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Eliminating primer dimers and improving SNP detection using self-avoiding molecular recognition systems

Zunyi Yang, Jennifer Le, Daniel Hutter, Kevin M. Bradley, Benjamin Overton, Chris McLendon, Steven A. Benner

2020Biology Methods and Protocols19 citationsDOIOpen Access PDF

Abstract

Despite its widespread value to molecular biology, the polymerase chain reaction (PCR) encounters modes that unproductively consume PCR resources and prevent clean signals, especially when high sensitivity, high SNP discrimination, and high multiplexing are sought. Here, we show how "self-avoiding molecular recognition systems" (SAMRS) manage such difficulties. SAMRS nucleobases pair with complementary nucleotides with strengths comparable to the A:T pair, but do not pair with other SAMRS nucleobases. This should allow primers holding SAMRS components to avoid primer-primer interactions, preventing primer dimers, allowing more sensitive SNP detection, and supporting higher levels of multiplex PCR. The experiments here examine the PCR performances of primers containing different numbers of SAMRS components placed strategically at different positions, and put these performances in the context of estimates of SAMRS:standard pairing strengths. The impact of these variables on primer dimer formation, the overall efficiency and sensitivity of SAMRS-based PCR, and the value of SAMRS primers when detecting single nucleotide polymorphisms (SNPs) are also evaluated. With appropriately chosen polymerases, SNP discrimination can be greater than the conventional allele-specific PCR, with the further benefit of avoiding primer dimer artifacts. General rules guiding the design of SAMRS-modified primers are offered to support medical research and clinical diagnostics products.

Topics & Concepts

Primer (cosmetics)MultiplexComputational biologyGeneticsMultiplex polymerase chain reactionContext (archaeology)Polymerase chain reactionSingle-nucleotide polymorphismBiologyNucleobaseSNPDNAChemistryGeneGenotypeOrganic chemistryPaleontologyMolecular Biology Techniques and ApplicationsRNA and protein synthesis mechanismsAdvanced biosensing and bioanalysis techniques
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