The influence of the exocyclic amino group characteristic of GC base pairs on molecular recognition of specific nucleotide sequences in DNA by berenil and DAPI.

Abstract

The expedient of preparing homologous DNA samples substituted with inosine for guanosine residues, 2,6-diaminopurine (DAP) for adenine residues, or both, has been used to investigate the role of the purine 2-amino group in determining the preferred binding sites for the drugs berenil [1,3-bis(4-phenylamidinium) triazene] and DAPI (4',6-diamidino-2-phenyl indole) on DNA. The selectivity of these two minor groove binders for AT-rich sequences is seen to be radically altered in the substituted DNA molecules. Neither berenil nor DAPI bind to DAP-substituted DNA where all purine residues bear a 2-amino group. By contrast, they bind to AT-rich, IC-rich and even mixed sequences of the inosine DNA where all purine residues lack the 2-amino group. With the inosine and DAP double substituted DNA, both berenil and DAPI bind preferentially to IC-rich clusters instead of their canonical tracts endowed with an extra 2-amino group through substitution with DAP. These results establish that the location of the purine 2-amino group represents a critical determinant for recognition of DNA nucleotide sequences by the two drugs.