Evaluation of randomly amplified polymorphic DNA and pulsed field gel electrophoresis techniques for molecular typing of Dermatophilus congolensis

This study aimed to evaluate molecular typing methods useful for standardization of strains in experimental work on dermatophilosis. Fifty Dermatophilus congolensis isolates, collected from sheep, cattle, horse and a deer, were analyzed by randomly amplified polymorphic DNA (RAPD) method using twenty-one different primers, and the results were compared with those obtained by typing with a pulsed field gel electrophoresis (PFGE) method using the restriction digest enzyme Sse8387I. The typeability, reproducibility and discriminatory power of RAPD and Sse8387I-PFGE typing were calculated. Both typing methods were highly reproducible. Of the two techniques, Sse8387I-PFGE was the least discriminating (Dice Index (DI), 0.663) and could not distinguish between epidemiologically related isolates, whereas RAPD showed an excellent discriminatory power (DI, 0.7694-0.9722). Overall, the degree of correlation between RAPD and PFGE typing was significantly high (r, 0.8822). We conclude that the DNA profiles generated by either RAPD or PFGE can be used to differentiate epidemiologically unrelated isolates. The results of this study strongly suggest that at least two independent primers are used for RAPD typing in order to improve its discriminatory power, and that PFGE is used for confirmation of RAPD results.     

Differentiation between isolates of Helicobacter pylori by PCR-RFLP analysis of urease A and B genes and comparison with ribosomal RNA gene patterns

Abstract Genetic diversity amongst 21 human gastric isolates of Helicobacter pylori was investigated by polymerase chain reaction amplification and Hae III digest (restriction fragment length polymorphism) analysis of an internal 2.4-kb segment of the urease A and urease B genes. H. pylori from 11 independent individuals yielded nine distinct restriction fragment patterns but only one pattern was common to H. pylori from two individuals. By contrast, multiple isolate sets of H. pylori from two patients each had common urease gene patterns. Most strains with the same urease gene patterns were distinguishable in their ribosomal RNA gene patterns. The study demonstrated diversity amongst H. pylori and established that PCR analysis of urease genes provided a novel method of identifying isolates. The profiles were reproducible and convenient to obtain and analyse, and were almost as discriminatory as Hae III ribopatterns.     

Typing of Staphylococcus epidermidis strains by random amplification of polymorphic DNA

Abstract The polymerase chain reaction was used to obtain randomly amplified polymorphic DNA profiles for typing of Staphylococcus epidermidis strains. Epidemiologically unrelated S. epidermidis isolates were screened with randomly amplified polymorphic DNA analysis. The discriminating ability of 45 randomly designed 10-mer primers was assessed. The highest discriminatory power was obtained with the 10-mer oligonucleotide OPAM-12. In typing a total of 13 unrelated S. epidermidis strains with OPAM-12,11 different banding profiles were obtained reproducibly by agarose gel electrophoresis. The discriminatory power of the method with OPAM-12 was estimated using the D value of Hunter and Gaston (1988) to be 0.961. A reproducibility index of 1 was obtained after typing a total of 40 cultures including 12 triplicates and one quadruplicate of the 13 unrelated strains. Following the described procedure, the randomly amplified polymorphic DNA method provided a rapid, simple and reproducible alternative to other S. epidermidis typing systems.     

Specific identification and molecular typing analysis of Lactobacillus johnsonii by using PCR-based methods and pulsed-field gel electrophoresis

A fast and reliable Multiplex-PCR assay was established to identify the species Lactobacillus johnsonii. Two opposing rRNA gene-targeted primers have been designed for this specific PCR detection. Specificity was verified with DNA samples isolated from different lactic acid bacteria. Out of 47 Lactobacillus strains isolated from different environments, 16 were identified as L. johnsonii by PCR. The same set of strains was investigated with five alternative molecular typing methods: enterobacterial repetitive intergenic consensus PCR (ERIC-PCR), repetitive extragenic palindromic PCR (REP-PCR), amplified fragment length polymorphism, single triplicate arbitrarily primed PCR, and pulsed-field gel electrophoresis in order to compare the discriminatory power of these methods. The reported data strongly support the highly significant heterogeneity among all L. johnsonii isolates, potentially linked to their origin of isolation. The use of species-specific primers as well as rapid and highly powerful PCR-based molecular typing tools (namely ERIC- and REP-PCR techniques) should be respectively envisaged for identifying, differentiating and monitoring L. johnsonii strains from various environmental samples, for product monitoring, for species tracing in clinical studies as well as bacterial profiling of various microecological or gastrointestinal environments.     

Detection of Helicobacter pylori in water by direct PCR

AIMS: This paper demonstrates a rapid, simple method for the detection of Helicobacter pylori in water that eliminates the need for recovery of cells or DNA extraction prior to PCR. METHODS AND RESULTS: Direct polymerase chain reaction (DPCR) with primers specific for H. pylori ureA (urease, subunit A) were used to detect H. pylori added to groundwater. DPCR also detected H. pylori in a naturally contaminated water sample. CONCLUSIONS: DPCR should provide an improved method to assess contamination of water by H. pylori. SIGNIFICANCE AND IMPACT OF THE STUDY: This simple, rapid method for detection of H. pylori in water will provide an improved means to investigate the possible role of water as a disease vector.     

Analysis of the Pan Genome of <Emphasis Type="Italic">Campylobacter jejuni</Emphasis> Isolates Recovered from Poultry by Pulsed-Field Gel Electrophoresis,Multilocus Sequence Typing (MLST), and Repetitive Sequence Polymerase Chain Reaction (rep-PCR) Reveals Different Discriminatory Capabilities

Campylobacter jejuni is one of the leading bacterial causes of food-borne illness in the USA. Molecular typing methods are often used in food safety for identifying sources of infection and pathways of transmission. Moreover, the identification of genetically related isolates (i.e., clades) may facilitate the development of intervention strategies for control and prevention of food-borne diseases. We analyzed the pan genome (i.e., core and variable genes) of 63 C. jejuni isolates recovered from chickens raised in conventional, organic, and free-range poultry flocks to gain insight into the genetic diversity of C. jejuni isolates recovered from different environments. We assessed the discriminatory power of three genotyping methods [i.e., pulsed-field gel electrophoresis (PFGE), multilocus sequence typing (MLST), and repetitive extragenic palindromic polymerase chain reaction (rep-PCR)]. The rep-PCR fingerprint was generated by determining the presence of repetitive sequences that are interspersed throughout the genome via repetitive extragenic palindromic PCR, enterobacterial repetitive intergenic consensus sequence PCR (ERIC-PCR), and BOX element PCR (BOX-PCR) and combining the data to form a composite fingerprint. The genetic fingerprints were subjected to computer-assisted pattern analysis. Comparison of the three genotypic methods revealed that repREB-PCR showed greater discriminatory power than PFGE and MLST. ERIC-PCR and BOX-PCR yielded the highest number of PCR products and greatest reproducibility. Regardless of the genotyping method, C. jejuni isolates recovered from chickens reared in conventional, organic, and free-range environments all exhibit a high level of genotypic diversity.     

Optimization of random amplification of polymorphic DNA analysis for molecular subtyping of Escherichia coli O157

Random amplification of polymorphic DNA (RAPD) analysis using the polymerase chain reaction has proved to be a useful technique in the epidemiological investigation of micro-organisms but may suffer from a lack of reproducibility in poorly optimized protocols. In this study a method of obtaining reproducible genomic fingerprints using RAPD analysis of Escherichia coli O157 is described. By systematic optimization of reaction conditions and selection of suitable primers, reproducible and discriminatory profiles could be obtained from all E. coli O157 strains tested. In addition, two other methods of obtaining reproducible profiles from E. coli O157 strains without the need to purify genomic DNA are described.     

Genetic diversity of Helicobacter pylori indexed with respect to clinical symptomatology, using a 16S rRNA and a species-specific DNA probe

DNA probes are described which identify group and fingerprint strains of the human gastric pathogen Helicobacter pylori , on the basis of well-defined band homologies. A 544 bp internal fragment of the 16S ribosomal RNA gene was generated by polymerase chain reaction (PCR) with primers derived from the Escherichia coli rRNA gene sequence. In genomic Southern blots this probe detected restriction site variation around these loci, generating simple but strain-specific molecular fingerprints. A small conserved chromosomal fragment of 1.2 kbp, Hps, species-specific for H. pylori , was obtained by cloning random Hind III fragments into pUC19. It was useful for dot-blot identification, and also separated isolates into one major and two minor groups. When results for these two probes were combined, a baseline characterization of genotype was obtained. A band-matching database of molecular fingerprints for the type strain and 63 clinical isolates of H. pylori from asymptomatic, ulcer and gastritis contexts is presented. No significant association between the genotypes at this level of definition and the associated clinical symptomatology of the isolates was detected.     

单纯疱疹病毒基因组的限制性核酸内切酶分析

为了获得单纯疱疹病毒(HSV)基因组的限制性核酸内切酶(RE)分析资料和选择合适的RE去研究HSV感染,用11种常用的RE对HSV两个型别的实验室标准毒株的基因组分别作了分析。比较研究的结果表明,BamHI、HpaI和PstI等RE较适于HSV的研究和分型。本研究所采用的小量提取HSV DNA的方法具有快速、简便和实用的特点,值得在HSV感染的诊断、分型和HSV分子流行病学诸研究中推广使用。     

不同部位、分化和起源胃癌中H.pylori、CagA基因的探讨

目的通过检测不同部位和不同组织类型中胃癌组织中幽门螺杆菌(H.pylori)和细胞毒素相关基因(CagA基因),探讨H.pylori、CagA基因与胃癌的关系,以及H.pylori、CagA基因导致胃癌的可能机制。方法应用快速尿素酶试验和组织切片革兰染色及血清H.pylori CagA抗体检测胃癌患者H.pylori,应用PCR检测胃癌组织中H.pylori CagA基因。结果胃癌组织中随活检部位不同,H.pylori检出率也不同,以胃窦部检出率最高为76.9%,与胃体大弯侧、胃角和贲门相比差异均有非常显著性(P0.005),胃体大弯侧、胃角与贲门相比差异均有非常显著性(P0.005),胃底与贲门相比差异无显著性(P0.05)。胃窦部癌的CagA检出率(85.6%)最高,与其他部位相比差异均有非常显著性(P0.005),胃角胃癌CagA检出率显著高于胃体大弯侧和贲门胃癌(P0.005)。高分化胃癌H.pylori检出率为73.1%,低分化胃癌H.pylori检出率为44.1%,二者相比差异均有非常显著性(P0.01)。肠型胃癌H.pylori检出率为76.7%,弥漫型胃癌H.pylori检出率为33.3%,二者相比差异有显著性(P0.05),高分化胃癌CagA检出率为26.3%,低分化胃癌CagA检出率为80.0%,二者相比差异均有非常显著性(P0.01)。肠型胃癌CagA检出率为80.4%,弥漫型胃癌CagA检出率为57.1%,二者相比差异无显著性(P0.05)。结论不同部位和不同组织类型中胃癌组织中H.pylori和CagA基因的表达存在一定差异性,对探讨胃癌的发生及胃癌的防治有一定的指导意义。     

Restriction enzyme mapping of bacterial urease genes: using degenerate primers to expand experimental outcomes

Two degenerate primers are described that can be used to amplify a 340 bp fragment of the ureC gene from a variety of urease producing bacteria. A series of experiments are outlined that enable students to develop restriction maps of the urease gene clusters from different bacteria. Students learn a variety of molecular biology techniques including polymerase chain reaction, agarose gel electrophoresis, and Southern blotting. This project allows for multiple experimental outcomes using the same two PCR primers.     

Gastric Juice Polymerase Chain Reaction: An Alternative to Histology in the Diagnosis of Helicobacter pylori Infection

Background. Infection from Helicobacter pylori plays a role in several gastroduodenal diseases. The recent availability of molecular techniques, particularly the polymerase chain reaction (PCR), allows us to detect small amounts of this bacterium. The aims of this study were to compare PCR and histological findings and to ascertain the clinical usefulness of H. pylori PCR identification in different biological samples.
Materials and Methods. We studied 94 consecutive patients. Saliva, gastric juice, and four antral and four body biopsies were obtained from each patients. H. pylori was evaluated histologically in two antral and two body biopsies (Giemsa or Warthin-Starry stain). After extraction, DNA was submitted for PCR amplification using the two primers HPU1 and HPU2, which amplified a 411-bp product from the urease gene A.
Results. Forty-nine patients were H. pylori -positive at histological workup. The sensitivity of PCR was 92% for gastric juice, 73% for antral biopsies, 61% for body biopsies, and 13% for saliva. Of the 45 H. pylori -negative patients at histological assessment, 7 (16%) had positive findings on PCR, mainly when gastric juice was examined.
Conclusions. These results indicate that PCR is as sensitive as histological assessment. We suggest that PCR H. pylori detection in gastric juice is a sensitive method for diagnosing this infection.     

Characterization of Candida krusei strains from spontaneously fermented maize dough by profiles of assimilation, chromosome profile, polymerase chain reaction and restriction endonuclease analysis

Several isolates of Candida krusei from indigenous spontaneously fermented maize dough have been characterized for the purpose of selecting appropriate starter cultures and methods for their subspecifies typing. The present work describes the occurrence of C. krusei in Ghanaian fermented maize dough. For detailed pheno- and genotyping, 48 representative isolates were selected and comparison was made with clinical isolates of C. krusei and reference cultures. The techniques applied included the assimilation of carbon compounds by the API ID 32 C kit, determination of chromosome profile by pulse field gel electrophoresis, polymerase chain reaction (PCR) profiles, restriction endonuclease analysis (REA) and Southern blot hybridization. For the 48 isolates tested, 82% had the same assimilation profiles, being able to assimilate N-acetyl-glucosamine, DL-lactate, glycerol and to ferment glucose. Chromosome and PCR profiles, REA and Southern blot hybridization techniques all had a high discriminatory power and revealed DNA polymorphism, which allowed for discrimination among the strains and hence subspecific typing. On the basis of PCR and REA profiles, isolates were grouped into clusters. Southern blot hybridization appeared to be the most sensitive with respect to strain specificity. Our results demonstrated that the three methods, PCR, REA and Southern blot hybridization, were suitable tools, easy to analyse, fast (with regard to PCR) and reliable methods for the typing of C. krusei isolates to species and below species level. Based on the use of these techniques, we demonstrated that several strains of C. krusei were involved in the fermentation of maize dough from the onset and remain dominant throughout the fermentation.     

Genotyping of clinical Serratia marcescens isolates: a comparison of PCR-based methods

The polymerase chain reaction (PCR)-based procedures of randomly amplified polymorphic DNA (RAPD) and repetitive element (RE)-based PCR were used to amplify total DNA prepared from each of 62 clinical Serratia marcescens isolates. Three different random primers, designated 1060, 1254 and 1283, were used individually in RAPD-PCR. Primers representing enterobacterial repetitive intergenic consensus (ERIC) sequences, extragenic palindromic (REP) elements, and polymorphic GC-rich repetitive sequences (PGRS) constituted the repetitive element-PCR. We were able to generate 40, 40 and 58 genotypic groupings using the 1060, 1254 and 1283 RAPD primers, respectively. Using the ERIC, REP and PGRS primers, 19, 54 and 60 unique genotypic profiles were yielded, respectively. The PGRS primers, which were developed to amplify GC-rich repetitive sequences in the genome of Mycobacteria, were the most discriminatory. These data indicate that both of these PCR-based approaches are a valid means of discriminating strain differences among isolates of S. marcescens and the amount of differentiation depends on the primer used. These techniques should prove useful for routine surveillance or in examining outbreaks of S. marcescens in clinical settings.     

Comparative typing of Pseudomonas species isolated from the aquatic environment in Greece by SDS-PAGE and RAPD analysis

AIMS: Three broadly used typing methods were employed in order to assess and compare the identification and classification of environmental Pseudomonas strains. The reproducibility, typeability and discriminatory power of the methods were also compared to evaluate their application. Finally, the potential impact on public health of the isolates is to be discussed. METHODS AND RESULTS: Pseudomonas strains (160) isolated from the aquatic environment in Greece and identified by a rapid identification commercially available system (API20NE), were subjected to whole-cell protein electrophoresis (Sodium dodecyl sulfate-polyacrylamide gel electrophoresis) and Randomly Amplified Polymorphic DNAs (RAPD) using two 10-mer primers. In general, the obtained results were in agreement. Twenty isolates that could not be identified by the API20NE system were classified by the other methods. CONCLUSIONS: Rapid identification systems may serve only for a first rough identification of environmental Pseudomonads. In order to acquire further information, so that conclusions about their role in the ecosystem and human health could be drawn, other phenotypic or genotypic methods have to be applied. SIGNIFICANCE AND IMPACT OF STUDY: It is important, from a public health point of view, to monitor the identities of environmental Pseudomonas isolates using specific methods due to their ubiquity, heterogeneity and their pathogenicity, either established or potential.     

Detection and investigation of Campylobacter jejuni by polymerase chain reaction-restriction fragment length polymorphism analysis

A molecular typing approach for Campylobacter jejuni with restriction fragment length polymorphism (RFLP) analysis of the flagellin gene flaA in C. jejuni, was generated and studied. Using polymerase chain reaction (PCR)-RFLP with the restriction endonuclease Mbo I, it was demonstrated that C. jejuni could be divided into four types. Genotypic analysis of C. jejuni by PCR-RFLP is a valuable technique for epidemiological typing.     

Inter-laboratory evaluation of three flagellin PCR/RFLP methods for typing Campylobacter jejuni and C. coli: the CAMPYNET experience

AIMS: To compare typeability, discriminatory ability, and inter-laboratory reproducibility of three flagellin PCR/RFLP (fla typing) methods previously described for Campylobacter. METHODS AND RESULTS: The sample set (n = 100) was diverse, including both C. jejuni (n = 85) and C. coli (n = 15). Two of the three flaA typing methods amplified flaA alone, whereas one, a multiplex assay, amplified flaB in addition to flaA. DdeI restriction enzyme was employed for all methods, but HinfI was also investigated. 98-100% typeability was obtained for flaA-based methods, but only 93% for the multiplex assay, due to inconsistent amplification of a non-specific product. In addition, there appeared to be selective amplification of flaA over flaB. More DdeI types were generated using a longer flaA PCR amplicon, whilst additional use of HinfI increased the number of types by ca 25%. Inter-laboratory reproducibility for both flaA-based methods was defined at 100%. CONCLUSIONS: Fla typing requires standardization with respect to PCR primers and restriction enzymes. This study identified an assay, employing the full flaA gene and DdeI digestion, as an appropriate method on which to standardize. 100% inter-laboratory reproducibility was demonstrated using that method. SIGNIFICANCE AND IMPACT OF THE STUDY: This work should facilitate progress towards inter-laboratory standardization of fla typing.     

Comparison of molecular techniques for the typing of Mycoplasma hyopneumoniae isolates

In this study, we compared the potential of amplified fragment length polymorphism (AFLP), random amplified polymorphic DNA (RAPD) analysis, restriction fragment length polymorphism (RFLP) of the gene encoding lipoprotein P146, and the variable number of tandem repeats (VNTR) of the P97 encoding gene, as possible methods for typing an international collection of Mycoplasma hyopneumoniae isolates. All techniques showed a typeability of 100% and high intraspecific diversity. However, the discriminatory power of the different techniques varied considerably. AFLP (>0.99) and PCR-RFLP of the P146 encoding gene (>0.98) were more discriminatory than RAPD (0.95) and estimation of the VNTR of P97 (<0.92). Other, preferentially well spread, tandem repeat regions should be included in order for this latter technique to become valuable for typing purposes. RAPD was also found to be a less interesting typing technique because of its low reproducibility between different runs. Nevertheless, all molecular techniques showed overall more resemblance between strains isolated from different pigs from the same herd. On the other hand, none of the techniques was able to show a clear relationship between the country of origin and the fingerprints obtained. We conclude that AFLP and an earlier described PFGE technique are highly reliable and discriminatory typing techniques for outlining the genomic diversity of M. hyopneumoniae isolates. Our data also show that RFLP of a highly variable gene encoding P146 may be an equally useful alternative for demonstrating intraspecific variability, although the generation of sequence variability of the gene remains unclear and must be further examined.     

RAPD typing for distinguishing species and strains in the genus Listeria

The randomly amplified polymorphic DNA (RAPD) technique was employed in the development of a typing protocol for Listeria isolates, particularly Listeria monocytogenes strains. A single strain of L. monocytogenes was used and 200 random decamer primers were screened for their discriminatory abilities by visualizing the amplification products electrophoretically. Three candidate primers displaying potentially useful banding patterns were selected and tested against 52 L. monocytogenes strains, encompassing 11 serotypes, and 12 other strains representing five other Listeria spp. Thirty-four banding profiles were obtained with one particular primer. RAPD analysis allowed differentiation between Listeria spp. and was found to further subdivide strains of the same serotype. Where only one primer was used strains from different serotypes were occasionally found to produce identical banding profiles. RAPD analysis, which in our hands proved to be reproducible, shows much promise as a molecular alternative to traditional L. monocytogenes typing protocols.