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  • 1
    Antoniou, A. N., Powis, S. J. and Elliott, T., Assembly and export of MHC class I peptide ligands. Curr. Opin. Immunol. 2003. 15: 7581.
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    Kobel, H. R. and Du Pasquier, L., Genetics of polyploid Xenopus. Trends Genet. 1986. 12: 310315.
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    Flajnik, M. F. and Kasahara, M., Comparative genomics of the MHC: glimpses into the evolution of the adaptive immune system. Immunity 2001. 15: 351362.
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    Flajnik, M. F., Ohta, Y., Greenberg, A. S., Salter-Cid, L., Carrizosa, A., Du Pasquier, L. and Kasahara, M., Two ancient allelic lineages at the single classical class I locus in theXenopus MHC. J. Immunol. 1999. 163: 38263833.
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    Namikawa, C., Salter-Cid, L., Flajnik, M. F., Kato, Y., Nonaka, M. and Sasaki, M., Isolation of Xenopus LMP-7 homologues. Striking allelic diversity and linkage to MHC. J. Immunol. 1995. 155: 19641971.
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    Nonaka, M., Yamada-Namikawa, C., Flajnik, M. F. and Du Pasquier, L., Trans-species polymorphism of the major histocompatibility complex-encoded proteasome subunit LMP7 in an amphibian genus, Xenopus. Immunogenetics 2000. 51: 186192.
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    Ohta, Y., Powis, S. J., Coadwell, W. J., Haliniewski, D. E., Liu, Y., Li, H. and Flajnik, M. F., Identification and genetic mapping of Xenopus TAP2 genes. Immunogenetics 1999. 49: 171182.
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    Powis, S. J., Deverson, E. V., Coadwell, W. J., Ciruela, A., Huskisson, N. S., Smith, H., Butcher, G. W. and Howard, J. C., Effect of polymorphism of an MHC-linked transporter on the peptides assembled in a class I molecule. Nature 1992. 357: 211215.
  • 9
    Joly, E. and Butcher G. W., Why are there two rat TAPs? Immunol. Today 1998. 19: 580585.
  • 10
    Kaufman, J., Co-evolving genes in MHC haplotypes: the "rule" for nonmammalian vertebrates? Immunogenetics 1999. 50: 228236.
  • 11
    Momburg, F., Roelse, J., Howard, J. C., Butcher, G. W., Hämmerling, G. J. and Neefjes, J. J., Selectivity of MHC-encoded peptide transporters from human, mouse and rat. Nature 1994. 367: 648651.
  • 12
    Powis, S. J., Young, L. L., Joly, E., Barker, P. J., Richardson, L., Brandt, R. P., Melief, C. J., Howard, J. C. and Butcher, G. W., The rat cim effect: TAP allele-dependent changes in a class I MHC anchor motif and evidence against C-terminal trimming of peptides in the ER. Immunity 1996. 4: 159165.
  • 13
    Joly, E., Le Rolle, A. F., González, A. L., Mehling, B., Stevens, J., Coadwell, W. J., Hünig, T., Howerd, J. C. and Butcher G. W., Co-evolution of rat TAP transporters and MHC class I RT1-A molecules. Curr. Biol. 1998. 8: 169172.
  • 14
    Kaufman, J., Milne, S., Gobel, T. W., Walker, B. A., Jacob, J. P., Auffray, C., Zoorob, R. and Beck, S., The chicken B locus is a minimal essential majorhistocompatibility complex. Nature 1999. 401: 923925.
  • 15
    Lobigs, M., Mullbacher, A., Blanden, R. V., Hämmerling, G. J. and Momburg, F., Antigen presentation in Syrian hamster cells: substrate selectivity of TAP controlled by polymorphic residues in TAP1 and differential requirements for loading of H2 class I molecules. Immunogenetics 1999. 49: 931941.
  • 16
    Ohta, Y., Haliniewski, D. E., Hansen, J. D. and Flajnik, M. F., Isolation of transporter associated with antigen processing genes, TAP1 and TAP2, from the horned shark Heterodontus francisci. Immunogenetics 1999. 49: 981986.
  • 17
    Michalová, V., Murray, B. W., Sültmann, H. and Klein, J., A contigmap of the MHC class I genomic region in the zebrafish reveals ancient synteny. J. Immunol .2000. 164: 52965305.
  • 18
    Matsuo, M. Y., Asakawa, S., Shimizu, N., Kimura, H. and Nonaka, M., Nucleotide sequence of the MHC class I genomic region of a teleost, the medaka (Oryzias latipes). Immunogenetics 2002. 53:930940.
  • 19
    Clark, M. S., Shaw, L., Kelly, A., Snell, P. and Elgar, G., Characterization of the MHC class I region of the Japanese pufferfish (Fugu rubripes). Immunogenetics 2001. 52: 174185.
  • 20
    Hamada, K., Gleason, S. L., Levi, B. Z., Hirschfeld, S., Appella, E. and Ozato, K., H-2RIIBP, a member of the nuclear hormone receptor superfamily that binds to both the regulatory element of major histocompatibility class I genes and the estrogen response element. Proc. Natl. Acad. Sci. USA 1989. 86: 82898293.
  • 21
    Nonaka, M., Namikawa, C., Kato, Y., Sasaki, M., Salter-Cid, L. and Flajnik, M. F., Major histocompatibility complex gene mapping in the amphibian Xenopus implies a primordial organization. Proc. Natl. Acad. Sci. USA 1997. 94: 57895791.
  • 22
    Liu, Y., Kasahara, M., Rumfelt, L. L. and Flajnik, M. F., Xenopus class II A genes: studies of genetics, polymorphism, and expression. Dev. Comp. Immunol .2002. 26: 735750.
  • 23
    Sato, K., Flajnik, M. F., Du Pasquier, L., Katagiri, M. and Kasahara, M., Evolution of the MHC: isolation of class II beta-chain cDNA clones from the amphibian Xenopus laevis. J. Immunol. 1993. 150: 28312843.
  • 24
    Nonaka, M., Namikawa-Yamada, C., Sasaki, M., Salter-Cid, L. and Flajnik, M. F., Evolution of proteasome subunits δ and LMP2: complementary DNA cloning and linkage analysis with MHC in lower vertebrates. J. Immunol. 1997. 159: 734740.
  • 25
    Armandola, E. A., Momburg, F., Nijenhuis, M., Bulbuc, N., Fruh, K. and Hämmerling, G. J., A point mutation in the human transporter associated with antigen processing (TAP2) alters the peptide transport specificity. Eur. J. Immunol. 1996. 26: 17481755.
  • 26
    Momburg, F., Armandola, E. A., Post, M. and Hämmerling, G. J., Residues in TAP2 peptide transporters controlling substrate specificity. J. Immunol. 1996. 156: 17561763.
  • 27
    Nijenhuis, M. and Hämmerling, G. J., Multiple regions of the transporter associated with antigen processing (TAP) contribute to its peptide-binding site. J. Immunol. 1996. 157: 54675477.
  • 28
    Vos, J. C., Spee, P., Momburg, F. and Neefjes, J. J., Membrane topology and dimerization of the two subunits of the transporter associated with antigen processing reveal a three-domain structure . J. Immunol. 1999. 163: 66796685.
  • 29
    Vos, J. C., Reits, E. A., Wojcik-Jacobs, E. and Neefjes, J. J., Head-head/tail-tail relative orientation of the pore-forming domains of the heterodimeric ABC transporter TAP. Curr. Biol. 2000. 10: 17.
  • 30
    Velarde, G., Ford, R. C., Rosenberg, M. F. and Powis, S. J., Three-dimensional structure of transporter associated with antigen processing (TAP) obtained by single particle image analysis . J. Biol. Chem .2001. 276: 4605446063.
  • 31
    Campbell, J. D., Biggin, P. C., Baaden, M. and Sansom, M. S., Extending the structure of an ABC transporter to atomic resolution: modeling and simulation studies of MsbA. Biochemistry 2003. 42: 36663673.
  • 32
    Locher, K. P., Lee, A. T. and Rees, D. C., The E. coli BtuCD structure: a framework for ABC transporter architecture and mechanism. Science 2002. 296: 10911098.
  • 33
    Sambrook, J. G., Russell, R., Umrania, Y., Edwards, Y. J., Campbell, R. D., Elgar, G. and Clark, M. S., Fugu orthologues of human major histocompatibility complex genes: a genome survey. Immunogenetics 2002. 54: 367380.
  • 34
    Speir, J. A., Stevens, J., Joly, E., Butcher, G. W. and Wilson, I. A., Two different, highly exposed, bulged structures for an unusually long peptide bound to rat MHC class I RT1-Aa. Immunity 2001. 14: 8192.
  • 35
    Groettrup, M., Standera, S., Stohwasser, R. and Kloetzel, P. M., The subunits MECL-1 and LMP2 are mutually required for incorporation into the 20S proteasome. Proc. Natl. Acad. Sci. USA 1997. 94: 89708975.
  • 36
    Sadasivan, B., Lehner, P. J., Ortmann, B., Spies, T. and Cresswell, P., Roles for calreticulin and a novel glycoprotein, tapasin, in the interaction of MHC class I molecules with TAP. Immunity 1996. 5: 103114.
  • 37
    Bartl, S., Baish, M. A., Flajnik, M. F. and Ohta, Y., Identification of class I genes in cartilaginous fish, the most ancient group of vertebrates displaying an adaptive immune response . J. Immunol .1997. 159: 60976104.
  • 38
    Flajnik, M. F., Canel, C., Kramer, J. and Kasahara, M., Evolution of the major histocompatibility complex: molecular cloning of major histocompatibility complex class I from the amphibian Xenopus. Proc. Natl. Acad. Sci. USA 1991.88: 537541.