Sequence Variation and Haplotype Structure at the Human HFE Locus

Sequence Variation and Haplotype Structure at the Human HFE Locus

Christopher Toomajian^a and Martin Kreitman^a,b
^a Committee on Genetics, University of Chicago, Chicago, Illinois 60637
^b Department of Ecology and Evolution, University of Chicago, Chicago, Illinois 60637

Corresponding author: Christopher Toomajian, University of Chicago, 1101 E. 57th St., Chicago, IL 60637., cmtoomaj{at}midway.uchicago.edu (E-mail)

Communicating editor: Y.-X. FU

The HFE locus encodes an HLA class-I-type protein importantin iron regulation and segregates replacement mutations thatgive rise to the most common form of genetic hemochromatosis.The high frequency of one disease-associated mutation, C282Y,and the nature of this disease have led some to suggest a selectiveadvantage for this mutation. To investigate the context in whichthis mutation arose and gain a better understanding of HFE geneticvariation, we surveyed nucleotide variability in 11.2 kb encompassingthe HFE locus and experimentally determined haplotypes. We fullyresequenced 60 chromosomes of African, Asian, or European ancestryas well as one chimpanzee, revealing 41 variable sites and anucleotide diversity of 0.08%. This indicates that linkage tothe HLA region has not substantially increased the level ofHFE variation. Although several haplotypes are shared betweenpopulations, one haplotype predominates in Asia but is nearlyabsent elsewhere, causing higher than average genetic differentiationamong the three major populations. Our samples show evidenceof intragenic recombination, so the scarcity of recombinationevents within the C282Y allele class is consistent with selectionincreasing the frequency of a young allele. Otherwise, the patternof variability in this region does not clearly indicate theaction of positive selection at this or linked loci.

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