RecA gene sequence and Multilocus Sequence Typing for species-level resolution of Burkholderia cepacia complex isolates

Aim:  To identify, by means of recA sequencing and multilocus sequence typing (MLST), Burkholderia cepacia complex (BCC) isolates of environmental and clinical origin, which failed to be identified by recA RFLP and species-specific PCR.
Methods and Results:  By using recA sequence-based identification, 17 out of 26 BCC isolates were resolved at the level of species and lineage (ten Burkholderia cenocepacia IIIB, two Burkholderia arboris and five Burkholderia lata ). By using MLST method, 24 BCC isolates were identified. MLST confirmed recA sequence results, and, furthermore, enabled to identify isolates of the BCC5 group, and showed relatedness with Burkholderia contaminans for one of the two isolates not identified.
Conclusions:  recA sequence-based identification allowed to resolve, at the level of species and lineage, 65·4%, of the BCC isolates examined, whilst MLST increased this percentage to 88·5%.
Significance and Impact of the Study:  BCC isolates previously not resolved by recA RFLP and species-specific PCR were successfully identified by means of recA sequencing and MLST, which represent the most appropriate methods to identify difficult strains for epidemiological purposes and cystic fibrosis patients management.     

Microbiological characterisation of Burkholderia cepacia isolates from cystic fibrosis patients: investigation of the exopolysaccharides produced

Eleven strains of Burkholderia cepacia were isolated directly from clinical specimens: 10 from sputum of cystic fibrosis patients, and one from a vaginal swab. They were biochemically identified using API20NE and confirmed by a PCR-based assay. The genomovar characterisation obtained by specific PCR amplification revealed seven strains belonging to genomovar I, three belonging to genomovar IIIA and one belonging to genomovar IV. All isolates were also typed by ribotyping and random amplification of polymorphic DNA analysis. Some of the characterised strains were examined for the ability to produce exopolysaccharides, with the aim of correlating the genomovar with the exopolysaccharide structure. The polysaccharides were analysed by means of methylation analysis and 1H-NMR spectroscopy in order to determine structural similarities. It was shown that different strains are capable of producing chemically different polysaccharides.     

Burkholderia cepacia complex: distribution of genomovars among isolates from the maize rhizosphere in Italy

Burkholderia cepacia is a 'complex' in which seven genomic species or genomovars have so far been identified. It appears that all seven B. cepacia genomovars are capable of causing infections in vulnerable persons; in particular, the importance of Burkholderia multivorans (genomovar II) and B. cepacia genomovar III among cystic fibrosis isolates, especially epidemic ones, has been emphasized. In order to acquire a better comprehension of the genomovar composition of environmental populations of B. cepacia, 120 strains were isolated from the rhizosphere of maize plants cultivated in fields located in northern, central and southern Italy. The identification of the different genomovars was accomplished by a combination of molecular polymerase chain reaction (PCR)-based techniques, such as restriction fragment length polymorphism (RFLP) analysis of 16S rDNA (ARDRA), genomovar-specific PCR tests and RFLP analyses based on polymorphisms in the recA gene whole-cell protein electrophoresis. ARDRA analysis allowed us to distinguish between all B. cepacia genomovars except B. cepacia genomovar I, B. cepacia genomovar III and Burkholderia ambifaria (genomovar VII). The latter genomovars were differentiated by means of recA PCR tests and RFLP analyses. Among the rhizospheric isolates of B. cepacia, we found only B. cepacia genomovar I, B. cepacia genomovar III, Burkholderia vietnamiensis (genomovar V) and B. ambifaria. B. cepacia genomovars I and III and B. ambifaria were recovered from all three fields, whereas B. vietnamiensis was detected only in the population isolated from the field located in central Italy. Among strains isolated from northern and southern Italy, the most abundant genomovars were B. ambifaria and B. cepacia genomovar III respectively; in contrast, the population isolated in central Italy showed an even distribution of strains among genomovars. These results indicate that it is not possible to differentiate clinical and environmental strains, or pathogenic and non-pathogenic strains, of the B. cepacia complex simply on the basis of genomovar status, and that the environment may serve as a reservoir for B. cepacia genomovar III infections in vulnerable humans.     

Application of a recA gene-based identification approach to the maize rhizosphere reveals novel diversity in Burkholderia species

Burkholderia species are widely distributed in the natural environment. We evaluated the use of the recA gene in a cultivation-independent approach to examine the Burkholderia diversity associated with the maize rhizosphere. Two types of recA gene library were constructed, one with broad-specificity recA primers (BUR1 and BUR2) and a second from the products of nested PCRs using Burkholderia-specific primers (BUR3 and BUR4). The broad-specificity primer set provided near full-length recA sequences (869 bp) suitable for the creation of robust environmental sequence data sets; however, the nested PCR approach demonstrated the greatest specificity (84%) for detection of Burkholderia species recA genes. In addition, the screening approach was able to identify recA phylotypes matching Burkholderia cepacia complex species previously cultivated from the maize samples and discriminate these from other Burkholderia. The ecological benefit of Burkholderia species cultivated from maize rhizosphere is well documented, however, the fact that the majority of Burkholderia recA genes detected in this study (90%) were suggestive of novel taxa indicates that a wealth of potentially important interactions with uncultivated Burkholderia species remain unstudied in this habitat.     

Evaluation of three polymerase chain reaction techniques for detection of Brucella DNA in peripheral human blood

Brucellosis is a widespread zoonosis. Currently the diagnosis of this zoonosis is based on microbiological and serological laboratory tests. Polymerase chain reaction (PCR) has been used to detect DNA from Brucella. Different target genes, primer pairs, PCR techniques, and extraction procedures have previously been published for Brucella detection. But only a few of these primers have been used in human samples, and only one study has been carried out to compare sensitivity between them. In the present study, 3 sets of primers and 3 different PCR protocols amplifying 3 different regions of the Brucella genome were compared for detection of Brucella DNA in a peripheral-blood PCR assay to conclude which is most suitable for the clinical diagnostic laboratory. These 3 pairs of primers amplify 3 different fragments included in (i) a gene encoding a 31 kDa Brucella abortus antigen (B4/B5), (ii) a sequence 16S rRNA of B. abortus (F4/R2), and (iii) a gene encoding an outer membrane protein (omp-2) (JPF/JPR). Some modifications on the reported techniques were applied during the present work to improve the outcome. The results showed that the B4/B5 primer pair had the highest sensitivity for detection of positive samples (98%), the JPF/JPR primer pair detected 88.4% of positive samples, whereas F4/R2 primer pair was the least sensitive, being able to detect only 53.1% of positive samples. The specificity of the 3 techniques was 100%. The B4/B5 primer pair was also able to detect the smallest number of bacteria (700 cfu/mL), whereas JPF/JPR was able to detect 7 x 105 cfu/mL and F4/R2 was able to detect 7 x 107 cfu/mL. It is thus concluded that using the B4/B5 primer PCR with the suggested modifications is a robust assay, which meets the sensitivity requirements to be used for testing of human blood samples for brucellosis in the diagnostic laboratory.     

Detection of low numbers of Salmonella in environmental water, sewage and food samples by a nested polymerase chain reaction assay

A polymerase chain reaction (PCR) assay with two nested pairs of primers selected from conserved sequences within a 2.3 kb randomly cloned DNA fragment from the Salmonella typhimurium chromosome was developed. The nested PCR assay correctly identified 128 of a total of 129 Salmonella strains belonging to subspecies I, II, IIIb and IV. One strain of Salm. arizona (ssp. IIIa) tested negative. No PCR products were obtained from any of the 31 non-Salmonella strains examined. The sensitivity of the assay was 2 cfu, as determined by analysis of proteinase K-treated boiled lysates of Salm. typhimurium. The performance of the assay was evaluated for environmental water, sewage and food samples spiked with Salm. typhimurium. Water and sewage samples were filtered and filters were enriched overnight in a non-selective medium. Prior to PCR, the broth cultures were subjected to a rapid and simple preparation procedure consisting of centrifugation, proteinase K treatment and boiling. This assay enabled detection of 10 cfu 100 ml(-1) water with background levels of up to 8700 heterotrophic organisms ml(-1) and 10000 cfu of coliform organisms 100 ml(-1) water. Spiked food samples were analysed with and without overnight enrichment in a non-selective medium using the same assay as above. Nested PCR performed on enriched broths enabled detection of <10 cfu g(-1) food. Variable results were obtained for food samples examined without prior enrichment and most results were negative. This rapid and simple assay provides a sensitive and specific means of screening drinking water or environmental water samples, as well as food samples, for the presence of Salmonella spp.     

Diversity and distribution of Burkholderia cepacia complex in the rhizosphere of rice and maize

A survey of Burkholderia cepacia complex (Bcc) species was conducted in agricultural fields within Hangzhou, China. Out of the 251 bacterial isolates recovered on the selective media from the rhizosphere of rice and maize, 112 of them were assigned to Bcc by PCR assays. The species composition of the Bcc isolates was analyzed by a combination of recA-restriction fragment length polymorphism assays, species-specific PCR tests and recA gene sequencing. The results revealed that the majority belong to B. cepacia, Burkholderia cenocepacia recA lineage IIIB, Burkholderia vietnamiensis and Burkholderia pyrrocinia. Burkholderia cenocepacia and B. vietnamiensis dominated the rhizosphere of maize and rice, respectively, indicating that species composition and abundance of Bcc may vary dramatically in different crop rhizospheres. In addition, one isolate (R456) formed a single discrete cluster within the phylogenetic analysis of the Bcc recA gene, and it may belong to a new genomovar.     

Detection of toxigenic Vibrio cholerae from environmental water samples by an enrichment broth cultivation-pit-stop semi-nested PCR procedure

A pit-stop semi-nested PCR assay for the detection of toxigenic Vibrio cholerae in environmental water samples was developed and its performance evaluated. The PCR technique amplifies sequences within the cholera toxin operon specific for toxigenic V. cholerae. The PCR procedure coupled with an enrichment culture detected as few as four V. cholerae organisms in pure culture. Treated sewage, surface, ground and drinking water samples were seeded with V. cholerae and following enrichment, a detection limit of as few as 1 V. cholerae cfu ml(-1) was obtained with amplification reactions from crude bacterial lysates. The proposed method, which includes a combination of enrichment, rapid sample preparation and a pit-stop semi-nested PCR, could be applicable in the rapid detection of toxigenic V. cholerae in environmental water samples.     

Detection and quantitative measurement of transforming growth factor-beta1 (TGF-beta1) gene expression using a semi-nested competitive PCR assay

A polymerase chain reaction (PCR) technique was optimized for detection and quantification of very low concentrations (down to a few molecules) of transforming growth factor beta1 (TGF-beta1) mRNA. The strategy involved a combination of a competitive PCR assay and a semi-nested PCR. In the present study, the semi-nested PCR technique was tested in several rat organs containing different concentrations of target mRNA. A control fragment for TGF-beta1 was used to correct for differences in amplification of various cDNA samples. TGF-beta1 mRNA levels were also corrected according to the abundance of the "housekeeping" gene glyceraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA in the same samples. The differences of sensitivity among the standard (one-step) and semi-nested (two-step) competitive PCR assays for the detection of TGF-beta1 are discussed. In conclusion, the semi-nested PCR protocol provides greatly enhanced sensitivity over standard PCR analysis. It is a reproducible and very specific method for quantification of only a few molecules of TGF-beta1 mRNA in a background of non-target molecules.     

PCR-based identification and characterization of Burkholderia cepacia complex bacteria from clinical and environmental sources

AIMS: To study the genotypic identification and characterization of the 119 Burkholderia cepacia complex (Bcc) strains recovered from clinical and environmental sources in Japan and Thailand. METHODS AND RESULTS: Based on the results of analysis by 16S rDNA RFLP generated after digestion with DdeI, the Bcc strains were differentiated into two patterns: pattern 1 (including Burkholderia vietnamiensis) and pattern 2 (including B. cepacia genomovar I, Burkholderia cenocepacia and Burkholderia stabilis). All strains belonged to pattern 2 except for one strain. In the RFLP analysis of the recA gene using HaeIII, strains were separated into eight patterns designated as A, D, E, G, H, I, J and K, of which pattern K was new. Burkholderia cepacia epidemic strain marker (BCESM) encoded by esmR [corrected] and the pyrrolnitrin biosynthetic locus encoded by prnC were present in 22 strains (18%) and 88 strains (74%) from all sources, respectively. All esmR-positive [corrected] strains belonged to B. cenocepacia, whereas most prnC-positive strains belonged to B. cepacia genomovar I. CONCLUSIONS: Strains derived from clinical sources were assigned to B. cepacia genomovar I, B. cenocepacia, B. stabilis and B. vietnamiensis. The majority of Bcc strains from environmental sources (77 of a total 95 strains) belonged to B. cepacia genomovar I, whereas the rest belonged to B. cenocepacia. On the basis of genomovar-specific PCR and prnC RFLP analysis, strains belonging to recA pattern K were identified as B. cepacia genomovar I. SIGNIFICANCE AND IMPACT OF THE STUDY: This work provides the genotypic identification of a collection of the Bcc strains from Japan and Thailand. RFLP analysis of the prnC gene promises to be a useful method for differentiating Burkholderia pyrrocinia from B. cepacia genomovar I strains.     

Development of a PCR method for mycoplasma testing of Chinese hamster ovary cell cultures used in the manufacture of recombinant therapeutic proteins

Chinese hamster ovary (CHO) cell cultures used to produce biopharmaceuticals are tested for mycoplasma contamination as part of the ensurance of a safe and pure product. The current U.S. Food and Drug Administration (FDA) regulatory guideline recommends using two procedures: broth/agar cultures and DNA staining of indicator cell cultures. Although these culture methods are relatively sensitive to most species, theoretically capable of detecting as few as 1-10 cfu/ml of most species, the overall procedure is lengthy (28 d), costly and less sensitive to noncultivable species. The detection of mycoplasma using the polymerase chain reaction (PCR) method has been considered an alternative method because it is relatively fast (1-2 d), inexpensive, and independent of culture conditions, however, limitations in sensitivity (limit of detection >/=1000 cfu/ml) and the risk of false positive and false negative results have prevented PCR from replacing the traditional culture methods in the industrial setting. In this report, we describe a new PCR assay for mycoplasma detection that appears to resolve these issues while being sufficiently simple and inexpensive for routine use. This assay applies readily available techniques in DNA extraction together with a modified single-step PCR using a previously characterized primer pair that is homologous to a broad spectrum of mycoplasma species known to infect mammalian cell cultures. Analysis is made easy by the detection of only a single amplification product within a narrow size range, 438-470 bp. A high sensitivity and specificity for mycoplasma detection in CHO cell production cultures is made possible through the combination of three key techniques: 8-methoxypsoralen and UV light treatment to decontaminate PCR reagents of DNA; hot-start Taq DNA polymerase to reduce nonspecific priming events; and touchdown- (TD-) PCR to increase sensitivity while also reducing nonspecific priming events. In extracts of mycoplasma DNA, the limit of detection for eight different mycoplasma species is 10 genomic copies. In CHO cell production cultures containing gentamicin, the limit of detection for a model organism, gentamicin-resistant M. hyorhinis, is 1 cfu/ml. The sensitivity and specificity of this PCR assay for mycoplasma detection in CHO cell production cultures appear similar to the currently used culture methods and thus should be considered as an alternative method by the biopharmaceutical industry.     

Semi-nested polymerase chain reaction for detection of toxigenic <Emphasis Type="Italic">Vibrio cholerae</Emphasis> from environmental water samples

A rapid and sensitive direct cell semi-nested PCR assay was developed for the detection of viable toxigenic V. cholerae in environmental water samples. The semi-nested PCR assay amplified cholera toxin (ctxA2B) gene present in the toxigenic V. cholerae. The detection sensitivity of direct cell semi-nested PCR was 2 × 10³ CFU of V. cholerae whereas direct cell single-step PCR could detect 2 × 10⁴ CFU of V. cholerae. The performance of the assay was evaluated using environmental water samples after spiking with known number of Vibrio cholerae O1. The spiked water samples were filtered through a 0.22 micrometer membrane and the bacteria retained on filters were enriched in alkaline peptone water and then used directly in the PCR assay. The semi-nested PCR procedure coupled with enrichment could detect less than 1 CFU/ml in ground water and sea water whereas 2 CFU/ml and 20 CFU/ml could be detected in pond water and tap water, respectively. The proposed method is simple, faster than the conventional detection assays and can be used for screening of drinking water or environmental water samples for the presence of toxigenic V. cholerae.     

Culture-based and non-growth-dependent detection of the Burkholderia cepacia complex in soil environments

Burkholderia cepacia complex (Bcc) bacteria reside in soil, plant rhizospheres, and water, but their prevalence and distribution in outdoor environments is not clear. We sampled a variety of soil and rhizosphere environments with which people may have contact: playgrounds, athletic fields, parks, hiking trails, residential yards, and gardens. A total of 91 sites was sampled in three large U.S. cities. In the first phase of the study, putative Bcc isolates were recovered on Burkholderia cepacia selective agar and trypan blue tetracycline medium and subsequently examined for biochemical reactivity and growth at 32 and 22 degrees C. Isolates were further examined by PCR assays targeting Bcc-specific ribosomal DNA and recA gene sequences. Among the 1,013 bacterial isolates examined, 68 were identified as Bcc; 14 (15%) of 91 sampled sites yielded Bcc isolates. In the second phase, DNA was extracted directly from soil samples and examined with PCR assays targeting Bcc 16S rRNA gene sequences. Either 82 or 93% of the soil samples were positive for at least one Bcc genomovar, depending on the PCR assay system used. Cloning and sequencing were performed to check the specificity of the PCR assays. Sequence analysis of the 463-bp 16S rRNA inserts from eight clones indicated that all were from members of the Bcc. The four soil samples from which these clones were generated did not yield isolates identified as Bcc. Based on PCR detection, Bcc appears to be prevalent in soil from urban and suburban environments. Culture-based recovery of Bcc may underestimate environmental populations.     

Evaluation of four template preparation methods for polymerase chain reaction-based detection of Salmonella in ground beef and chicken

AIMS: To compare procedures for recovering template DNA from ground beef or chicken for polymerase chain reaction (PCR)-based detection of Salmonella. METHODS AND RESULTS: The primer set of ST11 and ST15 was utilized to amplify a 429-bp product from Salmonella serotype Typhimurium. Boiling and three commercial kits were evaluated for extracting DNA from pure suspensions and artificially contaminated ground beef and chicken. The detection sensitivity of the PCR assay for pure cultures was independent of the template preparation method (P=0.946). Boiling and GeneReleaser failed to detect Salm. Typhimurium at 4 x 106 cfu g(-1) in ground chicken. PrepMan Ultra and the high pure PCR template preparation kit facilitated reliable and sensitive detection of Salm. Typhimurium in two types of food. The sensitivities were approx. 4 x 103 cfu g(-1). When spiked samples were enriched in peptone water for 6 h, an initial inoculum of 1 cfu g(-1) was detectable. CONCLUSIONS: Four template DNA preparation methods differed in performance with respect to the type of samples tested. SIGNIFICANCE AND IMPACT OF THE STUDY: Template DNA for the PCR detection of pathogenic bacteria, such as Salmonella in meat and poultry, could be effectively obtained using a simple rapid method such as the commercially available PrepMan Ultra kit.     

Sequence divergence in type III secretion gene clusters of the Burkholderia cepacia complex

The Burkholderia cepacia complex (BCC) comprises a group of bacteria associated with opportunistic infections, especially in cystic fibrosis patients. B. cenocepacia J2315, of the transmissible ET12 lineage, contains a type III secretion (TTS) gene cluster implicated in pathogenicity. PCR and hybridisation assays indicate that the TTS gene cluster is present in all members of the BCC except B. cepacia (formerly genomovar I). The TTS gene clusters of B. cenocepacia J2315 and B. multivorans are similar in organisation but have variable levels of gene identity. Nucleotide sequence data obtained for the equivalent region of the B. cepacia genome indicate the absence of TTS structural genes due to a rearrangement likely to involve more than one step.     

Diagnosis of nocardiosis by polymerase chain reaction: an experimental study in mice

In this study, we have established a sensitive semi-nested polymerase chain reaction (PCR) for detection of Nocardia in clinical specimens by first amplifying a 422 bp DNA fragment from the groEL gene, followed by a second amplification of 342 bp DNA by targeting sequences internal to the first amplicon. The semi-nested PCR was evaluated in a murine model of nocardiosis for detection of Nocardia in blood and visceral organs. Healthy BALB/c mice were intravenously infected with 0.2 ml suspension of 2.9 × 10⁵/ml cfu of Nocardia asteroides and N. farcinica. Viable counts and semi-nested PCR were performed post-infection with samples of blood as well as lung, liver, spleen, kidney and brain at 5 minutes, 3 h, and then every 24 h for 3 days. Of the 20 blood samples tested, 15 (75%) were Nocardia positive by culture and 19 (95%) were positive by semi-nested PCR. Likewise, in case of N. asteroides infection, 46% organ samples were positive by culture and 58% by semi-nested PCR. The positivity of organ samples was higher with N. farcinica, 60% by culture and 72% by PCR, which may be attributed to its increased virulence as compared to N. asteroides. These results demonstrate that semi-nested PCR is a rapid and sensitive method for detection of Nocardia in blood and different visceral organs. The diagnostic application of this method provides an additional advantage over culture techniques, as PCR can also detect L-forms of Nocardia in clinical specimens, which otherwise fail to grow on routine isolation medium.     

Burkholderia tuberum sp. nov. and Burkholderia phymatum sp. nov., nodulate the roots of tropical legumes

The taxonomic status of five root nodule isolates from tropical legumes was determined using a polyphasic taxonomic approach. Two isolates were identified as B. caribensis, an organism originally isolated from soil in Martinique (the French West Indies). One isolate was identified as Burkholderia cepacia genomovar VI, a B. cepacia complex genomovar thus far only isolated from sputum of cystic fibrosis patients. The remaining two isolates were identified as novel Burkholderia species for which we propose the names Burkholderia tuberum sp. nov. and Burkholderia phymatum sp. nov. The type strains are LMG 21444T and LMG 21445T, respectively.     

食品中沙门氏菌分子检测靶点的筛选与评价

[目的]发掘新的沙门氏菌分子检测靶点,筛选检测性能优秀的引物.[方法]利用BLAST程序比较沙门氏菌属内基因组DNA序列的同源性以及沙门氏菌与非沙门氏菌基因组DNA序列之间的特异性,发掘出100多个检测沙门氏菌属的特异性片段,并从中随机挑选出15个片段作为候选靶点,一共设计了27对引物(FS1～FS27),对它们的特异性、灵敏度加以评价,从中筛选检测性能最好的引物.[结果]在27对引物中,检测性能最优的引物为FS23,采用该引物对供试菌株的相应检测靶点进行PCR扩增,44株沙门氏菌都能扩增到一条492 bp特异性片段,而22株非沙门氏菌则不能扩增出这一特异性片段.以FS23为引物建立PCR方法检测猪霍乱沙门氏菌基因组DNA的灵敏度为11.9 fg/μL,细菌纯培养物灵敏度为4.9×102cfu/mL;用猪霍乱沙门氏菌人工污染牛奶样品,如果接种起始菌量为100 cfu/25 mL时,只需要增菌5 h,采用上述方法即能检测出沙门氏菌.[结论]引物FS23对应的基因序列是一个性能优良的新分子检测靶点,具备很高的特异性和灵敏性,能够广泛应用于食品中沙门氏菌的快速检测.     

Use of the polymerase chain reaction and 16S rRNA sequences for the rapid detection of Brochothrix spp. in foods

Oligonucleotide primers were designed against rRNA sequences to give a DNA-based PCR assay for the rapid identification/detection of Brochothrix spp. The PCR products could be confirmed by hybridization to an internal oligonucleotide probe. The method successfully and sensitively detected/identified these organisms in pure cultures but was of limited value as a detection method because the detection sensitivity, in relation to conventional plate counts, varied and the assay sensitivity was reduced in the presence of staphylococci. Furthermore, sensitivity was also lost when the assay was applied directly to meat samples. However, a separation step using a lectin (from Agaricus bisporus ) immobilized on magnetic beads prior to the PCR assay, allowed the direct detection of low numbers (> 10 cfu g^-1) of Brochothrix in meat samples within a working day.