Immunogenetics

, Volume 45, Issue 3, pp 171–179

Identification of new Mamu-DRB alleles using DGGE and direct sequencing

Authors

  • L. A. Knapp
    • Wisconsin Regional Primate Research Center, University of Wisconsin 1220 Capitol Court, Madison, WI 53715, USA
  • Luis F. Cadavid
    • Wisconsin Regional Primate Research Center, University of Wisconsin 1220 Capitol Court, Madison, WI 53715, USA
  • Mary E. Eberle
    • Wisconsin Regional Primate Research Center, University of Wisconsin 1220 Capitol Court, Madison, WI 53715, USA
  • Stuart J. Knechtle
    • Department of Surgery, University of Wisconsin, 784 Clinical Science Center Madison, WI 53706, USA
  • Ronald E. Bontrop
    • Biomedical Primate Research Centre, 2280 GH Rijswijk, The Netherlands
  • David I. Watkins
    • Wisconsin Regional Primate Research Center, University of Wisconsin 1220 Capitol Court, Madison, WI 53715, USA
ORIGINAL PAPER

DOI: 10.1007/s002510050186

Cite this article as:
Knapp, L., Cadavid, L., Eberle, M. et al. Immunogenetics (1997) 45: 171. doi:10.1007/s002510050186

Abstract

 Rhesus macaques represent important animal models for biomedical research. The ability to identify macaque major histocompatibility complex (Mhc) alleles is crucial for fully understanding these models of autoimmune and infectious disease. Here we describe a rapid and unambiguous way to distinguish DRB alleles in the rhesus macaque using the polymerase chain reaction, denaturing gradient gel electrophoresis (DGGE), and direct sequencing. The highly variable second exon of Mamu-DRB alleles was amplified using generic DRB primers and alleles were separated by DGGE. DNA was then reamplified from plugs removed from the gel and alleles were determined using fluorescent-based sequencing. Validity of this typing procedure was confirmed by identification of all DRB alleles for three macaques previously characterized by cloning and sequencing techniques. Importantly, our analysis revealed DRB alleles not previously identified in the three reference animals. Using this technique, we identified 40 alleles in fifteen unrelated macaques. On the basis of phylogenetic tree analyses, 14 new DRB alleles were assigned to 10 different Mhc-DRB lineages. Interestingly, two of the new DRB6 lineages had previously been identified in prosimians and pigtailed macaques. Whereas traditional DRB typing methods provide limited information, our new technique provides a simple and relatively rapid way of identifying DRB alleles for tissue typing, determining individual identification and studies of disease association and susceptibility. This new technique should also contribute to ongoing studies of Mhc function and evolution in many different species of nonhuman primates.

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© Springer-Verlag Berlin Heidelberg 1997