Abstract
In this study we describe a novel protocol for rapid molecular analysis of patient samples using a combination of real-time polymerase chain reaction (PCR) and Sanger sequencing. This would normally take 2 working days in the diagnostic laboratory, but using this protocol the process can be completed within 3 h using equipment normally found in the laboratory. The innovative steps in this protocol are the sequencing of the product generated in the diagnostic real-time PCR, addition of a sequencing tail to the PCR primer, which increases the quality of the sequence without loss of sensitivity or specificity, and optimization of the hands-on and instrument steps using modern reagents. The read length of the sequencing step is routinely 250 nucleotides, which is substantially longer than existing rapid sequencing methods, increasing the chances of covering several genetic markers within 1 analysis. As proof of the concept, we used the detection and genotyping of the intestinal parasite Giardia lamblia, but the protocol can be applied to any PCR and sequence-based analysis.
Acknowledgements
This work was supported by grants from the Swedish Emergency Management Agency. Johan Ankarklev is financed by a grant from SIDA/SAREC. We thank Dr Silvia Botero Kleiven for providing DNA for the specificity tests and Byron Leiva for the work involved in collecting the clinical Giardia samples. We thank Benjamin Turner for his technical support.
Declaration of interest: The authors report no conflicts of interest.