Molecular Biology and Evolution, Vol 1, 260-268, Copyright © 1984 by Society for Molecular Biology and Evolution
DJ Galas and TF Smith
Theoretical considerations have shown that the five possible overlapping
reading-frame configurations differ significantly in their coding
flexibility and thus in their information content (Siegel and Fitch 1980;
Smith and Waterman 1980). Contrary to expectation, the overlapping frame
configuration allowing the greatest coding flexibility is rarely seen,
whereas one of the most constraining is common. We point out here that this
overlapping reading-frame paradox and an observed but unexplained
preference in coding regions for a pyrimidine-purine at codon boundaries
(Shepherd 1981; Jones and Kafatos 1982; Smith et al. 1983) are intimately
linked. The codon boundary preference, which may be related to translation
efficiency or accuracy, places constraints on the evolution of overlapping
coding regions. These considerations may help identify actual coding
regions in DNA sequences. We have analyzed five sequenced (enteric)
bacterial insertion sequences for codon boundary incidences and
reading-frame configurations and find that they are consistent with these
proposed constraints.
ORIGINAL ARTICLE
The relationship between codon boundaries and multiple reading-frame preferences: coding organization of bacterial insertion sequences
Molecular Biology, University of Southern California, Los Angeles 90089.
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