Abstract
AbstractThe well-established genetic equidistance result shows that sister species are approximately equidistant to a simpler outgroup as measured by DNA or protein dissimilarity. The equidistance result is the most direct evidence, and remains the only evidence, for the constant mutation rate interpretation of this result, known as the molecular clock. However, data independent of the equidistance result have steadily accumulated in recent years that often violate a constant mutation rate. Many have automatically inferred non-equidistance whenever a non-constant mutation rate was observed, based on the unproven assumption that the equidistance result is an outcome of constant mutation rate. Here it is shown that the equidistance result remains valid even when different species can be independently shown to have different mutation rates. A random sampling of 50 proteins shows that nearly all proteins display the equidistance result despite the fact that many proteins have non-constant mutation rates. Therefore, the genetic equidistance result does not necessarily mean a constant mutation rate. Observations of different mutation rates do not invalidate the genetic equidistance result. New ideas are needed to explain the genetic equidistance result that must grant different mutation rates to different species and must be independently testable.
Highlights
A remarkable result of molecular evolution is the apparent linear correlation between genetic distance as measured by DNA and protein sequence dissimilarity and time of species divergence as inferred from fossil records
The first alignment indicates a linear correlation between genetic distance and time of divergence, implying indirectly a constant mutation rate among different species
The genetic equidistance result is independent of variation in mutation rates in different species
Summary
A remarkable result of molecular evolution is the apparent linear correlation between genetic distance as measured by DNA and protein sequence dissimilarity and time of species divergence as inferred from fossil records. The first alignment indicates a linear correlation between genetic distance and time of divergence, implying indirectly a constant mutation rate among different species. The data that most directly and obviously support the interpretation of a constant mutation rate is the genetic equidistance result.
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