Objective:To apply reformed AS-PCR, which combined phosphorothioate-modified primers with exo^+ polymerase, in single nucleotide polymorphism discrimination of mitochondrial DNA 10400 locus. Methods: We used the mt...Objective:To apply reformed AS-PCR, which combined phosphorothioate-modified primers with exo^+ polymerase, in single nucleotide polymorphism discrimination of mitochondrial DNA 10400 locus. Methods: We used the mtDNA 10400 locus to design unrnodifled and 3 ' phosphorothioate-modified allele-specific primers for PCR, which was performed using polymerases with and without 3 ' exonuclease activities. The effects of these primers on primer-extension were evaluated by agarose gel electrophoresis. Results: The unmodified primers were extended by both exo and exo^+ polymerase irrespective of whether the primers were matched or mismatched with the templates. However, the 3' phosphorothioate-modified primers with a terminal mismatch triggered an "off-switch" of exo~ polymerase when compared to exopolymerase. Conclusion: The" on/off'switch constituted by the combination of 3 ' phosphorothioatemodified primers with exo^+ polymerase is a cost-effective, high-throughput and reliable method for SNP typing, which will be of enormous application in association studies by single nucleotide polymorphism screening.展开更多
基金supported by a grant from the "135" Foundation of Jiangsu Province(RC2002052).
文摘Objective:To apply reformed AS-PCR, which combined phosphorothioate-modified primers with exo^+ polymerase, in single nucleotide polymorphism discrimination of mitochondrial DNA 10400 locus. Methods: We used the mtDNA 10400 locus to design unrnodifled and 3 ' phosphorothioate-modified allele-specific primers for PCR, which was performed using polymerases with and without 3 ' exonuclease activities. The effects of these primers on primer-extension were evaluated by agarose gel electrophoresis. Results: The unmodified primers were extended by both exo and exo^+ polymerase irrespective of whether the primers were matched or mismatched with the templates. However, the 3' phosphorothioate-modified primers with a terminal mismatch triggered an "off-switch" of exo~ polymerase when compared to exopolymerase. Conclusion: The" on/off'switch constituted by the combination of 3 ' phosphorothioatemodified primers with exo^+ polymerase is a cost-effective, high-throughput and reliable method for SNP typing, which will be of enormous application in association studies by single nucleotide polymorphism screening.
