The use of PCR-based methodologies to characterize salmonella serotypes of poultry origin

Anderson, Phelue Nigel

15 May 2009

Three studies were conducted to investigate the use of molecular techniques to identify Salmonella serotypes in poultry. In the first experiment, two polymerase chain reaction (PCR)-based techniques: denaturing gradient gel electrophoresis (DGGE) and polyacrylamide gel electrophoresis (PAGE) were used to analyze Salmonella serotype isolates from two turkey processing plants (A and B). Genotypic patterns of each isolate were compared with those of known serotypes identified by traditional antibody precipitation methods. In Plant A, four different Salmonella serotypes were identified: Derby, Hadar, Montevideo, and Senftenberg. In plant B, ten serotypes were identified: Agona, Anatum, Brandenburg, Derby, Hadar, Meleagridis, Montevideo, Reading, Senftenberg, and Typhimurium. S. Derby was predominant in Plant A (83%) while S. Typhimurium was the most common serotype recovered in Plant B (39%). Overall, DGGE was more sensitive than PAGE. Isolates of the same serotypes were all grouped together by DGGE, while PAGE failed to group all like serotypes. Next, DGGE and REP-PCR were used as genotyping tools for identifying Salmonella. Fifty-four Salmonella isolates from two turkey processing plants (A and B) were evaluated. The isolates were comprised of the following serotypes: Brandenburg, Derby, Hadar, and Typhimurium (n = 6, 21, 12, and 15, respectively). Both methods were very sensitive and detected diverse fingerprint profiles among the isolates. The data suggested that REP-PCR and DGGE are useful tools for identifying Salmonella serotypes in research trials of this type. The final trial was carried out to track Salmonella serotypes throughout an integrated poultry operation using DGGE. Four flocks were sampled from grow-out through processing. The data showed that there was correlation between Salmonella serotypes found on processed carcasses and during grow-out. In addition, the isolates were compared against 15 known serotypes in our data base and only S. Hadar from the data base matched the unknown Salmonella isolates. Overall, these studies demonstrate that PCR-based methods could be considered as an alternative to conventional methods of antibody-based serotyping. Molecular methods were found to be reliable, sensitive, inexpensive, reproducible, and less labor intensive than conventional methods.

Salmonella

PCR-based Methods

Detekce spirochét lymské boreliózy v klinických vzorcích metodami PCR a optimalizace podmínek kultivace borelií ze vzorků pacientů s příznaky lymské boreliózy / Detection of Lyme disease spirochetes in clinical samples by PCR-based methods and optimalization of conditions borrelia cultivation conditions from samples of patients with LB symptoms

HAVRAN, Jiří

January 2011

The samples under investigation were collected in Department of Pediatric Infectious Diseases of the University Hospital (Brno). Group of patients (100) was heterogeneous in terms of symptoms, age and sex. The samples were taken from patients with an LB diagnosis and from those with nonspecific symptoms. Molecular typing of LB spirochetes in clinical samples (104 blood/serum, 89 cerebro-spinal fluid and 1 synovial fluid) became necessary when the general immunological tests gave unclear results. The samples were analyzed using PCR-based and molecular biology techniques that include: nested- and spacer-PCR, specie-specific PCR, sequence, virtual hybridization, in silico RFLP analysis, similarity search. Results of conducted analysis confirmed that 51% of samples (98) were positive on B. bugrdorferi sensu lato. Using above mentioned techniques 6 spirochete species from B. burgdorferi sensu lato complex were identified; two of them weren?t detected in samples of human origin in Europe yet. Comparative analysis of two media for Borrelia cultivation from samples of human origin definitely proved the adventage of using MKP instead of traditionally used BSK-H Complete.

Development of PCR-based methods for detection of African lyssaviruses

Coertse, Jessica

08 October 2010

The etiological agent of rabies encephalitis belongs to the genus Lyssavirus in the Rhabdoviridae family. Lyssaviruses are negative sense, single stranded RNA viruses and cause an estimated 55 000 human deaths per year with 44% of these deaths occurring in Africa (WHO, 2005). With intense research effort and increased sequence information it is becoming evident that the Lyssavirus genus is much more diverse than initially thought and therefore diagnostic methods need to be modified accordingly. The African continent sustains a diverse variety of lyssaviruses, however, most countries in Africa do not have active surveillance or necessary diagnostic tools and therefore rabies-related lyssaviruses are underreported. Previous studies have indicated that real-time PCR has improved sensitivity and rapidity over conventional molecular diagnostic methods with the added advantage of allowing accurate estimations of viral load in a wide variety of samples. Several realtime PCR assays have been developed; however, none were specifically aimed at detection of lyssaviruses present on the African continent. This study was therefore aimed at evaluating certain molecular diagnostic methods for the detection of African lyssaviruses. Furthermore, the application of real-time PCR for various fields in lyssavirus research i.e. diagnostics, surveillance and pathogenicity studies were evaluated. This study revealed two different hemi-nested PCR assays capable of detecting representatives of African lyssaviruses. A real-time PCR was developed that was successful for the detection of African lyssaviruses. In addition, a quantitative assay and internal control was successfully employed for confirming ante-mortem human rabies diagnosis as well as post-mortem animal rabies diagnosis in formalin fixed brain material. As such the real-time PCR assay developed in this study could therefore be routinely used for ante-mortem diagnosis and as a confirmatory test for post-mortem diagnosis. The ability of this assay to detect and quantify all currently known African lyssaviruses not only offers improved surveillance capacity, but offers unique potential as a sensitive tool to track virus movement in pathogenicity studies. These aspects are important in our search for a better understanding of the complex epidemiological and viral characteristics of African lyssaviruses. Copyright / Dissertation (MSc)--University of Pretoria, 2010. / Microbiology and Plant Pathology / unrestricted

African lyssaviruses

Polymerase chain reaction (PCR)

Pcr-based methods

UCTD