利用 PacBio 长序列测序同时对人类血小板抗原系统和人类白细胞抗原 I 类位点进行基因分型的新方法。

IF 1.8 4区 医学 Q3 HEMATOLOGY
Vox Sanguinis Pub Date : 2024-10-07 DOI:10.1111/vox.13747
Peizhe Zhao, Qilu Lyu, Yi Xu, Yajun Liang, Yunxiang Wu, Qing Li, Hua Wang, Yao Yuan, Runjun He, Weiyi Fu, Demei Zhang, Yujie Kong
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引用次数: 0

摘要

背景和目的:准确的人类白细胞抗原(HLA)和人类血小板抗原(HPA)分型对于建立血小板捐献者资料库以解决多次输注血小板患者的难治性问题至关重要。目前的方法,如桑格测序法和新一代测序法,在进行单倍分型时遇到了困难。因此,本研究旨在建立一种基于长读测序的 HLA 和 HPA 分型方法:研究设计与方法:利用 PacBio 平台上的长读测序技术,对来自中国太原血液中心的 268 名血小板捐献者的 HPA 和 HLA I 类基因型进行鉴定。计算了 HPA 系统和 HLA I 类基因的等位基因频率,并分析了 HPA 系统基因内的遗传变异:在35个HPA系统(HPA-1至HPA-6w、HPA-15和HPA-21w)中的8个系统中发现了多态性,"b "等位基因的频率分别为0.0187、0.0709、0.4086、0.0075、0.0149、0.0317、0.4310和0.0019。在 HLA-A、HLA-B 和 HLA-C 位点上频率最高的等位基因分别是 HLA-A02:01、B51:01、B46:01 和 C06:02。此外,还发现了HPA系统的几种遗传模式,包括c.166-1029C>T变体,该变体仅在携带HPA-1b等位基因的样本中发现:本研究开发了一种靶向长读程测序方法,该方法具有高通量和同步性的特点,能够解决等位基因不明确的问题,从而在建立血小板捐献者库时进行有效的 HLA I 类基因分型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel approach to simultaneous genotyping of human platelet antigen systems and human leucocyte antigen class I loci using PacBio long-read sequencing.

Background and objectives: Accurate human leucocyte antigen (HLA) and human platelet antigen (HPA) typing is essential for establishing a blood platelet donor bank to deal with refractoriness in patients undergoing multiple platelet transfusions. Current methods, such as Sanger and next-generation sequencing, encounter difficulties in haplotyping. Herein, the aim of this study was to establish a method for HLA and HPA typing based on the long read sequencing.

Study design and methods: The HPA and HLA class I genotypes of 268 platelet donors from the Taiyuan Blood Center, China were identified using long-read sequencing on the PacBio platform. Allele frequencies for HPA systems and HLA class I genes were calculated, and genetic variability within HPA system genes was analysed.

Results: Polymorphisms were identified in 8 of the 35 HPA systems (HPA-1 to HPA-6w, HPA-15 and HPA-21w), with the frequencies of the 'b' allele at 0.0187, 0.0709, 0.4086, 0.0075, 0.0149, 0.0317, 0.4310 and 0.0019, respectively. The alleles with the highest frequencies at the HLA-A, HLA-B and HLA-C loci are HLA-A02:01, B51:01, B46:01 and C06:02, respectively. Additionally, several genetic patterns in HPA systems were identified, including the c.166-1029C>T variant, which was found exclusively in samples carrying the HPA-1b allele.

Conclusion: This study developed a targeted long-read sequencing method characterized by high throughput and simultaneity, capable of resolving allele ambiguities for effective HLA class I genotyping in establishing a platelet donor bank.

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来源期刊
Vox Sanguinis
Vox Sanguinis 医学-血液学
CiteScore
4.40
自引率
11.10%
发文量
156
审稿时长
6-12 weeks
期刊介绍: Vox Sanguinis reports on important, novel developments in transfusion medicine. Original papers, reviews and international fora are published on all aspects of blood transfusion and tissue transplantation, comprising five main sections: 1) Transfusion - Transmitted Disease and its Prevention: Identification and epidemiology of infectious agents transmissible by blood; Bacterial contamination of blood components; Donor recruitment and selection methods; Pathogen inactivation. 2) Blood Component Collection and Production: Blood collection methods and devices (including apheresis); Plasma fractionation techniques and plasma derivatives; Preparation of labile blood components; Inventory management; Hematopoietic progenitor cell collection and storage; Collection and storage of tissues; Quality management and good manufacturing practice; Automation and information technology. 3) Transfusion Medicine and New Therapies: Transfusion thresholds and audits; Haemovigilance; Clinical trials regarding appropriate haemotherapy; Non-infectious adverse affects of transfusion; Therapeutic apheresis; Support of transplant patients; Gene therapy and immunotherapy. 4) Immunohaematology and Immunogenetics: Autoimmunity in haematology; Alloimmunity of blood; Pre-transfusion testing; Immunodiagnostics; Immunobiology; Complement in immunohaematology; Blood typing reagents; Genetic markers of blood cells and serum proteins: polymorphisms and function; Genetic markers and disease; Parentage testing and forensic immunohaematology. 5) Cellular Therapy: Cell-based therapies; Stem cell sources; Stem cell processing and storage; Stem cell products; Stem cell plasticity; Regenerative medicine with cells; Cellular immunotherapy; Molecular therapy; Gene therapy.
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