scholarly journals Identification of Members of the Burkholderia cepacia Complex by Species-Specific PCR

2000 ◽  
Vol 38 (8) ◽  
pp. 2962-2965 ◽  
Author(s):  
Paul W. Whitby ◽  
Karen B. Carter ◽  
Kenneth L. Hatter ◽  
John J. LiPuma ◽  
Terrence L. Stull
Keyword(s):  
Burkholderia Cepacia ◽  
Growth Characteristics ◽  
Rrna Operon ◽  
Burkholderia Cepacia Complex ◽  
Pcr Analysis ◽  
Biochemical Tests ◽  
Specific Pcr ◽  
Dna Fragment ◽  
Species Specific ◽  
Phenotypic Tests

Definitive identification of the species in the Burkholderia cepacia complex by routine clinical microbiology methods is difficult. Phenotypic tests to identify B. multivorans andB. vietnamiensis have been established; more recent work indicates B. stabilis may also be identified by growth characteristics and biochemical tests. However, attempts to identify genomovars I and III have, thus far, proved unsuccessful. Previously, we demonstrated the utility of two primer pairs, directed to the rRNA operon, to specifically identify the B. cepacia complex in a PCR. One of these primer pairs, G1-G2, only amplified a DNA fragment from genomovars I and III and B. stabilis in a PCR with genomic DNA isolated from prototypical strains representing the five genomovars. Sequence analysis of the rRNA operon for all the genomovars indicated that this primer pair targeted a region shared by these isolates. Further analysis revealed a region of heterogeneity between genomovar III and B. stabilis internal to the amplified product of G1-G2. Primers designed to target this region were tested with prototypical strains following an initial amplification with the G1-G2 primer pair. New primers specific for the prototypical genomovar III and B. stabilis were designated SPR3 and SPR4, respectively. Analysis of 93 isolates representing 18 genomovar I, 13B. multivorans, 36 genomovar III, 11 B. stabilis, and 15 B. vietnamiensis isolates was performed. DNA from all isolates of genomovars I and III and B. stabilis was amplified by G1-G2. Genomovar III isolates yielded a product with SPR3/G1 while B. stabilis amplified with SPR4-G1. Genomovar I isolates were amplified by either SPR3-G1 or SPR4-G1, but not both. B. multivorans yielded a product with SPR3-G1 but not G1-G2, and B. vietnamiensis isolates were negative in all PCRs. Thus using an algorithm with G1-G2, SPR3-G1, and SPR4-G1 primers in a PCR analysis, genomovar III isolates can be separated from B. stabilis and the identity of B. multivorans and B. vietnamiensis can be confirmed.

scholarly journals Species-Specific PCR as a Tool for the Identification of Burkholderia gladioli

2000 ◽  
Vol 38 (1) ◽  
pp. 282-285
Author(s):  
Paul W. Whitby ◽  
Lauren C. Pope ◽  
Karen B. Carter ◽  
John J. LiPuma ◽  
Terrence L. Stull
Keyword(s):  
Cystic Fibrosis ◽  
Sensitivity And Specificity ◽  
Burkholderia Cepacia ◽  
Bacterial Species ◽  
23S Rrna ◽  
Computer Assisted ◽  
Accurate Identification ◽  
Specific Pcr ◽  
Burkholderia Gladioli ◽  
Species Specific

ABSTRACT Burkholderia gladioli colonizes the respiratory tracts of patients with cystic fibrosis and chronic granulomatous disease. However, due to the high degree of phenotypic similarity between this species and closely related species in the Burkholderia cepacia complex, accurate identification is difficult. Incorrect identification of these species may have serious repercussions for the management of patients with cystic fibrosis. To develop an accurate procedure for the identification of B. gladioli , a molecular method to discriminate between this species and other species commonly isolated from the sputa of patients with cystic fibrosis was investigated. The 23S ribosomal DNA was cloned from several clinical isolates of B. gladioli , and the nucleotide sequence was determined. Computer-assisted sequence comparisons indicated four regions of the 23S rRNA specific for this species; these regions were used to design three primer pairs for species-specific PCR. Two of the primer pairs showed 100% sensitivity and specificity for B. gladioli when tested against a panel of 47 isolates comprising 19 B. gladioli isolates and 28 isolates of 16 other bacterial species. One of the primer pairs was further assessed for species specificity by using a panel of 102 isolates obtained from the Burkholderia cepacia Research Laboratory and Repository. The species-specific PCR was positive for 70 of 74 isolates of B. gladioli and was negative for all other bacterial species examined. Overall, this primer pair displayed a sensitivity and specificity of 96% (89 of 93) and 100%, respectively. These data demonstrate the potential of species-specific PCR for the identification of B. gladioli .

scholarly journals Lysogeny and bacteriophage host range within the Burkholderia cepacia complex

2003 ◽  
Vol 52 (6) ◽  
pp. 483-490 ◽  
Author(s):  
Ross Langley ◽  
Dervla T. Kenna ◽  
Peter Vandamme ◽  
Rebecca Ure ◽  
John R. W. Govan
Keyword(s):  
Host Range ◽  
Burkholderia Cepacia ◽  
Potential Role ◽  
River Sediments ◽  
Burkholderia Cepacia Complex ◽  
Potential Contribution ◽  
Closely Related Species ◽  
Burkholderia Gladioli ◽  
Life Threatening ◽  
Species Specific

The Burkholderia cepacia complex comprises a group of nine closely related species that have emerged as life-threatening pulmonary pathogens in immunocompromised patients, particularly individuals with cystic fibrosis or chronic granulomatous disease. Attempts to explain the genomic plasticity, adaptability and virulence of the complex have paid little attention to bacteriophages, particularly the potential contribution of lysogenic conversion and transduction. In this study, lysogeny was observed in 10 of 20 representative strains of the B. cepacia complex. Three temperate phages and five lytic phages isolated from soils, river sediments or the plant rhizosphere were chosen for further study. Six phages exhibited T-even morphology and two were lambda-like. The host range of individual phages, when tested against 66 strains of the B. cepacia complex and a representative panel of other pseudomonads, was not species-specific within the B. cepacia complex and, in some phages, included Burkholderia gladioli and Pseudomonas aeruginosa. These new data indicate a potential role for phages of the B. cepacia complex in the evolution of these soil bacteria as pathogens of plants, humans and animals, and as novel therapeutic agents.

Arcobacter cibarius sp. nov., isolated from broiler carcasses

2005 ◽  
Vol 55 (2) ◽  
pp. 713-717 ◽  
Author(s):  
Kurt Houf ◽  
Stephen L. W. On ◽  
Tom Coenye ◽  
Jan Mast ◽  
Jan Van Hoof ◽  
...  
Keyword(s):  
Dna Hybridization ◽  
Type Strain ◽  
Pairwise Comparison ◽  
Rrna Gene ◽  
Biochemical Tests ◽  
Mean Values ◽  
Specific Pcr ◽  
Sds Page ◽  
Arcobacter Butzleri ◽  
Species Specific

Twenty Gram-negative, rod-shaped, slightly curved, non-spore-forming bacteria that gave a negative result in Arcobacter species-specific PCR tests but that yielded an amplicon in an Arcobacter genus-specific PCR test were isolated from 13 unrelated broiler carcasses. Numerical analysis of the profiles obtained by SDS-PAGE of whole-cell proteins clustered all isolates in a single group distinct from the other Arcobacter species. DNA–DNA hybridization among four representative strains exhibited DNA binding values above 91 %. DNA–DNA hybridization with reference strains of the current four Arcobacter species revealed binding levels below 47 %. The G+C contents ranged between 26·8 and 27·3 mol%. Pairwise comparison of 16S rRNA gene sequences revealed the mean values for similarity to the type strain of Arcobacter cryaerophilus (97·5 %), Arcobacter butzleri (96·5 %), Arcobacter skirrowii (96·0 %) and Arcobacter nitrofigilis (95·0 %). The levels of similarity to Campylobacter and Helicobacter species were below 88 and 87 %, respectively. The isolates could be distinguished from other Arcobacter species by the following biochemical tests: catalase, oxidase and urease activities; reduction of nitrate; growth at 25 and 37 °C under aerobic conditions; growth on 2–4 % (w/v) NaCl media; and susceptibility to cephalothin. These data demonstrate that the 20 isolates represent a single novel Arcobacter species, for which the name Arcobacter cibarius sp. nov. is proposed, with LMG 21996T (=CCUG 48482T) as the type strain.

Specific PCR Detection of Arcobacter butzleri, Arcobacter cryaerophilus, Arcobacter skirrowii, and Arcobacter cibarius in Chicken Meat

2009 ◽  
Vol 72 (7) ◽  
pp. 1491-1495 ◽  
Author(s):  
DANIELA PENTIMALLI ◽  
NICOLETTE PEGELS ◽  
TERESA GARCÍA ◽  
ROSARIO MARTÍN ◽  
ISABEL GONZÁLEZ
Keyword(s):  
Pcr Amplification ◽  
Chicken Meat ◽  
Pcr Analysis ◽  
Rrna Gene ◽  
Pcr Assay ◽  
Gyra Gene ◽  
Specific Primers ◽  
Specific Pcr ◽  
Arcobacter Butzleri ◽  
Species Specific

An enrichment PCR assay using species-specific primers was developed for the detection of Arcobacter butzleri, Arcobacter cryaerophilus, Arcobacter skirrowii, and Arcobacter cibarius in chicken meat. Primers for A. cryaerophilus, A. skirrowii, and A. cibarius were designed based on the gyrA gene to amplify nucleic acid fragments of 212, 257, and 145 bp, respectively. The A. butzleri–specific primers were designed flanking a 203-bp DNA fragment in the 16S rRNA gene. The specificity of the four primer pairs was assessed by PCR analysis of DNA from a panel of Arcobacter species, related Campylobacter, Helicobacter species, and other food bacteria. The applicability of the method was then validated by testing 42 fresh retail-purchased chicken samples in the PCR assay. An 18-h selective preenrichment step followed by PCR amplification with the four Arcobacter primer sets revealed the presence of Arcobacter spp. in 85.7% of the retail chicken samples analyzed. A. butzleri was the only species present in 50% of the samples, and 35.7% of the samples were positive for both A. butzleri and A. cryaerophilus. A. skirrowii and A. cibarius were not detected in any of the chicken samples analyzed. The enrichment PCR assay developed is a specific and rapid alternative for the survey of Arcobacter contamination in meat.

scholarly journals Identification and Detection ofStenotrophomonas maltophilia by rRNA-Directed PCR

2000 ◽  
Vol 38 (12) ◽  
pp. 4305-4309 ◽  
Author(s):  
Paul W. Whitby ◽  
Karen B. Carter ◽  
Jane L. Burns ◽  
James A. Royall ◽  
John J. LiPuma ◽  
...  
Keyword(s):  
Burkholderia Cepacia ◽  
Direct Detection ◽  
Pcr Primers ◽  
Laboratory Culture ◽  
23S Rrna ◽  
Rrna Gene ◽  
Specific Pcr ◽  
23S Rrna Gene ◽  
Susceptible Populations ◽  
Species Specific

Stenotrophomonas maltophilia has recently emerged as an important nosocomial pathogen in immunocompromised patients, in transplant recipients, and in persons with cystic fibrosis (CF). While this organism is nonpathogenic in healthy individuals, it is increasingly associated with morbidity and mortality in susceptible populations. Recent studies have indicated that for approximately 10% of CF patients with moderate lung disease, S. maltophiliacan be cultured from respiratory tract secretions. Identification ofS. maltophilia can be problematic, and analysis of isolates from the Burkholderia cepacia Research Laboratory and Repository showed that several isolates presumptively identified asB. cepacia by clinical microbiology laboratories were in fact S. maltophilia. To overcome the problems associated with definitive identification, we developed species-specific PCR (SS-PCR) primers, designated SM1 and SM4, directed to the 23S rRNA gene, and tested their utility to accurately identify S. maltophilia directly from sputum. The SS-PCR was developed and tested against a panel of 112 S. maltophilia isolates collected from diverse geographic locations. To test for specificity, 43 isolates from 17 different species were analyzed. PCR with the SM1-SM4 primer pair and isolated genomic DNA as a template resulted in amplification of a band from all S. maltophilia isolates and was uniformly negative for all other species tested, yielding a sensitivity and a specificity of 100% for the SS-PCR. The utility of the SS-PCR to directly identify S. maltophilia in sputum was examined. Thirteen expectorated sputum samples from CF patients were analyzed by SS-PCR. Three samples were PCR positive, in complete concordance with the conventional laboratory culture. Thus, we have developed an SS-PCR protocol that can rapidly and accurately identifyS. maltophilia isolates and which can be used for the direct detection of this organism in CF patient sputum.

Echinococcus multilocularis in a Eurasian lynx (Lynx lynx) in Turkey

Parasitology ◽  
2018 ◽  
Vol 145 (9) ◽  
pp. 1147-1150 ◽  
Author(s):  
Hamza Avcioglu ◽  
Esin Guven ◽  
Ibrahim Balkaya ◽  
Ridvan Kirman
Keyword(s):  
Echinococcus Multilocularis ◽  
Pcr Analysis ◽  
12S Rrna ◽  
Rrna Gene ◽  
Lynx Lynx ◽  
Eurasian Lynx ◽  
The North ◽  
Specific Pcr ◽  
Gene Sequence Analysis ◽  
Species Specific

AbstractEchinococcus multilocularis is the causative agent of alveolar echinococcosis (AE), one of the most threatening zoonoses in Eurasia. Human AE is widespread in the Erzurum region of Turkey, but the situation of the disease in intermediate and definitive hosts is unknown. A Eurasian lynx (Lynx lynx) was killed in a traffic accident in the north of Erzurum, and was taken to our laboratory. Sedimentation and counting technique (SCT), DNA isolation and polymerase chain reaction (PCR) analysis were performed. The SCT results showed that the lynx was infected with E. multilocularis with a medium (745 worms) worm burden. The DNA of adult worms obtained from the lynx was analyzed with a species-specific PCR, and the worms were confirmed to be E. multilocularis by 12S rRNA gene sequence analysis. This is the first report of E. multilocularis from Eurasian lynx in Turkey.

scholarly journals PCR-identification of bacteria belonging to the genus Pectobacterium – agents of cucumber soft rot and wilting in Ukraine

2020 ◽  
Vol 27 ◽  
pp. 61-65
Author(s):  
L. A. Dankevych
Keyword(s):  
Causative Agent ◽  
Molecular Genetic ◽  
Soft Rot ◽  
Individual Species ◽  
Species Status ◽  
Specific Pcr ◽  
Pcr Product ◽  
Identification Of Bacteria ◽  
Dna Fragment ◽  
Species Specific

Aim. Correct species identification of isolated Pectobacterium sp., collection «E. toxica» strains and typical representatives of some species of the genus Pectobacterium and Dickeya via PCR for individual species-specific regions of their genome. Methods. Microbiological and molecular genetic (PCR) methods Results. A specific PCR product of size 434 bp was amplified in the genome of isolated Pectobacterium sp., collection «E. toxica» and typical P. carotovorum susp. carotovorum UKM B1075T and P. atrosepticum UKM B-1084T strains. The 690 bp DNA fragment was detected solely in the genome of the typical P. atrosepticum UKM B-1084T strain and absent in strains which are agents of cucumber soft rot and wilting and a typical P. carotovorum susp. carotovorum UKM B1075T strain. Conclusions. PCR detection of specific DNA fragments allowed us to finally clarify the species status of the causative agent of cucumber soft rot and wilting and attribute it to P. carotovorum. Keywords: identification, causative agent of cucumber soft rot and wilting.

scholarly journals The Likelihood of Misidentifying Rodent Pasteurellaceae by Using Results from a Single PCR Assay

2019 ◽  
Vol 58 (2) ◽  
pp. 201-207 ◽  
Author(s):  
Hagit Dafni ◽  
Lea Greenfeld ◽  
Roni Oren ◽  
Alon Harmelin
Keyword(s):  
Health Monitoring ◽  
Animal Health ◽  
16S Rrna Gene Sequencing ◽  
Pcr Analysis ◽  
Rrna Gene ◽  
Correct Identification ◽  
Pcr Assay ◽  
Specific Pcr ◽  
Primer Sets ◽  
Species Specific

The precise identification of rodent Pasteurellaceae is known to be highly challenging. An unknown strain of Pasteurellaceae appeared and rapidly spread throughout our animal facilities. Standard microbiology, combined with biochemical analysis, suggested that the bacteria strain was Rodentibacter pneumotropicus or R. heylii. We submitted samples of the unknown bacteria and known isolates of R. pneumotropicus, R. heylii, and Muribacter muris, to 2 service laboratories that provide animal health monitoring. Results of microbiology tests performed by both laboratories, species-specific PCR analysis performed by one laboratory, and independent 16S rRNA gene sequencing yielded identical identification of the unknown bacteria as Pasteurellaceae (Pasteurella spp.) and not R. pneumotropicus or R. heylii. In contrast, the similarly intended PCR assay performed by the other laboratory identified the bacteria as R. heylii. Careful evaluation of all of the results led us to conclude that the correct identification of the bacteria is Pasteurellaceae. From our experience, we recommend that a combination of several methods should be used to achieve correct identification of rodent Pasteurellaceae. Specifically, we advise that all primer sets used should be disclosed when reporting PCR test results, including in health reports provided by service laboratories and animal vendors. Careful, correct, and informative health monitoring reports are most beneficial to animal researchers and caretakers who might encounter the presence and effects of rodent Pasteurellaceae.

scholarly journals Evaluation of Procedures for the Collection, Processing, and Analysis of Biomolecules from Low-Biomass Surfaces

2011 ◽  
Vol 77 (9) ◽  
pp. 2943-2953 ◽  
Author(s):  
K. Kwan ◽  
M. Cooper ◽  
M. T. La Duc ◽  
P. Vaishampayan ◽  
C. Stam ◽  
...  
Keyword(s):  
Molecular Analysis ◽  
Distinct Species ◽  
Pcr Analysis ◽  
Rrna Gene ◽  
Sample Collection ◽  
Sampling Device ◽  
Small Surface ◽  
Cellular Density ◽  
Specific Pcr ◽  
Species Specific

ABSTRACTTo comprehensively assess microbial diversity and abundance via molecular-analysis-based methods, procedures for sample collection, processing, and analysis were evaluated in depth. A model microbial community (MMC) of known composition, representative of a typical low-biomass surface sample, was used to examine the effects of variables in sampling matrices, target cell density/molecule concentration, and cryogenic storage on the overall efficacy of the sampling regimen. The MMC used in this study comprised 11 distinct species of bacterial, archaeal, and fungal lineages associated with either spacecraft or clean-room surfaces. A known cellular density of MMC was deposited onto stainless steel coupons, and after drying, a variety of sampling devices were used to recover cells and biomolecules. The biomolecules and cells/spores recovered from each collection device were assessed by cultivable and microscopic enumeration, and quantitative and species-specific PCR assays. rRNA gene-based quantitative PCR analysis showed that cotton swabs were superior to nylon-flocked swabs for sampling of small surface areas, and for larger surfaces, biological sampling kits significantly outperformed polyester wipes. Species-specific PCR revealed differential recovery of certain species dependent upon the sampling device employed. The results of this study empower current and future molecular-analysis-based microbial sampling and processing methodologies.

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