Abstract
Polymerase chain reaction (PCR) is a powerful molecular biology assay for gene detection and quantification. Conventional DNA primers for PCR often suffer from poor sensitivity in specific gene detection. Recently, oligonucleotides containing methyl phosphotriester (MPTE-DNA) have been developed with enhanced DNA hybridization and improved gene detection sensitivity. Yet, site-specific MPTE-modifications on DNA primers have been reported to affect PCR amplification efficiencies while the detailed mechanism remains elusive. Here, we utilized molecular dynamics (MD) simulation to examine the effects of site-specific MPTE-modified primers on the structure and motions of DNA/Taq polymerase complexes. All tested MPTE-DNA/Taq complexes exhibited RMSD values below 2 Å, indicating insignificant effects of all methylation sites on the complex stability. The energetic and hydrogen-bonding analyses suggest minor effects of methylation at t-3, t-4, t-6, and t-7 positions on the DNA−Taq interaction. Principal component analyses further reveal that only t-3, and t-7 methylations preserve the motions of the Taq thumb domain. The site-specific methylation affects the interaction between DNA and the surrounding protein residues, resulting in allosteric-like effects on the DNA/Taq complex. The MD data complement the best experimentally observed PCR efficacies for the t-3 and t-7 positions among all tested MPTE-primers. The unveiled molecular insights can benefit the design of novel PCR primers for improving genetic testing platforms.
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More From: Computational and Structural Biotechnology Journal
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