The Role of Population Size, Pleiotropy and Fitness Effects of Mutations in the Evolution of Overlapping Gene Functions

The Role of Population Size, Pleiotropy and Fitness Effects of Mutations in the Evolution of Overlapping Gene Functions

Andreas Wagner^a
^a Department of Biology, University of New Mexico, Albuquerque, New Mexico 87131-1091 and The Santa Fe Institute, Santa Fe, New Mexico 87501

Corresponding author: Andreas Wagner, University of New Mexico, 167A Castetter Hall, Albuquerque, NM 87131-1091., wagnera{at}unm.edu (E-mail)

Communicating editor: A. G. CLARK

Sheltered from deleterious mutations, genes with overlappingor partially redundant functions may be important sources ofnovel gene functions. While most partially redundant genes originatedin gene duplications, it is much less clear why genes with overlappingfunctions have been retained, in some cases for hundreds ofmillions of years. A case in point is the many partially redundantgenes in vertebrates, the result of ancient gene duplicationsin primitive chordates. Their persistence and ubiquity becomesurprising when it is considered that duplicate and originalgenes often diversify very rapidly, especially if the actionof natural selection is involved. Are overlapping gene functionsperhaps maintained because of their protective role againstotherwise deleterious mutations? There are two principal objectionsagainst this hypothesis, which are the main subject of thisarticle. First, because overlapping gene functions are maintainedin populations by a slow process of "second order" selection,population sizes need to be very high for this process to beeffective. It is shown that even in small populations, pleiotropicmutations that affect more than one of a gene's functions simultaneouslycan slow the mutational decay of functional overlap after agene duplication by orders of magnitude. Furthermore, briefand transient increases in population size may be sufficientto maintain functional overlap. The second objection regardsthe fact that most naturally occurring mutations may have muchweaker fitness effects than the rather drastic "knock-out" mutationsthat lead to detection of partially redundant functions. Givenweak fitness effects of most mutations, is selection for thebuffering effect of functional overlap strong enough to compensatefor the diversifying force exerted by mutations? It is shownthat the extent of functional overlap maintained in a populationis not only independent of the mutation rate, but also independentof the average fitness effects of mutation. These results arediscussed with respect to experimental evidence on redundantgenes in organismal development.

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