Insertion-deletion Biases and the Evolution of Genome Size
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Numerous theories have been proposed to account for the pronounced differences in the quantity of non-coding DNA among eukaryotic genomes, but the current repertoire remains incomplete because the only explicit mechanisms it provides involve DNA gain. It has been proposed more recently that biases in spontaneous insertions and deletions (indels) can lead to genome shrinkage by mutational mechanisms alone. The present article provides the first detailed critical discussion of this approach, and covers three different ideas related to it: (1) the general notion of DNA loss by deletion bias, (2) the "DNA loss hypothesis" which supposes that variation in genome size can be attributed to differences in DNA loss rate, and (3) the "mutational equilibrium model" which attempts to describe the long-term evolution of genome size. The mutational equilibrium model is found to be problematic, and it is noted that DNA loss by small indels is too slow in real time to determine variation in genome size above a relatively low threshold. Some alternative explanations for the observed patterns are provided, and the critique also identifies some potential problems with the current dataset. These include a failure to cite a more detailed (and somewhat contradictory) mammalian dataset, a questionable use of arithmetic means with highly skewed data, and important discrepancies among the particular DNA sequences so far analyzed. Overall, evolutionary reductions in genome size are considered important, but the specific mechanism relating to small deletion bias is far too weak to be accepted as a primary determinant of genome size variation in general.
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