Chicken TAP genes differ from their human orthologues in locus organisation, size, sequence features and polymorphism.

We have previously shown that in the chicken major histocompatibility complex, the two transporters associated with antigen processing genes (TAP1 and TAP2) are located head to head between two classical class I genes. Here we show that the region between these two TAP genes has transcription factor-binding sites in common with class I gene promoters. The TAP genes are also up-regulated by interferon-gamma in a similar way to mammalian TAP genes and in a way that suggests they are both transcribed from a bi-directional promoter. The gene structures of TAP1 and TAP2 differ from that of human TAPs in that TAP1 has a truncated exon 1 and TAP2 has fused exons, resulting in a much smaller gene size. The truncation of TAP1 results in the loss of approximately 150 amino acids, which are thought to be involved in endoplasmic reticulum retention, heterodimer formation and tapasin binding, compared to human TAP1. Most of the protein sequence features involved in binding ATP are conserved, with two exceptions: chicken TAP1 has a glycine in the switch region where other TAPs have glutamine or histidine, and both chicken TAP genes have serines in the C motif where mammalian TAP2 has an alanine. Lastly, the chicken TAP genes are highly polymorphic, with at least as many TAP alleles as there are class I alleles, as seen by investigating nine inbred lines of chicken. The close proximity of the TAP genes to the class I genes and the high level of polymorphism may allow co-evolution of the genes, allowing TAP molecules to transport peptides specifically for the class I molecules of that haplotype.