PLoS ONE (Jan 2015)

HLA Typing for the Next Generation.

  • Neema P Mayor,
  • James Robinson,
  • Alasdair J M McWhinnie,
  • Swati Ranade,
  • Kevin Eng,
  • William Midwinter,
  • Will P Bultitude,
  • Chen-Shan Chin,
  • Brett Bowman,
  • Patrick Marks,
  • Henny Braund,
  • J Alejandro Madrigal,
  • Katy Latham,
  • Steven G E Marsh

DOI
https://doi.org/10.1371/journal.pone.0127153
Journal volume & issue
Vol. 10, no. 5
p. e0127153

Abstract

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Allele-level resolution data at primary HLA typing is the ideal for most histocompatibility testing laboratories. Many high-throughput molecular HLA typing approaches are unable to determine the phase of observed DNA sequence polymorphisms, leading to ambiguous results. The use of higher resolution methods is often restricted due to cost and time limitations. Here we report on the feasibility of using Pacific Biosciences' Single Molecule Real-Time (SMRT) DNA sequencing technology for high-resolution and high-throughput HLA typing. Seven DNA samples were typed for HLA-A, -B and -C. The results showed that SMRT DNA sequencing technology was able to generate sequences that spanned entire HLA Class I genes that allowed for accurate allele calling. Eight novel genomic HLA class I sequences were identified, four were novel alleles, three were confirmed as genomic sequence extensions and one corrected an existing genomic reference sequence. This method has the potential to revolutionize the field of HLA typing. The clinical impact of achieving this level of resolution HLA typing data is likely to considerable, particularly in applications such as organ and blood stem cell transplantation where matching donors and recipients for their HLA is of utmost importance.