Relative fitness of genotypes in a population of Rattus norvegicus polymorphic for warfarin resistance

Abstract

Resistance to warfarin and an increased vitamin K requirement appear to be pleiotropic effects of the same allele (Rw²). In a natural population containing resistant individuals where the use of warfarin is discouraged the change in the frequency of resistance should reflect the relative fitnesses of the three possible genotypes. A large polymorphic population of rats was extensively poisoned with warfarin and the level of resistance monitored regularly for a period of 18 months after withdrawal of the poison. During this period the proportion of resistant animals in live-capture samples decreased significantly from approximately 80 per cent to 33 per cent. This decline is consistent with a hypothesis of reduced fitness of both Rw²Rw² and Rw¹Rw² genotypes relative to Rw¹Rw¹ under natural conditions. The relative fitnesses of these genotypes were calculated using an optimisation method based on least squares analysis. These estimates were: Rw²Rw² (046), Rw¹Rw² (077) and Rw¹Rw¹ (100). Homozygous resistant individuals were found in some of the samples, confirming that the Rw² allele does not act as a recessive lethal, although it must be extremely disadvantageous. Some heterogeneity was observed in the proportion of resistant animals in samples taken from different areas of the farm building complex. This could reflect stochastic processes influencing the Rw² allele frequency in small peripheral populations.