Wisconsin National Primate Research Center, University of Wisconsin-Madison, Madison, Wisconsin, USA.
Hum Immunol. 2010 Oct;71(10):1011-7. doi: 10.1016/j.humimm.2010.07.012. Epub 2010 Jul 30.
Human leukocyte antigen (HLA) genotype influences the immune response to pathogens and transplanted tissues; accurate HLA genotyping is critical for clinical and research applications. Sequence-based HLA typing is limited by the cost of Sanger sequencing genomic DNA (gDNA) and resolving cis/trans ambiguities, hindering both studies correlating high-resolution genotype with clinical outcomes, and population-specific allele frequency surveys. We present an assay for sequence-based HLA genotyping by titanium read length clonal Roche/454 pyrosequencing of a single, universally diagnostic polymerase chain reaction (PCR) amplicon from HLA class I cDNA that captures most of exons 2, 3, and 4 used for traditional sequence-based typing. The amplicon is predicted to unambiguously resolve 85% of known alleles. A panel of 48 previously HLA-typed samples was assayed with this method, demonstrating 100% non-null allele typing concordance. We show that this technique can multiplex at least 768 patients per sequencing run with multiplex identifier sequence bar-coding. Unprecedented typing throughput results from a novel single cDNA-PCR amplicon strategy requiring only 1 PCR amplification per sample. This method dramatically reduces cost for genotyping of large cohorts.
人类白细胞抗原(HLA)基因型影响对病原体和移植组织的免疫反应;准确的 HLA 基因分型对于临床和研究应用至关重要。基于序列的 HLA 分型受到桑格测序基因组 DNA(gDNA)成本和解决顺式/反式歧义的限制,这既妨碍了将高分辨率基因型与临床结果相关联的研究,也妨碍了特定于人群的等位基因频率调查。我们提出了一种通过钛读长克隆罗氏/454 焦磷酸测序对单个通用诊断聚合酶链反应(PCR)扩增子进行基于序列的 HLA 基因分型的测定方法,该扩增子从 HLA 类 I cDNA 中捕获了大多数用于传统基于序列的分型的外显子 2、3 和 4。该扩增子预计能明确区分 85%的已知等位基因。使用该方法对 48 个先前 HLA 分型的样本进行了检测,显示 100%的非空等位基因分型一致性。我们表明,该技术可以在每个测序运行中至少对 768 个患者进行多重检测,采用多重标识符序列条码编码。由于采用了一种新颖的单 cDNA-PCR 扩增子策略,每个样本只需进行 1 次 PCR 扩增,因此获得了前所未有的分型通量。这种方法大大降低了对大样本量进行基因分型的成本。
