Nucleotide polymorphism and natural selection at the pantophysin (Pan I) locus in the Atlantic cod, Gadus morhua (L.)

Abstract

Molecular studies of nucleotide sequence variation have rarely attempted to test hypotheses related to geographically varying patterns of natural selection. The present study tested the role of spatially varying selection in producing significant linkage disequilibrium and large differences in the frequencies of two common alleles at the pantophysin (Pan I) locus among five populations of the Atlantic cod, Gadus morhua. Nucleotide sequences of 124 Pan I alleles showed strong evidence for an unusual mix of balancing and directional selection but no evidence of stable geographically varying selection. The alleles were highly divergent at both the nucleotide level (differing on average by 19 mutations) and at amino acid level (each having experienced three amino acid substitutions since diverging from a common ancestral allele). All six amino acid substitutions occurred in a 56-residue intravesicular loop (IV1 domain) of the vesicle protein and each involved a radical change. An analysis of molecular variation revealed significant heterogeneity in the frequencies of recently derived mutations segregating within both allelic classes, suggesting that two selective sweeps may be presently occurring among populations. The dynamic nature of the Pan I polymorphism in G. morhua and clear departure from equilibrium conditions invalidate a simple model of spatially varying selection.