Author: Morabito, Kenneth; Wiske, Clay; Tripathi, Anubhav
Title: Engineering Insights for Multiplexed Real-Time Nucleic Acid Sequence-Based Amplification (NASBA): Implications for Design of Point-of-Care Diagnostics Cord-id: qvazsptq Document date: 2013_5_16
ID: qvazsptq
Snippet: BACKGROUND: Nucleic acid sequence-based amplification (NASBA) offers huge potential for low-cost, point-of-care (POC) diagnostic devices, but has been limited by high false-positive rates and the challenges of primer design. OBJECTIVE: We offer a systematic analysis of NASBA design with a view toward expanding its applicability. METHODS: We examine the parameters that effect dimer formations, and we provide a framework for designing NASBA primers that will reduce false-positive results and make
Document: BACKGROUND: Nucleic acid sequence-based amplification (NASBA) offers huge potential for low-cost, point-of-care (POC) diagnostic devices, but has been limited by high false-positive rates and the challenges of primer design. OBJECTIVE: We offer a systematic analysis of NASBA design with a view toward expanding its applicability. METHODS: We examine the parameters that effect dimer formations, and we provide a framework for designing NASBA primers that will reduce false-positive results and make NASBA suitable for more POC diagnostic applications. Then we compare three different oligonucleotide sets to examine (1) the inhibitory effect of dimer formations, (2) false positives with poorly designed primers, and (3) the effect of beacon target location during real-time NASBA. The required T7 promoter sequence adversely affects the reaction kinetics, although the common abridged sequence can improve kinetics without sacrificing accuracy. RESULTS: We demonstrate that poorly designed primers undergo real-time exponential amplification in the absence of target RNA, resulting in false positives with a time to half of the peak value (t (1/2)) of 50 min compared to 45 min for true positives. Redesigning the oligonucleotides to avoid inhibitory dimers eliminated false positives and reduced the true positive t (1/2) by 10 min. Finally, we confirm the efficacy of two molecular beacon design schemes and discuss their multiplexing utility in two clinical scenarios. CONCLUSION: This study provides a pathway for using NASBA in developing POC diagnostic assays. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s40291-013-0029-4) contains supplementary material, which is available to authorized users.
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