Revolutionising High Resolution HLA Genotyping for Transplant Assessment: Validation, Implementation and Challenges of Oxford Nanopore Technologies' Q20+ Sequencing

IF 5.9 4区 医学 Q2 CELL BIOLOGY
HLA Pub Date : 2024-10-22 DOI:10.1111/tan.15725
Naser El-Lagta, Linh Truong, Felipe Ayora, Fredrick Mobegi, Samuel Bruce, Patricia Martinez, Lloyd D'Orsogna, Dianne De Santis
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Abstract

The advent of third-generation sequencing (TGS) represents a significant shift in the field of genetic sequencing, enabling single-molecule sequencing to overcome limitations of short-read NGS platforms. Several studies have assessed the utilisation of TGS in HLA genotyping, though many of these studies have described the high error rate as an obstacle to achieving a robust and highly accurate HLA typing assay. In 2021, Oxford Nanopore Technologies (ONT) released the high-accuracy sequencing Kit 14 and the MinION flow cell model R10.4.1, which were reported to achieve sequencing accuracies up to 99%. The aim of this study was to validate this novel high-accuracy sequencing kit for HLA genotyping coupled with a full-gene HLA PCR assay. Comparison with historical data obtained using legacy flow cell models such as R9.4, R10.3 and R10.4 was also done to assess progressive improvement in sequencing performance with each sequential release. The workflow was validated based on data throughput, sequence quality and accuracy, and HLA genotyping resolution. An initial validation was performed using an internal reference panel of 42 samples representing common HLA allele groups, followed by an analysis of data obtained from 111 sequencing batch runs since the implementation, to assess assay performance and define quality control metrics to assess inter-run variability and monitor quality. Furthermore, challenges arising from MinION flow cell stability and use, and assessment of barcode contamination are discussed. The findings of this study highlight advantages of ONT sequencing kit 14/R10.4.1 for HLA genotyping and the implementation considerations for the routine diagnostic HLA laboratory.

Abstract Image

彻底改变用于移植评估的高分辨率 HLA 基因分型:牛津纳米孔技术公司 Q20+ 测序的验证、实施和挑战。
第三代测序技术(TGS)的出现代表了基因测序领域的重大转变,它使单分子测序克服了短读程 NGS 平台的局限性。有几项研究对 TGS 在 HLA 基因分型中的应用进行了评估,但其中许多研究都将高错误率描述为实现稳健、高精度 HLA 分型测定的障碍。2021 年,牛津纳米孔技术公司(ONT)发布了高精度测序试剂盒 14 和 MinION 流动池 R10.4.1,据报道测序准确率高达 99%。本研究的目的是验证这种新型高精度测序试剂盒与全基因 HLA PCR 检测相结合进行 HLA 基因分型的效果。此外,还将其与使用 R9.4、R10.3 和 R10.4 等传统流式细胞模型获得的历史数据进行了比较,以评估每一个连续版本在测序性能方面的逐步改进。根据数据吞吐量、序列质量和准确性以及 HLA 基因分型分辨率对工作流程进行了验证。使用由 42 个代表常见 HLA 等位基因群的样本组成的内部参考面板进行了初步验证,随后对实施以来 111 次测序批次运行获得的数据进行了分析,以评估测定性能并确定质量控制指标,从而评估运行间变异性并监控质量。此外,还讨论了 MinION 流动池的稳定性和使用以及条形码污染评估所带来的挑战。这项研究的结果突出了 ONT 测序试剂盒 14/R10.4.1 用于 HLA 基因分型的优势,以及常规诊断 HLA 实验室的实施注意事项。
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来源期刊
HLA
HLA Immunology and Microbiology-Immunology
CiteScore
3.00
自引率
28.80%
发文量
368
期刊介绍: HLA, the journal, publishes articles on various aspects of immunogenetics. These include the immunogenetics of cell surface antigens, the ontogeny and phylogeny of the immune system, the immunogenetics of cell interactions, the functional aspects of cell surface molecules and their natural ligands, and the role of tissue antigens in immune reactions. Additionally, the journal covers experimental and clinical transplantation, the relationships between normal tissue antigens and tumor-associated antigens, the genetic control of immune response and disease susceptibility, and the biochemistry and molecular biology of alloantigens and leukocyte differentiation. Manuscripts on molecules expressed on lymphoid cells, myeloid cells, platelets, and non-lineage-restricted antigens are welcomed. Lastly, the journal focuses on the immunogenetics of histocompatibility antigens in both humans and experimental animals, including their tissue distribution, regulation, and expression in normal and malignant cells, as well as the use of antigens as markers for disease.
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