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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Molecular Diagnosis of Common Viral Infectious Diseases Based on Real-Time PCR

Mohamed, Nahla January 2006 (has links)
Molecular biology has become an integral part of the diagnosis of infectious diseases. Recently, quantitative real-time PCR (QPCR) methods (often in the form of so-called TaqMan® systems) have been developed for the diagnosis of a wide range of infectious diseases; these techniques found valuable clinical application in the diagnosis and evaluation of progress and therapeutic success of viral diseases. The use of QPCR as a tool for diagnostic virological and viral research laboratories has greatly increased in recent years. It often replaces conventional PCR and amplicon detection systems which are more complex and laborious, with a higher risk of amplicon carry-over contamination. The new QPCR methods presented here utilize broadly targeted primers and probes for rational and sensitive detection and quantification of variable RNA viruses. They take advantage of the dual properties, both RNA and DNA dependent DNA polymerase activities, of the rTth thermostable polymerase, and thermolabile UNG with dUTP to protect against inadvertent contamination of samples with amplimers. In paper one, a novel QPCR approach to detect and quantify human enteroviral (EV) RNA in patients with neurological disorders such as aseptic meningitis is presented. In the second paper, the development of a novel serological technique, quantitative PCR enhanced immunoassay (QPIA), for serodiagnosis of EV infection, is described. In paper three the subject is the development of a touch-down QPCR (TD-QPCR) for detection and preliminary genogrouping of norovirus (NV), a group of Caliciviruses. In paper four a rational, broadly targeted, system for detection of diverse influenza viruses, yet being able to discriminate between influenza A, B and C, is designed and evaluated. In the last paper, another rational broadly targeted system, for detection of corona viruses in humans and animals, is described. The technologies described in this collection of papers have common features. They are a platform for further development of diagnostic tools for screening and detection of viruses in known viral diseases, maybe also for discovering new viruses.
2

Development of Real-Time PCR Based Methods for Detection of Viruses and Virus Antibodies

Elfaitouri, Amal January 2006 (has links)
Quantitative real-time PCR (QPCR) technology has been very useful for diagnosis of viral diseases. QPCR has recently reached a level of sensitivity, simplicity, and reproducibility which allows a large number of samples to be screened rapidly, make it a suitable tool for the clinical virology diagnostics. In this thesis, broadly targeted and degenerated quantitative QPCR assays were used. A somewhat novel single-tube real-time reverse transcription-polymerase chain reaction (QRT-PCR), with takes advantage of ability of rTth DNA polymerase to reverse transcribe RNA in the presence of Mn2+ at elevated temperatures and includes protection against amplimer contamination by using thermolabile UNG, was developed. A new technique for diagnostic of recent viral infection by detection of viral immunoglobulin M (IgM) was also developed. In the first paper, a sensitive single-tube QRT-PCR for detection of enteroviral RNA in patients with aseptic meningitis was presented. In the second paper, a single-serum-dilution real-time PCR-based PIA (PCR-enhanced immunoassay), called quantitative PIA (QPIA), to detect enterovirus IgM for diagnosis of EV infection in patients with aseptic meningitis, was also developed. In the third paper, a broadly targeted, simple, single tube degenerated quantitative QPCR technique for detection of JCV, BKV and SV40 DNA was developed. A conserved region of the VP2 gene of JCV, BKV and SV40 was targeted. A false positive result due to contamination with commonly used SV40 T-antigen plasmids was therefore avoided. In manuscript four, the QPIA assay provide a rational strategy for detection of EV IgM, allows the use of viral antigens isolate from newly diagnosed Type 1 diabetes patients (T1D-EV-QPIA) to measured IgM against diabetogenic viruses in serum from newly diagnosed T1D children, siblings, and healthy children. To conclude, novel broadly targeted real-time PCR methods for diagnosis of entero- and polyoma viral infections were developed.

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