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利用基于单核苷酸多态性的算法,通过基质辅助激光解吸/电离飞行时间质谱法对血型糖蛋白GYP(B-A-B)杂交基因进行基因分型。

Genotyping for Glycophorin GYP(B-A-B) Hybrid Genes Using a Single Nucleotide Polymorphism-Based Algorithm by Matrix-Assisted Laser Desorption/Ionisation, Time-of-Flight Mass Spectrometry.

作者信息

Wei Ling, Lopez Genghis H, Ji Yanli, Condon Jennifer A, Irwin Darryl L, Luo Guangping, Hyland Catherine A, Flower Robert L

机构信息

Clinical Services and Research, Australian Red Cross Blood Service, 44 Musk Avenue, Kelvin Grove, QLD, 4059, Australia.

Institute of Clinical Blood Transfusion, Guangzhou Blood Center, Guangzhou, People's Republic of China.

出版信息

Mol Biotechnol. 2016 Oct;58(10):665-671. doi: 10.1007/s12033-016-9966-6.

DOI:10.1007/s12033-016-9966-6
PMID:27435823
Abstract

The genetic basis for five GP(B-A-B) MNS system hybrid glycophorin blood group antigens results from rearrangement between the homologous GYPA and GYPB genes. Each hybrid glycophorin displays a characteristic profile of antigens. Currently, no commercial serological reagents are currently available to serologically type for these antigens. The aim of this study was to develop a single nucleotide polymorphism (SNP) mapping genotyping technique to allow characterisation of various GYP(B-A-B) hybrid alleles. Matrix-assisted laser desorption/ionisation time-of-flight (MALDI-TOF) mass spectrometry (MS) assays were designed to genotype five GYP(B-A-B) hybrid alleles. Eight nucleotide positions were targeted and incorporated into the SNP mapping protocol. The allelic frequencies were calculated using peak areas. Sanger sequencing was performed to resolve a GYPHop 3' breakpoint. Observed allelic peak area ratios either coincided with the expected ratio or were skewed (above or below) from the expected ratio with switching occurring at and after the expected break point to generate characteristic mass spectral plots for each hybrid. Sequencing showed that the GYPHop crossover in the intron 3 region, for this example, was identical to that for GYP*Bun reference sequence. An analytical algorithm using MALDI-TOF MS genotyping platform defined GYPA inserts for five GYP(B-A-B) hybrids. The SNP mapping technique described here demonstrates proof of concept that this technology is viable for genotyping hybrid glycophorins, GYP(A-B-A), GYP(A-B) and GYP(B-A), and addresses the gap in current typing technologies.

摘要

五种GP(B - A - B)MNS系统杂合血型糖蛋白血型抗原的遗传基础源于同源的GYPA和GYPB基因之间的重排。每种杂合血型糖蛋白都呈现出独特的抗原谱。目前,尚无用于对这些抗原进行血清学分型的商业血清学试剂。本研究的目的是开发一种单核苷酸多态性(SNP)图谱基因分型技术,以对各种GYP(B - A - B)杂合等位基因进行特征分析。设计了基质辅助激光解吸/电离飞行时间(MALDI - TOF)质谱(MS)分析方法,用于对五个GYP(B - A - B)杂合等位基因进行基因分型。选定了八个核苷酸位置并纳入SNP图谱分析方案。使用峰面积计算等位基因频率。进行桑格测序以解析GYPHop 3'断点。观察到的等位基因峰面积比要么与预期比值相符,要么与预期比值存在偏差(高于或低于),在预期断点处及之后发生转换,从而为每个杂合体生成特征性质谱图。测序表明,在此示例中,内含子3区域的GYPHop交叉与GYP*Bun参考序列的交叉相同。使用MALDI - TOF MS基因分型平台的分析算法确定了五个GYP(B - A - B)杂合体的GYPA插入片段。本文所述的SNP图谱技术证明了该技术可用于对杂合血型糖蛋白GYP(A - B - A)、GYP(A - B)和GYP(B - A)进行基因分型,填补了当前分型技术的空白。

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2
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