Abstract
Through the utilization of optically active DNP-derivatives of l- and d-proline, evidence is presented which suggests that nucleic acids exist as right-handed helices in solution. The results of ultraviolet absorption, circular dichroism, proton magnetic resonance (pmr), T m of the helix-coil transition, viscometric, and binding studies are consistent with the above interpretation. It is shown that several types of DNA (i.e., salmon sperm, calf thymus, Micrococcus luteus, poly d(A-T)-poly d(A-T) and poly d(I-C)-poly d(I-C)) exist in a right-handed helical structure in solution. In addition, evidence is presented which strongly indicates that the 2,4-dinitroaniline ring of DNP-proline is intercalated between base-pairs of DNA and the prolyl side chain situated in the minor groove. Moreover, it is shown that the more sterically hindered DNP-derivatives exhibit a higher selectivity for A-T binding sites.
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