Cytonuclear disequilibria in wild populations of rabbit (Oryctolagus cuniculus L.) suggest unequal allele turnover rates at the b locus (IGKC1).

DNA sequence comparisons suggest that evolutionary rates at the rabbit IGKC1 locus can differ among allelic lineages. Here we address the question of whether population turnover rates can vary among IGKC1 alleles. We studied the distribution of sixteen IGKC1 (or b-locus) allotypes in areas comprising the aboriginal species range (Iberian peninsula). Rabbits in this area belong to one of two distantly related mitochondrial lineages (mtDNA types) A and B. In the more recent distribution area of the species, all rabbits belong to the mtDNA type B lineage, and IGKC1 alleles b4 and b5 comprise over 90% of the gene pool. These two alleles are also predominant in areas of mtDNA type B prevalence within the Iberian range. However, in areas of mtDNA type A prevalence, the b4 and b5 allotypes are rare or absent; they apparently have been replaced by serologically related, but distinct, 'endemic' variants. The cytonuclear disequilibria were highly significant, also within the subsample consisting of populations from Spain. These observations suggest that allelic persistence times for the predominant IGKC1 lineages could be shorter than the divergence time of the major mtDNA lineages A and B. In contrast, the relative gene frequencies of the IGKC1 allele b9 were similar among the type A and type B rabbits; it was present in most populations at low frequency. In consequence, persistence times of the b9 allele appear to be longer than the divergence time of lineages A and B. The data reported here are in agreement with the DNA sequence data, providing further proof that the molecular clock can run at different rates among allelic lineages at the rabbit IGKC1 locus.

Characterization and DNA sequence of the b6w2 allotype of the rabbit immunoglobulin kappa 1 light chain (b locus).

The b6w2 allotype of the constant region of the rabbit immunoglobulin kappa 1 (K1) light chain (b locus) was discovered in wild populations from northern Spain. At the serological level, the b6w2 allotype is characterized by the presentation of all b6-specific epitopes, while an allotypic determinant which is shared between the nominal b5 and b6 allotypes is lacking. The DNA fragment encoding the b6w2 allotype was amplified by means of the polymerase chain reaction, and sequenced directly by dideoxy-DNA-sequencing. When compared with the sequence of the nominal b6 allele, the b6w2 sequence differs at eleven nucleotide positions (96.5% similarity). This variation corresponds to amino acid replacements at 1) the three positions C-terminal to the peptidyl junction with the variable region (amino acid positions 109-111); 2) the four positions N-terminal to the interdomain disulfide bond (167-170); and 3) two positions in the vicinity of the interchain disulfide bond (190 and 210). The nature and distribution of the observed nucleotide substitutions strongly suggest a possible role of the extra interdomain disulfide bond in the unusual evolutionary dynamics of the rabbit K1 light chain.