Genomic Analysis of Clostridium botulinum Group II by Pulsed-Field Gel Electrophoresis

Pulsed-field gel electrophoresis (PFGE) was optimized for genomic analyses of Clostridium botulinum (nonproteolytic) group II. DNA degradation problems caused by extracellular DNases were overcome by fixation of cells with formaldehyde prior to isolation. A rapid (4-h) in situ DNA isolation method was also assessed and gave indistinguishable results. Genomic DNA from 21 strains of various geographical and temporal origins was digested with 15 rare-cutting restriction enzymes. Of these, ApaI, MluI, NruI, SmaI, and XhoI gave the most revealing PFGE patterns, enabling strain differentiation. Twenty strains yielded PFGE patterns containing 13 pulsotypes. From summation of MluI, SmaI, and XhoI restriction fragments, the genome size of C. botulinum group II was estimated to be 3.6 to 4.1 Mb (mean ± standard deviation = 3,890 ± 170 kb). The results substantiate that after problems due to DNases are overcome, PFGE analysis will be a reproducible and highly discriminating epidemiological method for studying C. botulinum group II at the molecular level.     

Characteristics and genetic diversity of bioluminescent Shewanella woodyi strains isolated from the Gulf of Izmir, Turkey

The purpose of this study was to isolate bioluminescent strains and to phenotypically and biochemically identify them based on the 16S rRNA gene sequence. 16S rRNA gene sequence analysis of the 11 isolates revealed that they belonged to Shewanella woodyi. Nevertheless, they were determined to exhibit various growth characteristics, enzymatic activities, assimilation of carbon and nitrogen sources, and different characteristics in antibiotic resistance profiles, and also, it was determined that different growth conditions affect the amount of biofilm. Pulsed-field gel electrophoresis (PFGE) analysis of S. woodyi strains performed with SmaI and NotI restriction enzymes revealed that they exhibited restriction fragment pattern homology ranging from 56 to 89 % and from 82 to 94 %, respectively. As a result, PFGE analysis of the genome S. woodyi (as the first record) revealed that although these strains inhabiting the Gulf of Izmir exhibit common characteristics, they also have high levels of genomic polymorphism.     

Molecular Typing by Pulsed-Field Gel Electrophoresis of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> from Root Voles

The root voles intestinal strains of Bacillus thuringiensis, were characterised by pulsed-field gel electrophoresis (PFGE). For 14 isolates, three pulsotypes were found, with the use of SmaI or NotI as restriction enzymes. Strains in each pulsotypes presented identical DNA patterns, indicating that the population structure of B. thuringiensis from root voles is clonal. The similarities in banding patterns were estimated at 56% and 33% for SmaI and NotI digests, respectively. The strains under study differed significantly in the size of their entire genome, which varied between 2.4 and 4.2 Mb. No significant differences were detected among the isolates subjected to biochemical properties determined by API tests. Present study showed that genomic diversity is a common feature of B. thuringiensis originating from one ecological niche. PFGE appears to be a useful technique for use in studies on the spread of B. thuringiensis in the environment. Received: 14 May 2002 / Accepted: 21 June 2002     

Physical and genetic chromosomal maps of Streptococcus agalactiae, serotypes II and III; rRNA operon organization

A detailed analysis of two Streptococcus agalactiae (group B streptococcus, GBS) strains was performed by pulsed field gel electrophoresis (PFGE). Digestion of the chromosomal DNA with SmaI and SgrAI endonucleases, followed by separation and analysis of fragments by PFGE was carried out. Physical chromosomal maps of serotype II/(α+β) and III/α strains of S. agalactiae were constructed. The GBS genome size was estimated to be 2200 kb. Sixteen GBS genes were used as probes and were located on the restriction maps of both strains by DNA-DNA hybridization. Six copies of ribosomal operons were found in the genome of the analyzed strains. Significant differences in the restriction patterns of chromosomal DNA and DNA-DNA hybridization between the two analyzed strains were detected so that DNA restriction patterns may be used to trace outbreaks of disease. The overall GBS chromosomal organization as determined is fairly conserved.     

Comparison of Three Methods for Epidemiological Typing of <Emphasis Type="Italic">Campylobacter jejuni</Emphasis> and <Emphasis Type="Italic">C. coli</Emphasis>

A total of 168 Campylobacter strains (154 C. jejuni and 14 C. coli) isolated from human clinical samples and chicken meat were typed using Penner serotyping, randomly amplified polymorphic DNA (RAPD), and pulsed-field gel electrophoresis (PFGE) with four restriction enzymes (Sac II, Sal I, Sma I, Kpn I).The 168 strains were found to represent 13 different Penner-types and 72 different RAPD-types. However, the discriminatory potential of PFGE was dependent on the restriction enzymes used. The 168 strains were divided into 74 (Sac II), 73 (Sal I), 72 (Sma I) and 69 (Kpn I) types. The DNA of some strains was not digested by Sal I, Sma I and Kpn I. Although three RAPD-types were further subdivided by PFGE, RAPD showed good discriminatory power and a high level of agreement with PFGE patterns in terms of strain differentiation.To compare the similarities of PFGE patterns (Sac II) among the strains, a dendrogram was constructed based on the unweighted pair group method with averages (UPGMA). In most cases, DNA types of C. coli were different from those of C. jejuni. The similarities between human and meat isolates were less than 0.42 except for one outbreak in which the isolates from both patients and chicken meat showed the same DNA types.     

Intraspecies Genomic Groups in Enterococcus faecium and Their Correlation with Origin and Pathogenicity

Seventy-eight Enterococcus faecium strains from various sources were characterized by random amplified polymorphic DNA (RAPD)-PCR, amplified fragment length polymorphism (AFLP), and pulsed-field gel electrophoresis (PFGE) analysis of SmaI restriction patterns. Two main genomic groups (I and II) were obtained in both RAPD-PCR and AFLP analyses. DNA-DNA hybridization values between representative strains of both groups demonstrated a mean DNA-DNA reassociation level of 71%. PFGE analysis revealed high genetic strain diversity within the two genomic groups. Only group I contained strains originating from human clinical samples or strains that were vancomycin-resistant or beta-hemolytic. No differentiating phenotypic features between groups I and II were found using the rapid ID 32 STREP system. The two groups could be further subdivided into, respectively, four and three subclusters in both RAPD-PCR and AFLP analyses, and a high correlation was seen between the subclusters generated by these two methods. Subclusters of group I were to some extent correlated with origin, pathogenicity, and bacteriocinogeny of the strains. Host specificity of E. faecium strains was not confirmed.     

Identification and Characterization of Leuconostoc carnosum, Associated with Production and Spoilage of Vacuum-Packaged, Sliced, Cooked Ham

Leuconostoc carnosum was shown to be the specific spoilage organism in vacuum-packaged, sliced, cooked ham showing spoilage during 3 weeks of shelf life. Identification of the specific spoilage organism was done by use of phenotypic data and ClaI, EcoRI, and HindIII reference strain ribopatterns. One hundred L. carnosum isolates associated with the production and spoilage of the ham were further characterized by pulsed-field gel electrophoresis (PFGE), together with some meat-associated Leuconostoc species: L. citreum, L. gelidum, L. mesenteroides subsp. dextranicum, and L. mesenteroides subsp. mesenteroides. ApaI and SmaI digests divided the industrial L. carnosum strains into 25 different PFGE types, ApaI and SmaI types being consistent. Only one specific PFGE type was associated with the spoiled packages. This type also was detected in air and raw-meat mass samples. The spoilage strain did not produce bacteriocins. Only seven isolates belonging to three different PFGE types produced bacteriocins. Similarity analysis of the industrial L. carnosum strains revealed a homogeneous cluster which could be divided into eight subclusters consisting of strains having at most three-fragment differences. The L. carnosum cluster was clearly distinguished from the other meat-associated leuconostoc clusters, with the exception of the L. carnosum type strain. Ribotyping can be very helpful in the identification of L. carnosum, but its discriminatory power is too weak for strain characterization. PFGE provides good discrimination for studies dealing with the properties of homogeneous L. carnosum strains.     

Characterisation of Listeria ivanovii isolates from the UK using pulsed-field gel electrophoresis

Forty-three Listeria ivanovii isolates were collected in the UK between 1991 and 1997 from: 35 animal infections; two human infections; five foods; and one environmental source. A further two type strains of L. ivanovii (subsp. ivanovii and subsp. londoniensis) were obtained from a culture collection. These bacteria were characterised by conventional phenotypic methods and by pulsed-field gel electrophoresis (PFGE) using ApaI and SmaI. Forty-two of the isolates from the UK were identified as L. ivanovii subsp. ivanovii and the remaining culture as L. ivanovii subsp. londoniensis. Six and four PFGE profiles were obtained using ApaI and SmaI digestion respectively; six composite profiles were obtained combining the results for both enzymes. The PFGE profile of the UK L. ivanovii subsp. londoniensis (isolated from processed shrimps) was similar to the type strain of this subspecies and differed from all of the L. ivanovii subsp. ivanovii tested. The majority of isolates (38 out of 45) belonged to one profile showing that the UK population of this bacterium is much less genetically diverse than similar studies have shown for Listeria monocytogenes.     

Pulsed-Field Gel Electrophoresis of SmaI Digests of Lactococcal Genomic DNA, a Novel Method of Strain Identification

The pulsed-field gel electrophoresis (PFGE) pattern of SmaI digests of 29 strains of Lactococcus lactis subsp. lactis and subsp. cremoris were determined. Unrelated strains yielded markedly different patterns of digestion products. Bacteriophage-resistant derivatives of four strains, generated by a method analogous to that used regularly in some cheese factories, yielded patterns that were identical or almost identical to that of the parent strain. It is proposed that a 16-h PFGE run with a pulse time increasing linearly from 1 to 20 s, which separates fragments between 50 and 240 kilobase pairs (kbp) and produces a pattern containing around 15 bands, can be used as a reliable procedure for strain identification in the lactococci. SmaI digests of 24 of the strains were analyzed by PFGE at three different pulse times to determine accurately the sizes of fragments bigger than 8 kbp. The sum of the sizes of all of the fragments in the digest of a strain provided an estimate of the genome size of the strain. For all the strains analyzed, this estimate was within the range of 2.0 to 2.7 Mbp, with no apparent difference between L. lactis subsp. lactis, L. lactis subsp. lactis biovar diacetylactis and L. lactis subsp. cremoris strains.     

Restriction Fragment Length Polymorphism (RFLP) of Genomic DNA of Moraxella (Branhamella) catarrhalis Isolates in a Hospital

Epidemiological typing, based on restriction fragment length polymorphism (RFLP) by pulsed-field gel electrophoresis (PFGE), was attempted for the 38 clinical isolates of Moraxella catarrhalis obtained at Shinshu University Hospital during the years 1987 and 1993. Digestion with SmaI or NotI generated well separable, 12 to 5 genomic DNA fragments ranging from 1,000 kb to 30 kb and the strains could be classified into 14 or 13 types, respectively. The electrophoretic profile differed with the strain in most of them and was hence useful to distinguish the each strain. Investigation for their RFLP have, however, suggested that majority of them, including the type strain ATCC25238, may have derived from a common ancestor.     

Stability of Related Human and Chicken Campylobacter jejuni Genotypes after Passage through Chick Intestine Studied by Pulsed-Field Gel Electrophoresis

The genomic stability of 12 Campylobacter jejuni strains consisting of two groups of human and chicken isolates was studied by analysis of their PFGE (pulsed-field gel electrophoresis) patterns after passage through newly hatched chicks’ intestines. The patterns of SmaI, SalI, and SacII digests remained stable after intestinal passage, except for those of two strains. One originally human strain, FB 6371, changed its genotype from II/A (SmaI/SacII) to I/B. Another strain, BTI, originally isolated from a chicken, changed its genotype from I/B to a new genotype. The genomic instability of the strains was further confirmed by SalI digestion and ribotyping of the HaeIII digests. In addition, heat-stable serotype 57 of strain FB 6371 changed to serotype 27 in all isolates with new genotypes but remained unchanged in an isolate with the original genotype. Serotype 27 of strain BTI remained stable. Our study suggests that during intestinal colonization, genomic rearrangement, as demonstrated by changed PFGE and ribopatterns, may occur.     

Finnish Campylobacter jejuni strains of multilocus sequence type ST-22 complex have two lineages with different characteristics

Background

Campylobacter jejuni is the major cause of human bacterial gastroenteritis worldwide, and in a minority of cases, post-infectious complications may occur. ST-22 complex (usually Penner serotype 19) strains have been overrepresented among patients with postinfectious complications of campylobacteriosis. We here present a characterization of a collection of 27 Finnish C. jejuni strains of ST-22 complex, from humans (22 strains) and animal sources (five strains), with the aim of contributing to our knowledge of the pathogenesis of C. jejuni infections.

Methodology/Principal Findings

All strains were analyzed by pulsed-field gel electrophoresis (PFGE) genotyping, lipo-oligosaccharide (LOS) locus class, Y-glutamyl transpeptidase (GGT) activity, in vitro biofilm formation ability, invasion and adhesion in HeLa cells and induction of IL-8 production. ST-22 complex contained five STs (ST-22; ST-1947; ST-1966; ST-3892; ST-3996) which were homogeneous in having sialylated LOS class A₁ but on the other hand were distinguished into two major lineages according to the major STs (ST-22 and ST-1947) by different PFGE genotypes and certain other characteristics. All ST-22 strains had similar SmaI PFGE profiles, were GGT positive, and formed biofilms, except one strain, while ST-1947 strains were all GGT negative, did not form biofilm, had significantly higher motility than ST-22 (p<0.05) and had their SmaI PFGE profile. Invasion and adhesion as well as induction of IL-8 production on HeLa cells were strain-dependent characteristics.

Conclusions/Significance

ST-22 complex strains, reveal potential for molecular mimicry in host interactions upon infection as they all express sialylated LOS class A₁. The two major STs, ST-22 and ST-1947 formed two homogeneous lineages, which differed from each other both phenotypically and genetically, suggesting that the strains may have evolved separately, perhaps by interacting with different spectra of hosts. Further studies are needed in order to understand if these two lineages are associated with different disease outcomes.     

Genomic Relatedness within Five Common Finnish Campylobacter jejuni Pulsed-Field Gel Electrophoresis Genotypes Studied by Amplified Fragment Length Polymorphism Analysis, Ribotyping, and Serotyping

Thirty-five Finnish Campylobacter jejuni strains with five SmaI/SacII pulsed-field gel electrophoresis (PFGE) genotypes selected among human and chicken isolates from 1997 and 1998 were used for comparison of their PFGE patterns, amplified fragment length polymorphism (AFLP) patterns, HaeIII ribotypes, and heat-stable (HS) serotypes. The discriminatory power of PFGE, AFLP, and ribotyping with HaeIII were shown to be at the same level for this selected set of strains, and these methods assigned the strains into the same groups. The PFGE and AFLP patterns within a genotype were highly similar, indicating genetic relatedness. The same HS serotypes were distributed among different genotypes, and different serotypes were identified within one genotype. HS serotype 12 was only associated with the combined genotype G1 (PFGE-AFLP-ribotype). These studies using polyphasic genotyping methods suggested that common Finnish C. jejuni genotypes form genetic lineages which colonize both humans and chickens.     

Evaluation of Genetic Relatedness of Bacteroides fragilis Strains Isolated from Different Sources by AP-PCR and Pulsed-Field Gel Electrophoresis Assays

The genetic relatedness of 71 Bacteroides fragilis strains isolated from different sources (human intestinal and non-intestinal infections and animal intestinal infections, human and animal intestinal microflora and polluted aquatic environment) was evaluated by arbitrarily primed-polymerase chain reaction (AP-PCR) and pulsed-field gel electrophoresis (PFGE). The presence of the enterotoxin gene (bft) and β-lactamase genes (cep A, cfi A) was also determined by PCR. The amplification with the arbitrary primer AP12h produced electrophoretic profiles and the use of a biostatistical program (NTSYS) provided a dendrogram that revealed nine amplitypes, clustered in two groups, AI and AII, at a genetic distance of 0.30. Eight strains harbouring cfi A gene presented homogeneous profiles and could be clustered (amplitype A8) as well as 82.4% of the strains isolated from non-intestinal infections (amplitype A4). EnterotoxigenicB. fragilis strains (ETBF) were clustered in group AI as well as non-enterotoxigenic B. fragilis strains (NTBF). PFGE was used to analyse strains representative of each ampli-type formed. DNA restriction with Not I generated 25 PFGE profiles and only two pairs of strains presented more than 90% of similarity when Dice's coefficient and UPGMA clustering were applied. Although our data suggest a relevant relatedness among cfi A positive strains and among strains isolated from non-intestinal infections using AP-PCR, the use of a method with a greater discriminatory power revealed the wide diversity. These data reinforce the idea of infinite heterogeneity among B. fragilis strains.     

Use of Pulsed-Field Gel Electrophoresis and Flagellin Gene Typing in Identifying Clonal Groups of Campylobacter jejuni and Campylobacter coli in Farm and Clinical Environments

Although campylobacters have been isolated from a wide range of animal hosts, the association between campylobacters isolated from humans and animals in the farm environment is unclear. We used flagellin gene typing and pulsed-field gel electrophoresis (PFGE) to investigate the genetic diversity among isolates from animals (cattle, sheep, and turkey) in farm environments and sporadic cases of campylobacteriosis in the same geographical area. Forty-eight combined fla types were seen among the 315 Campylobacter isolates studied. Six were found in isolates from all four hosts and represented 50% of the total number of isolates. Seventy-one different SmaI PFGE macrorestriction profiles (mrps) were observed, with 86% of isolates assigned to one of 29 different mrps. Fifty-seven isolates from diverse hosts, times, and sources had an identical SmaI mrp and combined fla type. Conversely, a number of genotypes were unique to a particular host. We provide molecular evidence which suggests a link between campylobacters in the farm environment with those causing disease in the community.     

Mapping of BamHI and SmaI DNA restriction sites on the genome of the nuclear polyhedrosis virus of the alfalfa looper, Autographa californica

The DNA of the nuclear polyhedrosis virus of the alfalfa looper, Autographa californica (AcNPV), has been analyzed with restriction endonucleases BamHI and SmaI. The molecular weight of the BamHI fragments, SmaI fragments, and BamHI + SmaI fragments has been determined. The molecular weight of AcNPV DNA is calculated to be about 82 million. A presumptive physical map of the BamHI and SmaI restriction sites on the AcNPV genome has been constructed.     

Plasmid Profile and Pulsed–Field Gel Electrophoresis Analysis of Salmonella enterica Isolates from Humans in Turkey

This study was conducted for typing Salmonella enterica subspecies enterica strains in Turkey using pulsed–field gel electrophoresis (PFGE) and plasmid DNA profile analysis. Fourty-two strains were isolated from clinical samples obtained from unrelated patients with acute diarrhea. The samples were collected from state hospitals and public health laboratories located at seven provinces in different regions of Turkey at different times between 2004 and 2010. The strains were determined to belong to 4 different serovars. The Salmonella enterica strains belonged to the serovars Salmonella Enteritidis (n = 23), Salmonella Infantis (n = 14), Salmonella Munchen (n = 2), and Salmonella Typhi (n = 3). Forty-two Salmonella enterica strains were typed with PFGE methods using XbaI restriction enzyme and plasmid analysis. At the end of typing, 11 different PFGE band profiles were obtained. Four different PFGE profiles (type 1, 4, 9, and 10) were found among serotype S. Enteritidis species, 3 different PFGE profiles (type 3, 5, 6) were found among S. Infantis species, 2 different PFGE profiles were found among S. Typhi species (type 2 and 11), and 2 different PFGE profiles were found among S. Munchen species (type 7, 8). The UPGMA dendrogram was built on the PFGE profiles. In this study, it was determined that 4 strains of 42 Salmonella enterica strains possess no plasmid, while the isolates have 1–3 plasmids ranging from 5.0 to 150 kb and making 12 different plasmid profiles (P1–P12). In this study, we have applied the analysis of the PFGE patterns and used bioinformatics methods to identify both inter and intra serotype relationships of 4 frequently encountered serotypes for the first time in Turkey.     

Genotypic Diversity among Bacillus cereus and Bacillus thuringiensis Strains

Twenty-four strains of Bacillus cereus were analyzed by pulsed-field gel electrophoresis (PFGE) and compared with 12 Bacillus thuringiensis strains. In addition, the 36 strains were examined for variation in 15 chromosomal genes encoding enzymes (by multilocus enzyme electrophoresis [MEE]). The genome of each strain had a distinct NotI restriction enzyme digestion profile by PFGE, and the 36 strains could be assigned to 27 multilocus genotypes by MEE. However, neither PFGE nor MEE analysis could distinguish between the two species. Two of the B. cereus strains contained extrachromosomal DNA that hybridized to a cryIA insecticidal toxin probe, and seven strains contained DNA with homology to a Tn4430 transposon probe derived from B. thuringiensis. The results strongly indicate that B. cereus and B. thuringiensis should be regarded as one species.     

First finding of urease-positive thermophilic strains of Campylobacter in river water in the Far East, namely, in Japan and their phenotypic and genotypic characterization

Two strains of urease-positive thermophilic Campylobacter (UPTC), CF89–12 and CF89–14, which were identified as UPTC by biochemical characterization, were found for the first time in river water in the Far East, namely, in Japan. The biochemical characteristics were identical to those of strains described previously by Bolton and colleagues. Furthermore, these two strains were positive for arylsulphatase. Consequently, it was demonstrated that UPTC may possibly be differentiated phenotypically from Campylobacter lari by the arylsulphatase test, as well as urease and nalidixic acid tests. Analysis by pulsed-field gel electrophoresis (PFGE) after digestion with Apa I, Sal I and Sma I, which were found to produce distributions of DNA fragments to be suitable for analysis of the genomic DNA from the thermophilic Campylobacter , respectively, demonstrated that these three restriction enzymes produced distributions of a relatively limited number of genomic DNA fragments and also demonstrated that the PFGE profiles obtained with the three restriction enzymes were indistinguishable between the two strains, respectively. The PFGE analysis and conventional fixed-field agarose gel electrophoresis suggested that the both genomes were approximately 1862 kb in length. Even though the two isolates of UPTC were isolated from water in different rivers in Japan, the results suggested that a single strain. as opposed to two distinct strains, was isolated. PFGE profiles after digestion with Sal I and Sma I, respectively, were also demonstrated to be distinctly different among strains isolated in Japan and previously in Europe. This is the first example of the isolation of UPTC from natural sources in countries other than those in Europe.     

Relatedness of Strains of Xanthomonas fragariae by Restriction Fragment Length Polymorphism, DNA-DNA Reassociation, and Fatty Acid Analyses

The levels of relatedness of strains of Xanthomonas fragariae collected over several years from locations in Canada and the United States were compared by determining fatty acid methyl ester profiles, restriction fragment length polymorphisms (RFLP) based on pulsed-field gel electrophoresis (PFGE) analysis, and DNA-DNA reassociation values. Based on qualitative and quantitative differences in fatty acid profiles, the strains were divided into nine groups and four groups by the MIDI “10% rule” and unweighted pair analysis, respectively. Restriction analysis of genomic DNA by PFGE with two endonucleases (XbaI and SpeI) revealed four distinct profiles. When a third endonuclease (VspI) was used, one group was divided into three subgroups. The profile of the American Type Culture Collection type strain differed from the profile of every other strain of X. fragariae. Considerable diversity was observed within X. fragariae, although the majority of the strains represented a clonal population. The four groups based on fatty acid profiles were similar to the four groups based on RFLP, but neither method related groups to the geographic origins of the strains. The DNA-DNA reassociation values were high for representative strains, providing evidence that all of the strains belong to the same species.