INHIBITION OF PYRIMIDINE DIMER FORMATION IN DNA BY CATIONIC MOLECULES - ROLE OF ENERGY TRANSFER

In addition to the acridine dyes, acridine orange and proflavine, we find that three other cationic molecules which bind to DNA—ethidium bromide, chloroquine, and methyl green—inhibit the production of cyclobutyl pyrimidine dimers by ultraviolet radiation. Intercalation is not necessary for dimer inhibition. The long range nature of the inhibition implies that energy transfer is responsible. The transfer is between the lowest excited singlet state of DNA and the acceptor singlet, and seems to involve the Förster mechanism. © 1969, The Biophysical Society. All rights reserved.