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Journal article

Direct detection of single-nucleotide polymorphisms in bacterial DNA by SNPtrap

By Grønlund, Hugo Ahlm1; Moen, Birgitte2; Hoorfar, Jeffrey1,3; Rådstrøm, Peter4; Malorny, Burkhard5; Rudi, Knut2

From

National Food Institute, Technical University of Denmark1

Nofima AS2

Division of Microbiology and Risk Assessment, National Food Institute, Technical University of Denmark3

Lund University4

Federal Institute for Risk Assessment5

A major challenge with single-nucleotide polymorphism (SNP) fingerprinting of bacteria and higher organisms is the combination of genome-wide screenings with the potential of multiplexing and accurate SNP detection. Single-nucleotide extension by the minisequencing principle represents a technology that both is highly accurate and enables multiplexing.

A current bottleneck for direct genome analyses by minisequencing, however, is the sensitivity, since minisequencing relies on linear signal amplification. Here, we present SNPtrap, which is a novel approach that combines the specificity and possibility of multiplexing by minisequencing with the sensitivity obtained by logarithmic signal amplification by polymerase chain reaction (PCR).

We show a SNPtrap proof of principle in a model system for two polymorphic SNP sites in the Salmonella tetrathionate reductase gene (ttrC).

Language: English
Publisher: Taylor & Francis Group
Year: 2011
Pages: 166-174
ISSN: 15322297 and 10826068
Types: Journal article
DOI: 10.1080/10826068.2011.547366
ORCIDs: Hoorfar, Jeffrey
Keywords

DNA Primers DNA, Bacterial Genes, Bacterial Molecular Probes Nucleotides Oxidoreductases Polymerase Chain Reaction Polymorphism, Single Nucleotide SNP Salmonella Sensitivity and Specificity Sequence Analysis, DNA multiplex tetrathionate reductase

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