Travis T. Kibota scite author profile

Mildly deleterious mutation has been invoked as a leading explanation for a diverse array of observations in evolutionary genetics and molecular evolution and is thought to be a significant risk of extinction for small populations. However, much of the empirical evidence for the deleterious‐mutation process derives from studies of Drosophila melanogaster, some of which have been called into question. We review a broad array of data that collectively support the hypothesis that deleterious mutations arise in flies at rate of about one per individual per generation, with the average mutation decreasing fitness by about only 2% in the heterozygous state. Empirical evidence from microbes, plants, and several other animal species provide further support for the idea that most mutations have only mildly deleterious effects on fitness, and several other species appear to have genomic mutation rates that are of the order of magnitude observed in Drosophila. However, there is mounting evidence that some organisms have genomic deleterious mutation rates that are substantially lower than one per individual per generation. These lower rates may be at least partially reconciled with the Drosophila data by taking into consideration the number of germline cell divisions per generation. To fully resolve the existing controversy over the properties of spontaneous mutations, a number of issues need to be clarified. These include the form of the distribution of mutational effects and the extent to which this is modified by the environmental and genetic background and the contribution of basic biological features such as generation length and genome size to interspecific differences in the genomic mutation rate. Once such information is available, it should be possible to make a refined statement about the long‐term impact of mutation on the genetic integrity of human populations subject to relaxed selection resulting from modern medical procedures.

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Estimate of the genomic mutation rate deleterious to overall fitness in E. coll

Kibota

Lynch

1996

Nature

325

218

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Mutations are a double-edged sword: they are the ultimate source of genetic variation upon which evolution depends, yet most mutations affecting fitness (viability and reproductive success) appear to be harmful. Deleterious mutations of small effect can escape natural selection, and should accumulate in small population. Reduced fitness from deleterious-mutation accumulation may be important in the evolution of sex, mate choice, and diploid life-cycles, and in the extinction of small populations. Few empirical data exist, however. Minimum estimates of the genomic deleterious-mutation rate for viability in Drosophila melanogaster are surprisingly high, leading to the conjecture that the rate for total fitness could exceed 1.0 mutation per individual per generation. Here we use Escherichia coli to provide an estimate of the genomic deleterious-mutation rate for total fitness in a microbe. We estimate that the per-microbe rate of deleterious mutations is in excess of 0.0002.

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Estimate of the genomic mutation rate deleterious to overall fitness in E. coli

Kibota¹

1996

110

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Ecology of Mushroom-feeding Drosophilidae

Courtney¹,

Kibota²,

Singleton³

1990

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Travis T. Kibota

Perspective: Spontaneous Deleterious Mutation

Perspective: Spontaneous Deleterious Mutation

Estimate of the genomic mutation rate deleterious to overall fitness in E. coll

Estimate of the genomic mutation rate deleterious to overall fitness in E. coli

Ecology of Mushroom-feeding Drosophilidae

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