BMC Genetics (Apr 2007)

Genetic fixity in the human major histocompatibility complex and block size diversity in the class I region including <it>HLA-E</it>

  • Husain Zaheed,
  • Fici Dolores A,
  • Clavijo Olga P,
  • Romero Tatiana,
  • Fox Edward A,
  • Duke-Cohan Jonathan S,
  • Larsen Charles E,
  • Romero Viviana,
  • Almeciga Ingrid,
  • Alford Dennis R,
  • Awdeh Zuheir L,
  • Zuñiga Joaquin,
  • El-Dahdah Lama,
  • Alper Chester A,
  • Yunis Edmond J

DOI
https://doi.org/10.1186/1471-2156-8-14
Journal volume & issue
Vol. 8, no. 1
p. 14

Abstract

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Abstract Background The definition of human MHC class I haplotypes through association of HLA-A, HLA-Cw and HLA-B has been used to analyze ethnicity, population migrations and disease association. Results Here, we present HLA-E allele haplotype association and population linkage disequilibrium (LD) analysis within the ~1.3 Mb bounded by HLA-B/Cw and HLA-A to increase the resolution of identified class I haplotypes. Through local breakdown of LD, we inferred ancestral recombination points both upstream and downstream of HLA-E contributing to alternative block structures within previously identified haplotypes. Through single nucleotide polymorphism (SNP) analysis of the MHC region, we also confirmed the essential genetic fixity, previously inferred by MHC allele analysis, of three conserved extended haplotypes (CEHs), and we demonstrated that commercially-available SNP analysis can be used in the MHC to help define CEHs and CEH fragments. Conclusion We conclude that to generate high-resolution maps for relating MHC haplotypes to disease susceptibility, both SNP and MHC allele analysis must be conducted as complementary techniques.