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It is well established that sequence divergence has an inhibitory effect on homologous recombination. However, a detailed analysis of this relationship is missing for most higher eukaryotes. We have measured the rate of somatic recombination between direct repeats as a function of the number, type, and position of divergent nucleotides in Arabidopsis. We show that a minor divergence level of 0.16% (one mutation in otherwise identical 618 bp) has a profound effect, decreasing the recombination rate approximately threefold. A further increase in the divergence level affects the recombination rate to a smaller extent until a "divergence saturation" effect is reached at relatively low levels of divergence ( approximately 0.5%). The type of mismatched nucleotide does not affect recombination rates. The decrease in the rate of recombination caused by a single mismatch was not affected by the position of the mismatch along the repeat. This suggests that most recombination intermediate tracts contain a mismatch and thus are as long as the full length of the 618-bp repeats. Finally, we could deduce an antirecombination efficiency of approximately 66% for the first mismatch in the repeat. Altogether, this work shows some degree of conservation across kingdoms when compared to previous reports in yeast; it also provides new insight into the effect of sequence divergence on homologous recombination.

The Effect of Sequence Divergence on Recombination Between Direct Repeats in Arabidopsis