Abstract
Current genome walking methods are cumbersome to perform and can result in non-specific products. Here, we demonstrate the use of partially overlapping primer-based PCR (POP-PCR), a direct genome walking technique for the isolation of unknown flanking regions. This method exploits the partially overlapping characteristic at the 3’ ends of a set of POP primers (walking primers), which guarantees that the POP primer only anneals to the POP site of the preceding PCR product at relatively low temperatures. POP primer adaptation priming at the genomic DNA/POP site occurs only once due to one low-/reduced-stringency cycle in each nested PCR, resulting in the synthesis of a pool of single-stranded DNA molecules. Of this pool, the target single-stranded DNA is replicated to the double-stranded form bound by the specific primer and the POP primer in the subsequent high-stringency cycle due to the presence of the specific primer-binding site. The non-target single stranded DNA does not become double stranded due to the absence of a binding site for any of the primers. Therefore, the POP-PCR enriches target DNA while suppressing non-target products. We successfully used POP-PCR to retrieve flanking regions bordering the gadA locus in Lactobacillus brevis NCL912, malQ in Pichia pastoris GS115, the human aldolase A gene, and hyg in rice.
Highlights
Molecular biological research frequently requires DNA isolation from an unknown region bordering a known sequence [1,2,3]
The key to the partially overlapping primer-based PCR (POP-PCR) method is to utilize a set of POP primers having a 10 bp overlap at the 3’ ends, which only anneal to each other’s complementary site at a relatively low temperature
In each nested PCR, specific priming within the known sequence in the first five high-stringency cycles increased the copy number of single-stranded DNA of interest
Summary
Molecular biological research frequently requires DNA isolation from an unknown region bordering a known sequence [1,2,3]. In type III methods, SFA-PCR uses a walking primer (both ends are specific and the middle region is degenerate) to place known DNA on the unknown side of the sequence of interest via loop-back extension-mediated generation of a molecule that is shaped like a pan with a handle.
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