On the Overdispersed Molecular Clock

On the Overdispersed Molecular Clock

Naoyuki Takahata ¹

¹ National Institute of Genetics, Mishima, Shizuoka-ken 411, Japan

Rates of molecular evolution at some loci are more irregular thandescribed by simple Poisson processes. Three situations underwhich molecular evolution would not follow simple Poisson processesare reevaluated from the viewpoint of the neutrality hypothesis:(i) concomitant or multiple substitutions in a gene, (ii) fluctuatingsubstitution rates in time caused by coupled effects of deleteriousmutations and bottlenecks, and (iii) changes in the degree ofselective constraints against a gene (neutral space) causedby successive substitutions. The common underlying assumptionthat these causes are lineage nonspecific excludes the casewhere mutation rates themselves change systematically amonglineages or taxonomic groups, and severely limits the extentof variation in the number of substitutions among lineages.Even under this stringent condition, however, the third hypothesis,the fluctuating neutral space model, can generate fairly largevariation. This is described by a time-dependent renewal process, whichdoes not exhibit any episodic nature of molecular evolution.It is argued that the observed elevated variances in the numberof nucleotide or amino acid substitutions do not immediatelycall for positive Darwinian selection in molecular evolution.

Submitted on December 8, 1986
Accepted on February 12, 1987

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On the Overdispersed Molecular Clock

Naoyuki Takahata 1

Naoyuki Takahata ¹