UV Light-Induced Crosslinking of the Strands of Poly(dA-dT) and Related Alternating Purine-Pyrimidine DNAs

Abstract

Alkaline agarose gel electrophoresis was used to detect UV-induced crosslinking of the strands of poly(dA-dT) and related alternating purine-pyrimidine DNAs in solutions stabilizing various polynucleotide conformations. Strands of the B-form and A-form of poly(dA-dT) were not crosslinked but a UV dose-dependent retarded species appeared in the denaturing gels in parallel with the polynucleotide isomerization into the unusual X-form. Most other polynucleotides adopting the X-form were crosslinked as well. The exceptions include the X-forms of poly(dA-butyl⁵dU) and poly(dA-pentyl⁵dU) whose strands do not crosslink because the long exocyclic substituents attached to uracil make the photodimerization impossible. Strands of poly (amino²dA-dT) and poly(dA, amino ²dA-dT), the latter polynucleotide containing roughly equal amounts of amino ²adenine and adenine, also do not crosslink upon UV irradiation because they isomerize into an A-like conformation which is different from the X- form of poly (dA-dT). In contrast, strands of the mixed copolymers of poly(dA, amino ²dA-dT) containing low amino ²adenine contents are crosslinked upon UV irradiation, in accordance with the observation that they isomerize into the X-form.