M. Sofi Ibrahim scite author profile

This report describes real-time 5' nuclease PCR assays to rapidly distinguish single-base polymorphism using a battery-powered miniature analytical thermal cycling instrument (MATCI). Orthopoxviruses and the human complement component C6 gene served as targets to demonstrate the feasibility of using the MATCI for diagnosis of infectious diseases and genetic disorders. In the Orthopoxvirus assay, consensus Orthopoxvirus PCR primers were designed to amplify 266-281 base-pair (bp) segments of the hemagglutinin (HA) gene in camelpox, cowpox, monkeypox, and vaccinia viruses. A vaccinia virus-specific fluorogenic (TaqMan) probe was designed to detect a single-base (A/G) substitution within the HA gene. In the C6 gene assay, a 73-bp segment of the C6 gene was PCR-amplified from human genomic DNA, and TaqMan probes were used to detect a single-base (A/C) polymorphism in the second position of codon 98. The MATCI correctly identified the nucleotide differences in both viral DNA and human genomic DNA. In addition, using a rapid DNA preparation method, it was possible to achieve sample, preparation of human genomic DNA, DNA amplification, and real-time detection in less than 1 h.

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Real-Time PCR Assay To Detect Smallpox Virus

Ibrahim

Kulesh

Saleh

et al. 2003

J Clin Microbiol

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We developed a highly sensitive and specific assay for the rapid detection of smallpox virus DNA on both the Smart Cycler and LightCycler platforms. The assay is based on TaqMan chemistry with the orthopoxvirus hemagglutinin gene used as the target sequence. With genomic DNA purified from variola virus Bangladesh 1975, the limit of detection was estimated to be approximately 25 copies on both machines. The assay was evaluated in a blinded study with 322 coded samples that included genomic DNA from 48 different isolates of variola virus; 25 different strains and isolates of camelpox, cowpox, ectromelia, gerbilpox, herpes, monkeypox, myxoma, rabbitpox, raccoonpox, skunkpox, vaccinia, and varicella-zoster viruses; and two rickettsial species at concentrations mostly ranging from 100 fg/l to 1 ng/l.

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Detection of Francisella tularensis in infected mammals and vectors using a probe-based polymerase chain reaction.

Higgins¹,

Hubálek²,

Halouzka³

et al. 2000

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Abstract. We investigated the use of a TaqMan 5Ј nuclease assay (5NA) directed against the Francisella tularensis outer membrane protein (Fop) gene and a polymerase chain reaction-enzyme immunoassay (PCR-EIA) directed against the tul 4 gene for detection of this organism in experimentally infected mice and in field-collected tick vectors. We also evaluated the use of specially formulated filter paper (FTA) for rapid sample preparation. The 5NA had a detection limit of 1 pg of genomic DNA (Ͻ100 colony-forming units) and could be completed within several hours. The PCR-EIA could detect 1 pg of genomic DNA and 10 attograms (ag) (22 copies) of cloned insert, but takes longer to perform. Both assays were genus-specific, and successfully detected F. tularensis in mouse tissues (5NA) and in tick extracts (PCR-EIA). The FTA paper provided inexpensive, rapid, template preparation for the tick extracts, mouse tissues, and DNA obtained from clinical specimens. These probe-based assays have the potential to provide rapid, real-time/high-throughput molecular diagnostics in field situations.

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The potential of 5′ nuclease PCR for detecting a single-base polymorphism inOrthopoxvirus

Ibrahim

Esposito

Jahrling

et al. 1997

Molecular and Cellular Probes

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Identification of Dobrava, Hantaan, Seoul, and Puumala viruses by one-step real-time RT-PCR

Aitichou

Saleh

McElroy

et al. 2005

Journal of Virological Methods

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M. Sofi Ibrahim

Real-Time Microchip PCR for Detecting Single-Base Differences in Viral and Human DNA

Real-Time PCR Assay To Detect Smallpox Virus

Detection of Francisella tularensis in infected mammals and vectors using a probe-based polymerase chain reaction.

The potential of 5′ nuclease PCR for detecting a single-base polymorphism inOrthopoxvirus

Identification of Dobrava, Hantaan, Seoul, and Puumala viruses by one-step real-time RT-PCR

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