grouped in small clusters of maximally 8 isolates. We identified one large ST131 clade comprising 31% of all isolates, containing several AFLP clusters with similar profiles. Although different AFLP clusters were found in the two patient groups, overall genetic heterogeneity was similar (35% vs 28% of isolates containing unique AFLP profiles, respectively). In addition, similar distributions of CTX-M groups, including CTX-M 15 (40% and 44% of isolates in group I and II, respectively) and ST131 (32% and 30% of isolates, respectively) were found.

Conclusion

We conclude that multi-drug resistant E. coli from the CTX-M 15 associated lineage ST131 are widespread amongst both community- and hospital associated patient groups, with similar genetic diversity and similar distributions of genetic markers.