A MIXED MODEL OF MUTATION FOR ELECTROPHORETIC IDENTITY OF PROTEINS WITHIN AND BETWEEN POPULATIONS

Wen-Hsiung Li ¹

¹ Center for Demographic and Population Genetics, University of Texas Health Science Center at Houston, Houston, Texas 77030

A model which is a mixture of the model of infinite alleles and the Ohta-Kimura model of stepwise mutation has been proposed for the study of eletcrophoretic variants in natural populations. Mutations which alter the mobility of a protein are divided into two classes: stepwise mutations and nonstepwise mutations. It is assumed that stepwise mutations follow the Ohta-Kimura model while nonstepwise mutations follow the infinite allele model. It is then shown that even if the proportion of nonstepwise mutations is only 5%, with the other 95% stepwise mutations, the effective number of alleles given by the present model is considerably larger than that given by the Ohta-Kimura model of stepwise mutation. The result has also been applied to study Nei's genetic distance.