A stable complex between homopyrimidine oligomers and the homologous regions of duplex DNAs

Abstract

When plasmid DNA duplexes carrying the regular homopurine homopyrimidine inserts (dGA)n. (dTC)n and (dG)n. (dC)n are preincubated with homologous labeled oligo (dPy) (dTC)n and (dC)n respectively) at acid pH, the label co-electrophores with the duplex DNA. Thus, a very strong complex is formed. Complementary oligo(dPu) does not form a complex under these conditions. No binding is observed for oligo(dPy) with non-homologous inserts as well as with vector plasmids without inserts. The complex is formed equally well with linear, nicked or superhelical DNA. The complex is not detected at pH > 6. Complex formation leads to very little, if any, unwinding of the duplex. The observed complex appears to be the Py.Pu.Py triplex consisting of TAT and CGC base-triads with protonated cytosines. Two-dimensional gel electrophoresis patterns show that the presence of homologous oligo(dPy) destabilizes the formation of the H form. © 1988 IRL Press.