PCR typing of Corynebacterium diphtheriae by random amplification of polymorphic DNA

Primary cilia in retinal pigment epithelium development and diseases

Retinal pigment epithelium (RPE) is a highly polarized epithelial monolayer lying between the photoreceptor layer and the Bruch membrane. It is essential for vision through participating in many critical activities, including phagocytosis of photoreceptor outer segments, recycling the visual cycle‐related compounds, forming a barrier to control the transport of nutrients, ions, and water, and the removal of waste. Primary cilia are conservatively present in almost all the vertebrate cells and acts as a sensory organelle to control tissue development and homeostasis maintenance. Numerous studies reveal that abnormalities in RPE lead to various retinal diseases, such as age‐related macular degeneration and diabetic macular oedema, but the mechanism of primary cilia in these physiological and pathological activities remains to be elucidated. Herein, we summarize the functions of primary cilia in the RPE development and the mutations of ciliary genes identified in RPE‐related diseases. By highlighting the significance of primary cilia in regulating the physiological and pathological processes of RPE, we aim to provide novel insights for the treatment of RPE‐related retinal diseases.

The utility of the PCR melting profile technique for typing Corynebacterium diphtheriae isolates

Selection of appropriate typing method depends on a number of factors, including the scale of the investigation, the rapidity required of the results and the financial and technical resources available. Several typing methods have been applied to Corynebacterium diphtheriae genotyping, but most are laborious and time-consuming or require expensive equipment. We report an evaluation of the utility of the PCR melting profile technique for simple and easy-to-perform genotyping of C. diphtheriae. We compared the method with ribotyping-the 'gold standard' for C. diphtheriae typing-and PFGE, MLST, AFLP, RAPD and spoligotyping.

SIGNIFICANCE AND IMPACT OF THE STUDY

Occurrence of Corynebacterium diphtheriae infections-in the form of diphtheria in endemic countries and in the form of invasive infections in countries with high antidiphtheria vaccination coverage-indicates the need for maintenance of ability to genotype this pathogen by laboratories. Application of an appropriate typing method is essential not only in outbreak investigations for understanding and predicting epidemics but also in monitoring of the evolution and spread of epidemic clones of C. diphtheriae. The PCR melting profile method presented in the study is a good alternative for C. diphtheriae typing.

Corynebacterium aquatimens sp. nov., a lipophilic Corynebacterium isolated from blood cultures of a patient with bacteremia

An unknown lipophilic coryneform bacterium isolated from the blood cultures of a patient with bacteremia was characterized by phenotypic and molecular genetic methods. Chemical analysis revealed the presence of short chain mycolic acids consistent with the genus Corynebacterium. The DNA G+C content was 60.8 mol%. Comparative 16S rRNA gene sequence analysis demonstrated that the isolate represents a new subline within the genus Corynebacterium. The closely phylogenetic relative of the unknown bacterium was found to be C. tuscaniense (97.8% sequence similarity). Partial rpoB gene sequence revealed that strain IMMIB L-2475(T) exhibited 13.5% sequence divergence with C. tuscaniense. The unknown bacterium was distinguished from C. tuscaniense by, DNA-DNA hybridization, cellular fatty acid profiles, MALDI-TOF analyses of cell extracts and biochemical tests. Based on the phylogenetic and phenotypic criteria, it is proposed that this bacterium be classified as new species, Corynebacterium aquatimens sp. nov., and is represented by strain IMMIB L-2475(T) (=DSM 45632(T)=CCUG 61574(T)).

Multilocus sequence typing identifies evidence for recombination and two distinct lineages of Corynebacterium diphtheriae

We describe the development of a multilocus sequence typing (MLST) scheme for Corynebacterium diphtheriae, the causative agent of the potentially fatal upper respiratory disease diphtheria. Global changes in diphtheria epidemiology are highlighted by the recent epidemic in the former Soviet Union (FSU) and also by the emergence of nontoxigenic strains causing atypical disease. Although numerous techniques have been developed to characterize C. diphtheriae, their use is hindered by limited portability and, in some instances, poor reproducibility. One hundred fifty isolates from 18 countries and encompassing a period of 50 years were analyzed by multilocus sequence typing (MLST). Strain discrimination was in accordance with previous ribotyping data, and clonal complexes associated with disease outbreaks were clearly identified by MLST. The data produced are portable, reproducible, and unambiguous. The MLST scheme described provides a valuable tool for monitoring and characterizing endemic and epidemic C. diphtheriae strains. Furthermore, multilocus sequence analysis of the nucleotide data reveals two distinct lineages within the population of C. diphtheriae examined, one of which is composed exclusively of biotype belfanti isolates and the other of multiple biotypes.

Comparison of four molecular typing methods for characterization of Corynebacterium diphtheriae and determination of transcontinental spread of C. diphtheriae based on BstEII rRNA gene profiles

The diphtheria epidemic in the Russian Federation in the 1990s made diphtheria a focus of global concern once again. The development of rapid and reproducible typing methods for the molecular characterization of Corynebacterium diphtheriae has become a priority in order to be able to monitor the spread of this important pathogen on a global scale. We report on a comparison of four molecular typing methods (ribotyping, pulsed-field gel electrophoresis [PFGE], random amplification of polymorphic DNA [RAPD], and amplified fragment length polymorphism [AFLP]) for the characterization of C. diphtheriae strains. Initially, 755 isolates originating from 26 countries were analyzed by ribotyping. One strain of each ribotype was then randomly chosen and characterized by PFGE, RAPD, and AFLP. In order to ascertain whether the Eastern European epidemic ribotype could be further discriminated, 10 strains of ribotype D1 (the epidemic ribotype) from different geographical regions were randomly chosen and subjected to analysis by PFGE, RAPD, and AFLP. The results revealed that ribotyping is highly discriminatory and reproducible and is currently the method of choice for typing C. diphtheriae. PFGE and AFLP were less discriminatory than ribotyping and RAPD. An assessment of the transcontinental spread of the organism showed that several genotypes of C. diphtheriae circulated on different continents of the world and that each outbreak was caused by a distinct clone. The ribotypes seen in Europe appeared to be distinct from those seen elsewhere, and certain ribotypes appeared to be unique to particular countries.

Emergence of an invasive clone of nontoxigenic Corynebacterium diphtheriae in the urban poor population of Vancouver, Canada

Invasive disease due to Corynebacterium diphtheriae is rare in North America. Here we describe the emergence of a predominant clone of a nontoxigenic strain of C. diphtheriae in the impoverished population of Vancouver's downtown core. This clone has caused significant morbidity and contributed to at least two deaths. Over a 5-year period, seven cases of bacteremia due to C. diphtheriae were detected in patients admitted to Vancouver hospitals. Injection drug use, diabetes mellitus, skin colonization/infection with C. diphtheriae, and homelessness all appeared to be related to the development of bacteremia with the organism. Ribotyping of isolates recovered from blood culture revealed a predominant ribotype pattern that has not previously been reported in North America.

Efficient discrimination within a Corynebacterium diphtheriae epidemic clonal group by a novel macroarray-based method

A large diphtheria epidemic in the 1990s in Russia and neighboring countries was caused by a clonal group of closely related Corynebacterium diphtheriae strains (ribotypes Sankt-Peterburg and Rossija). In the recently published complete genome sequence of C. diphtheriae strain NCTC13129, representative of the epidemic clone (A. M. Cerdeno-Tarraga et al., Nucleic Acids Res. 31:6516-6523, 2003), we identified in silico two direct repeat (DR) loci 39 kb downstream and 180 kb upstream of the oriC region, consisting of minisatellite (27- to 36-bp) alternating DRs and variable spacers. We designated these loci DRA and DRB, respectively. A reverse-hybridization macroarray-based method has been developed to study polymorphism (the presence or absence of 21 different spacers) in the larger DRB locus. We name it spoligotyping (spacer oligonucleotide typing), analogously to a similar method of Mycobacterium tuberculosis genotyping. The method was evaluated with 154 clinical strains of the C. diphtheriae epidemic clone from the St. Petersburg area in Russia from 1997 to 2002. By comparison with the international ribotype database (Institut Pasteur, Paris, France), these strains were previously identified as belonging to ribotypes Sankt-Peterburg (n = 79) and Rossija (n = 75). The 154 strains were subdivided into 34 spoligotypes: 14 unique strains and 20 types shared by 2 to 46 strains; the Hunter Gaston discriminatory index (HGDI) was 0.85. DRB locus-based spoligotyping allows fast and efficient discrimination within the C. diphtheriae epidemic clonal group and is applicable to both epidemiological investigations and phylogenetic reconstruction. The results are easy to interpret and can be presented and stored in a user-friendly digital database (Excel file), allowing rapid type determination of new strains.

Evaluation of a novel method based on amplification of DNA fragments surrounding rare restriction sites (ADSRRS fingerprinting) for typing strains of vancomycin-resistant Enterococcus faecium

In the search for an effective DNA-typing technique for use in hospital epidemiology, the performance and convenience of a novel assay based on the fingerprinting of bacterial genomes by amplification of DNA fragments surrounding rare restriction sites (ADSRRS fingerprinting) was tested. A large number of vancomycin-resistant Enterococcus faecium (VREM) isolates from haematological ward patients of the Clinical Hospital in Gdańsk were examined. We found that ADSRRS fingerprinting analysis is a rapid method that offers good discriminatory power. The method demonstrated also excellent reproducibility. The usefulness of the ADSRRS fingerprinting method for molecular typing was compared with pulsed field gel electrophoresis (PFGE) method, which is currently considered the gold standard for molecular typing of isolates recovered from patients and the environment in the course of investigation and control of nosocomial outbreaks. Clustering of ADSRRS fingerprinting data matched pulsed field gel electrophoresis data. The features of ADSRRS fingerprinting technique is discussed in comparison with conventional methods. Data presented here demonstrate the complexity of the epidemiological situation concerning VREM that may occur in a single medical ward.

Study of Corynebacterium diphtheriae strains isolated in Romania, northwestern Russia and the Republic of Moldova

A selection of 167 Corynebacterium diphtheriae strains isolated in Romania, the Russian Federation and the Republic of Moldova were analysed by biotyping, phage typing, the toxin production test and by molecular techniques such as ribotyping, pulsed field gel electrophoresis and random amplified polymorphic DNA, in order to establish the epidemiological relatedness, genetic divergence and strain circulation within and between the bordering countries. Using a set of five digoxigenin-labeled oligonucleotides and BstEII digestion, 34 ribotypes were identified. The strains isolated in the epidemic areas (Russia and Moldova) were very closely related but different from those isolated in Romania. C1 and C5 were the main ribotypes identified in these areas. Neither ribotype was found in Romania, where the main circulating types were C3 and C7. Field inversion gel electrophoresis was more discriminative than ribotyping and revealed 54 macrorestriction profiles after SfiI restriction. Both methods showed a significant homogeneity of the strains from epidemic areas and a large diversity among the Romanian strains. Random amplification was useful as an identification method for the epidemic strains, but not for the Romanian ones which displayed a large number of amplification profiles. The phenotypic methods associated with molecular typing techniques enabled distinguishing between strains, detecting the epidemic clone, and sustaining the absence of transmission across borders.

Use of amplified fragment length polymorphisms for typing Corynebacterium diphtheriae

Amplified fragment length polymorphism (AFLP) was investigated for the differentiation of Corynebacterium diphtheriae isolates. Analysis using Taxotron revealed 10 distinct AFLP profiles among 57 isolates. Strains with ribotype patterns D1, D4, and D12 could not be distinguished; however, the technique discriminated isolates of ribotype patterns D3, D6, and D7 further. AFLP was rapid, fairly inexpensive, and reproducible and could be used as an alternative to ribotyping.

Enhanced Polymerase Chain Reaction Methods for Detecting and Quantifying Phytophthora infestans in Plants

ABSTRACT Sensitive and specific primer sets for polymerase chain reaction (PCR) for Phytophthora infestans, the oomycete that causes late blight of potato and tomato, were developed based on families of highly repeated DNA. The performance of these primers was compared to those developed previously for the internal transcribed spacer (ITS) of ribosomal DNA. The detection limit using the new primers is 10 fg of P. infestans DNA, or 0.02 nuclei. This is about 100 times more sensitive than ITS-directed primers. Nested polymerase chain reaction (PCR) allows the measurement of down to 0.1 fg of DNA using the new primers. To enhance the reliability of diagnostic assays, an internal positive control was developed using an amplification mimic. The mimic also served as a competitor for quantitative PCR, which was used to assess the growth of P. infestans in resistant and susceptible tomato. A key dimension of this study was that two laboratories independently checked the specificity and sensitivity of each primer set; differences were noted that should be considered when PCR is adopted for diagnostic applications in any system.