Mechanisms of triplex-caused polymerization arrest

Authors

Andrey S. Krasilnikov, University of Illinois at Chicago
Igor G. Panyutin, NIH Clinical Center (CC)
George M. Samadashwily, University of Illinois at Chicago
Randal Cox, University of Illinois at Chicago
Yurii S. Lazurkin, Institute of Molecular Genetics, Russian Academy of Sciences
Sergei M. Mirkin, University of Illinois at Chicago

Abstract

Pyrimidine/purine/purine triplexes are known to inhibit DNA polymerization. Here we have studied the mechanisms of this inhibition by comparing the efficiency of Vent DNA polymerase on triplex- and duplex-containing templates at different temperatures, Mg2+ concentrations and time intervals with the thermal stability of the corresponding structures. Our results show that triplexes can only be by-passed at temperatures where thermal denaturation initiates, while duplexes, in contrast, are overcome at temperatures where they are quite stable. These results show that DNA polymerase cannot untangle triplex regions within DNA templates and seems to entirely depend on their thermal fluctuations. The high stability of triplexes at physiological temperatures and ambient conditions make them a barrier to polymerization.

Publication Title

Nucleic Acids Research

Recommended Citation

Krasilnikov, A., Panyutin, I., Samadashwily, G., Cox, R., Lazurkin, Y., & Mirkin, S. (1997). Mechanisms of triplex-caused polymerization arrest. Nucleic Acids Research, 25 (7), 1339-1346. https://doi.org/10.1093/nar/25.7.1339