Properties of a general model of DNA evolution under no-strand-bias conditions.
Lobry JR
Laboratoire de Biometrie, CNRS URA 243, Universite Claude Bernard, Villeurbanne,
France.
Journal of Molecular Evolution,
40(3):326-330 (March 1995); erratum 41(5):680 (Nov 1995)
Abstract
Under the hypothesis of no-strand-bias conditions, the Watson and Crick base-pairing rule
decreases the complexity of models of DNA evolution by reducing to six the maximum
number of substitution rates. It was shown that intrastrand equimolarity between A and T
(A*=T*) and between G and C (G*=C*) [corrected] is a general asymptotic property of this
class of models. This statistical prediction was observed on 60 long genomic fragments (> 50
kbp) from various kingdoms, even when the effect of the two opposite orientations for coding
sequences is removed. The practical consequence of the model for estimating the expected
number of substitutions per site between two homologous DNA sequences is discussed.
