基于长线程测序的 MNS 血型鉴定大规模分析平台的研究

IF 2.7 2区 医学 Q2 HEMATOLOGY Transfusion Medicine Reviews Pub Date : 2024-10-01 DOI:10.1016/j.tmrv.2024.150836
Hua Xu, Xiaomin Su, Qinqin Zuo, Liangzi Zhang, Xiaoyue Chu
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引用次数: 0

摘要

本研究旨在设计一种利用长读程测序(LRS)确定 MNS 血型的新方法,并确定与该血型系统相关的复杂基因组变异。本研究从随机抽取的中国汉族献血者中采集了 60 份血样。对这 60 名献血者的血样进行了 GYPA 第 2-7 号外显子(11 kb)和 GYPB 第 2-6 号外显子(7 kb)的全长序列扩增。随后,使用 PacBio 平台对这些扩增序列进行了测序。利用 pbmm2 软件将获得的测序数据与人类基因组参考序列(GRCh38)进行比较,从而获得了 GYPA 和 GYPB 的单倍体序列。血清学分型预测是利用国际输血协会(ISBT)数据库进行的,而 SNVs 位点分析则是利用 deepvariant v1.2.0 软件和参考序列比对进行的。共有 60 份样本获得了无歧义的高质量单倍型,可作为中国人群 MNS 分子生物学分型的标准化参考序列。在 60 份血清样本中,LRS 方法通过分析特定的基因变异(GYPA 的 c.59、c.71、c.72 和 GYPB 的 c.143),成功鉴定了 M、N、S 和 s 血型抗原,与传统血清学技术得出的结果一致。先前通过血清学和分子生物学验证的 4 个 Mur 样本得到了成功确认,并获得了完整的单倍体序列。值得注意的是,其中一个穆氏样本显示了一个新的断裂点,即 GYP(B1-136-B ψ 137-212-A213-229-B230-366),从而代表了一个新发现的亚型。单分子测序无需进行 PCR 扩增,可有效覆盖 GC 和高重复区域,提高了低丰度或低频率突变量化的准确性。通过对 GYPA 和 GYPB 的核心区域进行 LRS 分析,一次检测就能准确可靠地鉴定出 MNS 的不同基因型。这种方法为 MNS 血型系统的分类和研究提供了一种全面、快速和精确的新方法。
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The Research of a Large-Scale Analysis Platform for MNS Blood Group Identification Based on Long-Read Sequencing
The objective of this study was to devise a novel approach for determining MNS blood group utilizing long-read sequencing (LRS) and to identify intricate genome variations associated with this blood group system. In this study, a total of 60 blood samples were collected from randomly selected Chinese Han blood donors. The amplification of the full-length sequences of GYPA exon 2-7 (11 kb) and GYPB exon 2-6 (7 kb) was conducted on the blood samples obtained from these 60 donors. Subsequently, the sequencing of these amplified sequences was performed using the PacBio platform. The obtained sequencing data were then compared with the reference sequence of the human genome (GRCh38) utilizing the pbmm2 software, resulting in the acquisition of the haploid sequences of GYPA and GYPB. The serological typing prediction was conducted using the International Society of Blood Transfusion (ISBT) database, while the analysis of SNVs sites was performed using deepvariant v1.2.0 software and reference sequence alignment. A total of 60 samples yielded unambiguous high-quality haplotypes, which can serve as a standardized reference sequence for molecular biology typing of MNSs in the Chinese population. In a total of 60 serological samples, the LRS method successfully identified the M, N, S, and s blood group antigens by analyzing specific genetic variations (c.59, c.71, c.72 for GYPA, and c.143 for GYPB), which aligned with the results obtained through conventional serological techniques. 4 Mur samples that had been previously validated through serology and molecular biology were successfully confirmed, and complete haploid sequences were obtained. Notably, one of the Mur samples exhibited a novel breakpoint, GYP (B1-136-B ψ 137-212-A213-229-B230-366), thereby representing a newly identified subtype. Single molecule sequencing, which eliminates the necessity for PCR amplification, effectively encompasses GC and high repeat regions, enhancing accuracy in quantifying mutations with low abundance or frequency. By employing LRS analysis of the core region of GYPA and GYPB, diverse genotypes of MNS can be precisely and reliably identified in a single assay. This approach presents a comprehensive, expeditious, and precise novel method for the categorization and investigation of MNS blood group system.
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来源期刊
Transfusion Medicine Reviews
Transfusion Medicine Reviews 医学-血液学
CiteScore
11.60
自引率
0.00%
发文量
40
审稿时长
21 days
期刊介绍: Transfusion Medicine Reviews provides an international forum in English for the publication of scholarly work devoted to the various sub-disciplines that comprise Transfusion Medicine including hemostasis and thrombosis and cellular therapies. The scope of the journal encompasses basic science, practical aspects, laboratory developments, clinical indications, and adverse effects.
期刊最新文献
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