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Abstract
In Mycobacterium tuberculosis (Mtb) the detection of single nucleotide polymorphisms (SNPs) is of high importance both for diagnostics, since drug resistance is primarily caused by the acquisition of SNPs in multiple drug targets, and for epidemiological studies in which strain typing is performed by SNP identification. To provide the necessary coverage of clinically relevant resistance profiles and strain types, nucleic acid-based measurement techniques must be able to detect a large number of potential SNPs. Since the Mtb problem is pressing in many resource-poor countries, requiring low-cost point-of-care biosensors, this is a non-trivial technological challenge. This paper presents a proof-of-concept in which we chose simple DNA-DNA hybridization as a sensing principle since this can be transferred to existing low-cost hardware platforms, and we pushed the multiplex boundaries of it. With a custom designed probe set and a physicochemical-driven data analysis it was possible to simultaneously detect the presence of SNPs associated with first- and second-line drug resistance and Mtb strain typing. We have demonstrated its use for the identification of drug resistance and strain type from a panel of phylogenetically diverse clinical strains. Furthermore, reliable detection of the presence of a minority population (<5%) of drug-resistant Mtb was possible.
Highlights
Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), remains a major global health problem and is responsible for 10.4 million new infections and 1.8 million deaths annually [1]
DNA for multiplex PCR was isolated from drug-susceptible wild-type (WT) Mtb strain CDC1551 (BEI Resources, ATCC) or clinical isolates containing a variety of single nucleotide polymorphisms (SNPs)
The fluorescence intensity of both wild-type reference (IWT) and the test sample signal (IMM) lie on a diagonal line indicating that no mutation was found
Summary
Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), remains a major global health problem and is responsible for 10.4 million new infections and 1.8 million deaths annually [1]. The problem is exacerbated by the emergence of drug-resistant MTBC strains. TB strain typing & DST by DNA hybridization and analysis, decision to publish, or preparation of the manuscript
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