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High-resolution HLA allele and haplotype frequencies in several unrelated populations determined by next generation sequencing: 17th International HLA and Immunogenetics Workshop joint report
- Creary, Lisa E;
- Sacchi, Nicoletta;
- Mazzocco, Michela;
- Morris, Gerald P;
- Montero-Martin, Gonzalo;
- Chong, Winnie;
- Brown, Colin J;
- Dinou, Amalia;
- Stavropoulos-Giokas, Catherine;
- Gorodezky, Clara;
- Narayan, Saranya;
- Periathiruvadi, Srinivasan;
- Thomas, Rasmi;
- De Santis, Dianne;
- Pepperall, Jennifer;
- ElGhazali, Gehad E;
- Al Yafei, Zain;
- Askar, Medhat;
- Tyagi, Shweta;
- Kanga, Uma;
- Marino, Susana R;
- Planelles, Dolores;
- Chang, Chia-Jung;
- Fernández-Viña, Marcelo A
- et al.
Published Web Location
https://doi.org/10.1016/j.humimm.2021.04.007Abstract
The primary goal of the unrelated population HLA diversity (UPHD) component of the 17th International HLA and Immunogenetics Workshop was to characterize HLA alleles at maximum allelic-resolution in worldwide populations and re-evaluate patterns of HLA diversity across populations. The UPHD project included HLA genotype and sequence data, generated by various next-generation sequencing methods, from 4,240 individuals collated from 12 different countries. Population data included well-defined large datasets from the USA and smaller samples from Europe, Australia, and Western Asia. Allele and haplotype frequencies varied across populations from distant geographical regions. HLA genetic diversity estimated at 2- and 4-field allelic resolution revealed that diversity at the majority of loci, particularly for European-descent populations, was lower at the 2-field resolution. Several common alleles with identical protein sequences differing only by intronic substitutions were found in distinct haplotypes, revealing a more detailed characterization of linkage between variants within the HLA region. The examination of coding and non-coding nucleotide variation revealed many examples in which almost complete biunivocal relations between common alleles at different loci were observed resulting in higher linkage disequilibrium. Our reference data of HLA profiles characterized at maximum resolution from many populations is useful for anthropological studies, unrelated donor searches, transplantation, and disease association studies.
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