Evaluation of different DNA-based fingerprinting methods for typing Photobacterium damselae ssp. piscicida

This study evaluates the effectiveness of three different molecular techniques, repetitive extragenic palindromic PCR (REP-PCR), enterobacterial repetitive intergenic consensus sequence PCR (ERIC-PCR) and the random amplified polymorphic DNA (RAPD-PCR) for rapid typing of Photobacterium damselae ssp. piscicida strains isolated from different species of marine fish and geographic areas. The results obtained by the three methods showed that RAPD and ERIC-PCR were more discriminative for suitable rapid typing of Ph. damselae ssp. piscicida than REP-PCR. The analysis of DNA banding patterns generated by both molecular methods (RAPD and ERIC-PCR) clearly separated the strains into two main groups that strongly correlated with their geographic origin. Moreover, the REP-PCR analysis was less reproducible than the RAPD and ERIC-PCR methods and does not allow the establishment of genetic groups. RAPD and ERIC-PCR constitute valuable tools for molecular typing of Ph. damselae ssp. piscicida strains, which can be used in epidemiological studies of photobacteriosis infections.     

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.     

Intraspecific genetic variability of Edwardsiella tarda strains from cultured turbot

Edwardsiella tarda is an enterobacterial fish pathogen that causes mortality in various fish species worldwide. In this study, we analyzed the intraspecific variability in a collection of E. tarda strains isolated from turbot. To do this we employed 4 polymerase chain reaction (PCR)-based methods: (1) random amplified polymorphic DNA (RAPD), (2) enterobacterial repetitive intergenic consensus-PCR (ERIC-PCR), (3) repetitive extragenic palindromic-PCR (REP-PCR) and (4) BOX-PCR. E. tarda isolates from different hosts were also included for comparison. E. tarda strains from turbot showed high molecular homogeneity when RAPD (primers P3 and P6), ERIC-PCR and BOX-PCR were employed. However, with regard to the REP-PCR and RAPD (primers P4 and P5) techniques, different genetic groups could be established within these isolates using either technique. The 2 RAPD types presented an 85% similarity, while those obtained with REP-PCR showed 74% similarity. Based on the results obtained, although a high genetic homogeneity was found in turbot isolates, the RAPD test (with primers P4 and P5) and REP-PCR were capable of discrimination within these strains, and they are therefore considered the most appropriate typing methods for studies of edwardsiellosis in turbot.     

Genetic diversity among isolates of Paenibacillus larvae from Austria

Genetic diversity of 214 Paenibacillus larvae strains from Austria was studied. Genotyping of isolates was performed by polymerase chain reaction (PCR) with primers corresponding to enterobacterial repetitive intergenic consensus (ERIC), BOX repetitive and extragenic palindromic (REP) elements (collectively known as rep-PCR) using ERIC primers, BOX A1R and MBO REP1 primers. Using ERIC-PCR technique two genotypes could be differentiated (ERIC I and II), whereas using combined typing by BOX- and REP-PCR, five different genotypes were detected (ab, aB, Ab, AB and αb). Genotypes aB and αb are new and have not been reported in other studies using the same techniques.     

Repetitive element sequence-based PCR for species and strain discrimination in the genus Listeria

Repetitive element sequencebased PCR (rep-PCR) was used to generate DNA fingerprints for Listeria spp. Two primer sets (REP 1R-I REP 2-I and ERIC 1R ERIC 2) used in respectively REP-and ERIC-PCR revealed that bacteria of the genus Listeria possess short repetitive extragenic palindromic elements and enterobacterial repetitive intergenic consensus sequences. Specific band profiles obtained by ERIC-PCR enabled the identification of Listeria species. With both REP-and ERIC-PCR the L. monocytogenes serotypes 1/2a, 1/2b, 1/2c, 3b and 4b could be clearly distinguished from each other. Within the serotype 1/2a, REP-PCR showed a higher discriminative potential than ERIC-PCR and a comparable discriminative potential as RAPD combining 3-4 primers.     

BOX-PCR is an Adequate Tool for Typing <Emphasis Type="Italic">Aeromonas</Emphasis> spp.

PCR-based methods of fingerprinting take advantage of the presence of repetitive sequences that are interspersed throughout the genome of diverse bacterial species. They include the repetitive extragenic palindromic (REP) sequence, the enterobacterial repetitive intergenic consensus sequence (ERIC) and the 154-bp BOX element. The combination of the three methods is used for fine discrimination of strains and is designated as rep-polymerase chain reaction (PCR). REP-PCR and ERIC-PCR have been shown to be useful for typing Aeromonas strains. To our knowledge, rep-PCR fingerprinting method using the BOXA1R primer has never been tested on aeromonads. In this study, the BOX-PCR fingerprinting technique was evaluated for the discrimination of strains of some Aeromonas species. All strains were typeable and the majority showed unique banding patterns. Four strains from culture collections were used to investigate the reproducibility of the method. According to our results, BOX-PCR fingerprinting is applicable for typing of Aeromonas strains and can be considered as a useful complementary tool for epidemiological studies of members of this genus.     

Molecular typing of Vibrio parahaemolyticus isolated from seafood harvested along the south-west coast of India

Aims: Evaluation of protein profiling for typing Vibrio parahaemolyticus using 71 strains isolated from different seafood and comparison with other molecular typing techniques such as random amplified polymorphic DNA analysis (RAPD) and enterobacterial repetitive intergenic consensus sequence (ERIC)‐PCR. Methods and Results: Three molecular typing methods were used for the typing of 71 V. parahaemolyticus isolates from seafood. RAPD had a discriminatory index (DI) of 0·95, while ERIC‐PCR showed a DI of 0·94. Though protein profiling had less discriminatory power, use of this method can be helpful in identifying new proteins which might have a role in establishment in the host or virulence of the organism. Conclusions: The use of protein profiling in combination with other established typing methods such as RAPD and ERIC‐PCR generates useful information in the case of V. parahaemolyticus associated with seafood. Significance and Impact of the Study: The study demonstrates the usefulness of nucleic acid and protein‐based studies in understanding the relationship between various isolates from seafood.     

Molecular fingerprinting of Vibrio tapetis strains using three PCR-based methods: ERIC-PCR, REP-PCR and RAPD

Brown Ring Disease (BRD) is a bacterial disease caused by Vibrio tapetis which affects cultured clams and causes heavy economic losses. In this study, 28 V. tapetis strains isolated from 5 different hosts were intraspecifically characterized by 3 different polymerase chain reaction- (PCR-) based typing methods: enterobacteria repetitive intergenic consensus (ERIC)-PCR, repetitive extragenic palindromic (REP)-PCR and randomly amplified polymorphic DNA (RAPD)-PCR. Cluster analysis of genetic profiles obtained from these molecular techniques clearly showed the existence of 3 genetic groups strongly correlated to the host origin. The first group was formed by 23 V. tapetis strains isolated from Manila clam Ruditapes philippinarum, 1 isolated from venus clam Venerupis aurea, and 1 isolated from common cockle Cerastoderma edule, all collected from France and Spain. The second group was formed by 2 strains isolated from carpet-shell clam R. decussatus cultured in the northwest of Spain. The third group was composed of 1 strain isolated from Atlantic halibut Hippoglossus hippoglossus from the UK. We concluded that the 3 typing methods based on PCR were useful for the intraspecific typing of V. tapetis strains, and that they can potentially be used as a fast and reliable tool for epidemiological studies in the future.     

Comparative PCR-based fingerprinting of Vibrio cholerae isolated in Malaysia

Vibrio cholerae, the causative agent of cholera, is endemic in many parts of the world, especially in countries poor in resources. Molecular subtyping of V. cholerae is useful to trace the regional spread of a clone or multidrug-resistant strains during outbreaks of cholera. Current available PCR-based fingerprinting methods such as Random Amplified Polymorphic DNA (RAPD)-PCR, Enterobacterial Repetitive Intergenic Consensus Sequence (ERIC)-PCR, and Repetitive Extragenic Palindromic (REP)-PCR were used to subtype V. cholerae. However, there are problems for inter-laboratory comparison as these PCR methods have their own limitations especially when different PCR methods have been used for molecular typing. In this study, a Vibrio cholerae Repeats-PCR (VCR-PCR) approach which targets the genetic polymorphism of the integron island of Vibrios was used and compared with other PCR-based fingerprinting methods in subtyping. Forty-three V. cholerae of different serogroups from various sources were tested. The PCR-fingerprinting approaches were evaluated on typeability, reproducibility, stability and discriminatory power. Overall, Malaysian non-O1/non-O139 V. cholerae were more diverse than O1 strains. Four non-O1/non-O139 strains were closely related with O1 strains. The O139 strain in this study shared similarity with strains of both O1 and non-O1/non-O139 serogroups. ERIC-PCR was the most discriminative approach (D value = 0.996). VCR-PCR was useful in discriminating non-O1/non-O139 strains. RAPD-PCR and REP-PCR were less suitable for efficient subtyping purposes as they were not reproducible and lacked stability. The combination of the ERIC-PCR and VCR-PCR may overcome the inadequacy of any one approach and hence provide more informative data.     

副溶血性弧菌重复序列-PCR分型研究

目的利用REP—PCR技术对副溶血性弧菌进行分子分型研究和亲缘关系的探讨。方法以基因外重复回文序列（REP）为引物,对20株副溶血性弧菌基因组DNA进行扩增,得到DNA指纹图谱,并利用SPSS11．5统计软件对DNA扩增图谱进行分析,做出聚类图,并与血清型进行比较分析。结果REP-PCR可以把20株菌分为7个型,优势菌型为A型和B型,分辨力指数为0．932。结论REP．PCR方法可以用于副溶血性弧菌分型分析,具有较好的分型能力,如果能将分子分型和血清分型两种方法联用,分辨率会更高。研究推断血清型01群与03群菌株之间亲缘关系密切。     

Intraspecies variability of Desulfovibrio desulfuricans strains determined by the genetic profiles

Fifteen (soil and intestinal) strains of Desulfovibrio desulfuricans species were typed by PCR method with the use of primers specific for repetitive extragenic palindromic (REP) and enterobacterial repetitive intergenic consensus (ERIC) sequences. As a result, characteristic DNA fingerprints for the strains were obtained. Moreover, the genetic profiles were found to be useful for typing and distinguishing the strains of D. desulfuricans. According to cluster analysis, PCR with primers complementary to the sequences REP appeared to be slightly more discriminatory than PCR with ERIC primers for the investigated strains. Distinct fingerprint patterns of two isolates derived from the same patient pointed to the different origin of both strains.     

Comparison of pulsed‐field gel electrophoresis and three rep‐PCR methods for evaluating the genetic relatedness of Stenotrophomonas maltophilia isolates

Aims: In this study, three facile repetitive‐sequence PCR (rep‐PCR) techniques have been compared with the pulsed‐field gel electrophoresis (PFGE) method for differentiating the genetic relatedness of clinical Stenotrophomonas maltophilia isolates. Methods and Results: The dendrograms of 20 S. maltophilia isolates were constructed based on the data obtained from PFGE and three PCR‐based methods, i.e. enterobacterial repetitive intergenic consensus‐PCR (ERIC‐PCR), BOX‐PCR and repetitive extragenic palindromic‐PCR (REP‐PCR). When compared with PFGE, ERIC‐PCR displayed a much lower discriminatory power, whereas BOX‐PCR and REP‐PCR had a comparable discriminatory power for close genetic‐related isolates. Conclusion: BOX‐PCR and REP‐PCR can be convenient and effective methods for evaluating the close genetic relatedness of clinical S. maltophilia isolates. Significance and Impact of the Study: A rapid method for determining S. maltophilia’s close genetic relatedness provides a convenient tool for understanding the epidemiology of S. maltophilia.     

副溶血性弧菌肠细菌基因间共有重复序列-PCR分子分型和耐药性、血清型研究

目的对副溶血性弧菌进行ERIC-PCR分子分型、耐药性和血清型相关性研究。方法肠细菌基因间共有重复序列（ERIC）为引物,对40株菌株基因组DNA进行扩增,得到DNA指纹图谱,并利用SPSS13.0统计软件对DNA扩增图谱进行分析,做出聚类图从而分型,并与菌株血清型、耐药性比较分析。结果40株菌用ERIC-PCR分为5个型,分辨力指数为（DI）为0.5;血清分型分为4个型;对8种抗生素中的萘啶酸、头孢噻亏、头孢西丁出现了不同程度的耐药。耐药菌株均出现在ERIC-PCR方法分型A型和血清分型O3型中。结论研究显示ERIC-PCR方法可以用于该菌分型分析,具有较好的分型能力。血清分型与ERIC-PCR方法分型一致。通过ERIC-PCR分型的树状图和血清分型结果推断,血清型O3群菌株很可能起源于血清型O1群菌株,血清型O3群和O1群密切相关。     

Molecular epidemiological tools for Salmonella Dublin typing

Abstract A total of 32 strains of Salmonella Dublin recovered from cattle were differentiated by electrophoretic typing of their esterases (zymotyping), restriction fragment length polymorphism of ribosomal DNA (ribotyping), arbitrarily primed PCR (AP-PCR) using five primers, PCR based on repetitive extragenic palindromic sequences (REP-PCR) and PCR based on enterobacterial repetitive intergenic consensus sequences (ERIC-PCR). ERIC-PCR and REP-PCR each gave one type, zymotyping gave three, AP-PCR gave five and ribotyping gave seven types. Combination of ribotyping and AP-PCR produced a total of 11 types, whereas 14 different types were obtained by all five methods. Thus a combination of several methods enhanced the discrimination of cattle-adapted strains among the genotypically homogeneous serovar Salmonella Dublin.     

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.     

Assessment of genetic relatedness among commercial and wild strains of Agaricus bisporus using repetitive extragenic palindromic sequences and polymerase chain reaction

The genetic relatedness among 18 strains of Agaricus bisporus was assessed based on the fragment pattern analysis obtained by the amplification of genomic DNA by BOX, ERIC (ERICIR-I/ERIC2) and REP (REP1RI/REP2I) gene sequences. Based on the banding patterns of PCR-amplified products, eight putative groups among the 18 commercial and wild strains were recognized. REP-PCR generated multiple distinct products showing considerable variability among the strains with ERIC and REP elements successfully enabled detection of wild and commercial A. bisporus. Strains originating from the same geographical location were not always genetically related. To our knowledge, this was the first relevance study of biodiversity in commercial and native populations of A. bisporus by using the REP-PCR technique. The results confirmed the usefulness REP-PCR typing in intraspecific genetic variation assessments of the button mushroom. High level of Iranian wild strains distance with the commercial cultivars approves their importance as a promising new source of diversity in A. bisporus breeding program.     

Comparison of three molecular methods for typing Aeromonas popoffii isolates

Three typing methods, restriction fragment length polymorphism (RFLP) of the 16S-23S intergenic spacer region (ISR), PCR amplification of the enterobacterial repetitive intergenic consensus (ERIC) and of the repetitive extragenic palindromic units (REP), were evaluated for typing 26 isolates of Aeromonas popoffii from different geographical origins. When the methods were independently studied, ERIC showed the highest discriminatory power. When the methods were combined, the best combination of two methods was ERIC with REP since strains showed a tendency to cluster according to their geographical origin. However, this tendency was reinforced with the addition of ISR-RFLP. This revised version was published online in June 2006 with corrections to the Cover Date.     

Genetic relationships among strains of Xanthomonas fragariae based on random amplified polymorphic DNA PCR, repetitive extragenic palindromic PCR, and enterobacterial repetitive intergenic consensus PCR data and generation of multiplexed PCR primers useful for the identification of this phytopathogen.

Genetic relationships among 25 isolates of Xanthomonas fragariae from diverse geographic regions were determined by three PCR methods that rely on different amplification priming strategies: random amplified polymorphic DNA (RAPD) PCR, repetitive extragenic palindromic (REP) PCR, and enterobacterial repetitive intergenic consensus (ERIC) PCR. The results of these assays are mutually consistent and indicate that pathogenic strains are very closely related to each other. RAPD, ERIC, and REP PCR assays identified nine, four, and two genotypes, respectively, within X. fragariae isolates. A single nonpathogenic isolate of X. fragariae was not distinguishable by these methods. The results of the PCR assays were also fully confirmed by physiological tests. There was no correlation between DNA amplification product patterns and geographic sites of isolation, suggesting that this bacterium has spread largely through exchange of infected plant germ plasm. Sequences identified through the RAPD assays were used to develop three primer pairs for standard PCR assays to identify X. fragariae. In addition, we developed a stringent multiplexed PCR assay to identify X. fragariae by simultaneously using the three independently derived sets of primers specific for pathogenic strains of the bacteria.     

Genomic fingerprinting of Bradyrhizobium japonicum isolates by RAPD and rep-PCR

Genetic diversity of indigenous Bradyrhizobium japonicum population in Croatia was studied by using different PCR-based fingerprinting methods. Characteristic DNA profiles for 20 B. japonicum field isolates and two reference strains were obtained using random primers (RAPD) and two sets of repetitive primers (REP- and ERIC-PCR). In comparison with the REP, the ERIC primer set generates fingerprints of lower complexity, but still several strain-specific bands were detected. Different B. japonicum isolates could be more efficiently distinguished by using combined results from REP- and ERIC-PCR. The most polymorphic bands were observed after amplification with four different RAPD primers. Both methods, RAPD and rep-PCR, resulted in identical grouping of the strains. Cluster analysis, irrespective of the fingerprinting method used, revealed that all the isolates could be divided into three major groups. Within the major groups, the degree of relative similarity between B. japonicum isolates was dependent upon the method used. Our results indicate that both RAPD and rep-PCR fingerprinting can effectively distinguish different B. japonicum strains. RAPD fingerprinting proved to be slightly more discriminatory than rep-PCR.     

用rep—PCR技术研究中国花生根瘤菌的多样性

采用细菌基因组重复序列ＰＣＲ技术（简称ｒｅｐＰＣＲ）中常用的ＲＥＰＰＣＲ和ＥＲＩＣＰＣＲ,对从中国１１个省、市的２３个点、２４个花生品种采集的根瘤中分离的５９株花生根瘤菌Ｂｒａｄｙｒｈｉｚｏｂｉｕｍｓｐ．（Ａｒａｃｈｉｓ）进行多样性研究,同时对来自国外的６株花生根瘤菌及１４株参比慢生根瘤菌也进行了比较。得到的低相似性结果表明中国花生根瘤菌基因组存在显著的多样性。ＲＥＰＰＣＲ揭示,在相似性５０％上分为１１个群,而ＥＲＩＣＰＣＲ却得到２４个分群。这两种结果对菌株的分群有差异,暗示这两种短重复序列在慢生根瘤菌基因组中的分布的不同。没有发现菌株间基因组的多样性分布与花生品种、地理来源之间的必然联系。将两者电泳图谱结合并分析,得到介于上述两者间的结果。此结果进一步反映了菌株基因组间存在的多样性。同时还表明ｒｅｐＰＣＲ不仅是研究生物多样性的快速简便方法,还可应用于菌株的鉴别和生态学研究。