Abstract

A new gold-nanoparticle (AuNP)-based strategy to dynamically modulate the activity of DNA polymerases and realize a hot-start (HS)-like effect in the polymerase chain reaction (PCR) is reported, which effectively prevents unwanted nonspecific amplification and improves the performance of PCRs. A high-fidelity Pfu DNA polymerase is employed as the model system. Interestingly, AuNPs inactivate the polymerase activity of Pfu at low temperature, thus resembling an antibody-based HS PCR. This inhibition effect of AuNPs is demonstrated for the preamplification polymerization activity of the PCR, which largely suppresses nonspecific amplification at temperatures between 30 and 60 degrees C and leads to highly specific and sensitive PCR amplification with Pfu. Significantly, the fidelity of Pfu is not sacrificed in the presence of AuNPs. Therefore, this AuNP-based HS strategy provides a straightforward and potentially versatile approach to realize high-performance PCR amplification.