Location of spermine and other polyamines on DNA as revealed by photoaffinity cleavage with poly(amino)benzenediazonium salts

Abstract

Although polyamines interact strongly with nucleic acids, X-ray and NMR studies have not revealed much structural information about spermine-DNA complexes. Therefore, it was of interest to look at the binding of polyamines to 32P-labeled DNA restriction fragments by sequencing gel electrophoresis of the photoaffinity cleavage products induced by polyaminobenzendiazonium salts. The shift of cleavage patterns observed on opposite strands as well as competition experiments with distamycin shows polyamines to be located in the minor groove of B-DNA and to depend on the nucleic acid polymorphism, jumping to the major groove in the A-form. The sequence selectivities of various polycations (spermine, putrescine, and cobalt (III) hexaammine) are similar and slightly favor A,T-rich regions. Taken together, these results show that polycations which are not point charges are guided by the electronegative potential along the nucleic acid and suggest fast crawling of the polyamine within the minor groove, due to individual NH2+ jumping between multiple equidistant and isoenergetic bidentate hydrogen-bonding sites. Such a picture could be the clue to the unexpected NMR and to the frequently silent X-ray behavior of polyamines when bound to DNA.