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Allelic polymorphism in the ovine DQA1 gene¹

Animal and Food Sciences Division, Lincoln University, Canterbury, New Zealand

² Correspondence: P.O. Box 84 (phone: +64-3-325 2811; fax: +64-3-325 3851; e-mail: hickford{at}lincoln.ac.nz).

Abstract

Variation in the ovine DQA1 gene was investigated by amplification of exon 2 using PCR, followed by single-strand conformational polymorphism (SSCP) analysis, cloning, and DNA sequencing. Fourteen novel SSCP patterns, representing 14 different sequences, were identified. Eight of these 14 sequences were identical to published DQA1 sequences from sheep, whereas the remaining six were novel but similar to the published DQA1 sequences from sheep and cattle. These six new sequences exhibited conserved region and variable region patterns similar to the published sheep DQA1 sequences, but were different than the published DQA2 sequences from sheep. All of these 14 putative sheep DQA1 sequences fulfilled the criteria used by the established bovine leukocyte antigens major histocompatibility complex nomenclature committee for assignment as new alleles. Comparison of the available DQA1 sequences from sheep and cattle revealed several clusters of ovine DQA1 sequences, and some sheep alleles were more similar to cattle alleles than other sheep alleles. The occurrence of trans-species polymorphism suggests the action of balancing selection at the DQA1 locus. Twenty-four percent of the nucleotide positions showed variation within exon 2, and this variation seems to have arisen largely by point mutation and gene conversion. The nonsynonymous and synonymous substitution rates were similar in both the putative antigen-binding site codons and the putative nonantigen-binding site codons. The extensive polymorphism reported in this article is consistent with polymorphism reported at the bovine DQA1 locus.

Key Words: DQA1 • Major Histocompatibility Complex • Polymorphism • Sheep • Single-Strand Conformational Polymorphism

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