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The tammar wallaby major histocompatibility complex shows evidence of past genomic instability

Authors
  • Siddle, Hannah V1, 2
  • Deakin, Janine E3
  • Coggill, Penny4
  • Wilming, Laurens G4
  • Harrow, Jennifer4
  • Kaufman, Jim2
  • Beck, Stephan5
  • Belov, Katherine1
  • 1 University of Sydney, Faculty of Veterinary Science, NSW 2006, Australia , (Australia)
  • 2 Department of Pathology, University of Cambridge, Cambridge, CB2 1QP, UK , Cambridge (United Kingdom)
  • 3 Australian National University, ARC Centre of Excellence for Kangaroo Genomics, Research School of Biological Sciences, Canberra, ACT 0200, Australia , Canberra (Australia)
  • 4 Wellcome Trust Genome Campus, Wellcome Trust Sanger Institute, Hinxton Hall, Hinxton, Cambridgeshire, CB10 1SA, UK , Hinxton Hall, Hinxton, Cambridgeshire (United Kingdom)
  • 5 University College London, UCL Cancer Institute, London, WC1E 6BT, UK , London (United Kingdom)
Type
Published Article
Journal
BMC Genomics
Publisher
Springer (Biomed Central Ltd.)
Publication Date
Aug 19, 2011
Volume
12
Issue
1
Identifiers
DOI: 10.1186/1471-2164-12-421
Source
Springer Nature
Keywords
License
Yellow

Abstract

BackgroundThe major histocompatibility complex (MHC) is a group of genes with a variety of roles in the innate and adaptive immune responses. MHC genes form a genetically linked cluster in eutherian mammals, an organization that is thought to confer functional and evolutionary advantages to the immune system. The tammar wallaby (Macropus eugenii), an Australian marsupial, provides a unique model for understanding MHC gene evolution, as many of its antigen presenting genes are not linked to the MHC, but are scattered around the genome.ResultsHere we describe the 'core' tammar wallaby MHC region on chromosome 2q by ordering and sequencing 33 BAC clones, covering over 4.5 MB and containing 129 genes. When compared to the MHC region of the South American opossum, eutherian mammals and non-mammals, the wallaby MHC has a novel gene organization. The wallaby has undergone an expansion of MHC class II genes, which are separated into two clusters by the class III genes. The antigen processing genes have undergone duplication, resulting in two copies of TAP1 and three copies of TAP2. Notably, Kangaroo Endogenous Retroviral Elements are present within the region and may have contributed to the genomic instability.ConclusionsThe wallaby MHC has been extensively remodeled since the American and Australian marsupials last shared a common ancestor. The instability is characterized by the movement of antigen presenting genes away from the core MHC, most likely via the presence and activity of retroviral elements. We propose that the movement of class II genes away from the ancestral class II region has allowed this gene family to expand and diversify in the wallaby. The duplication of TAP genes in the wallaby MHC makes this species a unique model organism for studying the relationship between MHC gene organization and function.

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