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The finding of G-->A hypermutated retroviral genomes in which up to 40% of guanines may be substituted by adenines was proposed to result from the depletion of the intracellular dCTP concentration and suggested a means to hypermutagenize nucleic acids. Using a RNA/reverse transcriptase ratio of approximately 1:30, comparable to that within the retroviral replication complex, G-->A hypermutants were produced in a simple in vitro reaction using highly biased dNTP concentrations--i.e., a low ratio of dCTP/dTTP. Up to 38% of G residues could be substituted, the proportion being inversely proportional to the concentration of dCTP. As G-->A hypermutation resulted from elongation beyond multiple rG.dT mismatches, U-->C hypermutants resulting from multiple rU.dG mismatches were sought, and found, during cDNA synthesis using low dATP and high dGTP. Mixed G-->A and U-->C hypermutants could also be produced under conditions of low dCTP plus low dATP and high dTTP plus high dGTP. Hypermutagenesis should allow jumping through, and subsequent exploration of, sequence space to a greater degree than heretofore and, in conjunction with genetic screening, might be of use in the search of proteins or ribozymes with novel or enhanced properties.
Martı́nez et al. (Tue,) studied this question.