Department of Clinical Immunology, PathWest, Royal Perth Hospital, Perth, WA, Australia.
Int J Immunogenet. 2013 Feb;40(1):72-6. doi: 10.1111/iji.12024.
Human leucocyte antigen (HLA) genes play an important role in the success of organ transplantation and are associated with autoimmune and infectious diseases. Current DNA-based genotyping methods, including Sanger sequence-based typing (SSBT), have identified a high degree of polymorphism. This level of polymorphism makes high-resolution HLA genotyping challenging, resulting in ambiguous typing results due to an inability to resolve phase and/or defining polymorphisms lying outside the region amplified. Next-generation sequencing (NGS) may resolve the issue through the combination of clonal amplification, which provides phase information, and the ability to sequence larger regions of genes, including introns, without the additional effort or cost associated with current methods. The NGS HLA sequencing project of the 16IHIW aimed to discuss the different approaches to (i) template preparation including short- and long-range PCR amplicons, exome capture and whole genome; (ii) sequencing platforms, including GS 454 FLX, Ion Torrent PGM, Illumina MiSeq/HiSeq and Pacific Biosciences SMRT; (iii) data analysis, specifically allele-calling software. The pilot studies presented at the workshop demonstrated that although individual sequencers have very different performance characteristics, all produced sequence data suitable for the resolution of HLA genotyping ambiguities. The developments presented at this workshop clearly highlight the potential benefits of NGS in the HLA laboratory.
人类白细胞抗原 (HLA) 基因在器官移植的成功中起着重要作用,并且与自身免疫和传染病有关。当前的基于 DNA 的基因分型方法,包括 Sanger 测序(SSBT),已经确定了高度的多态性。这种多态性程度使得 HLA 高分辨率基因分型具有挑战性,导致由于无法解决相位和/或定义位于扩增区域之外的多态性而导致分型结果不明确。下一代测序(NGS)可以通过组合克隆扩增来解决这个问题,克隆扩增提供相位信息,并且能够对包括内含子在内的更大基因区域进行测序,而无需与当前方法相关的额外努力或成本。16IHIW 的 NGS HLA 测序项目旨在讨论不同的方法来:(i) 模板制备,包括短程和长程 PCR 扩增子、外显子捕获和全基因组;(ii) 测序平台,包括 GS 454 FLX、Ion Torrent PGM、Illumina MiSeq/HiSeq 和 Pacific Biosciences SMRT;(iii) 数据分析,特别是等位基因调用软件。研讨会介绍的初步研究表明,尽管各个测序器具有非常不同的性能特征,但所有测序器都产生了适合解决 HLA 基因分型歧义的序列数据。本研讨会介绍的进展清楚地强调了 NGS 在 HLA 实验室中的潜在优势。