使用微阵列磁珠对Jk(a)/Jk(b)、Fy(a)/Fy(b)、S/s、K/k、Kp(a)/Kp(b)、Js(a)/Js(b)、Co(a)/Co(b)和Lu(a)/Lu(b)进行血型基因分型。

Blood group genotyping for Jk(a)/Jk(b), Fy(a)/Fy(b), S/s, K/k, Kp(a)/Kp(b), Js(a)/Js(b), Co(a)/Co(b), and Lu(a)/Lu(b) with microarray beads.

作者信息

Karpasitou Katerina, Drago Francesca, Crespiatico Loretta, Paccapelo Cinzia, Truglio Francesca, Frison Sara, Scalamogna Mario, Poli Francesca

机构信息

Regenerative Medicine Department, Fondazione IRCCS Ospedale Maggiore Policlinico, Mangiagalli, Regina Elena, Milan, Italy.

出版信息

Transfusion. 2008 Mar;48(3):505-12. doi: 10.1111/j.1537-2995.2007.01555.x. Epub 2007 Dec 7.

DOI:10.1111/j.1537-2995.2007.01555.x

PMID:18067501

Abstract

BACKGROUND

Traditionally, blood group typing has been performed with serologic techniques, the classical method being the hemagglutination test. Serotyping, however, may present important limitations such as scarce availability of rare antisera, typing of recently transfused patients, and those with a positive direct antiglobulin test. Consequently, serologic tests are being complemented with molecular methods. The aim of this study was to develop a low-cost, high-throughput method for large-scale genotyping of red blood cells (RBCs).

STUDY DESIGN AND METHODS

Single-nucleotide polymorphisms associated with some clinically important blood group antigens, as well as with certain rare blood antigens, were evaluated: Jk(a)/Jk(b), Fy(a)/Fy(b), S/s, K/k, Kp(a)/Kp(b), Js(a)/Js(b), Co(a)/Co(b), and Lu(a)/Lu(b). Polymerase chain reaction (PCR)-amplified targets were detected by direct hybridization to microspheres coupled to allele-specific oligonucleotides. Cutoff values for each genotype were established with phenotyped and/or genotyped samples.

RESULTS

The method was validated with a blind panel of 92 blood donor samples. The results were fully concordant with those provided by hemagglutination assays and/or sequence-specific primer (SSP)-PCR. The method was subsequently evaluated with approximately 800 blood donor and patient samples.

CONCLUSION

This study presents a flexible, quick, and economical method for complete genotyping of large donor cohorts for RBC alleles.

摘要

背景

传统上，血型分型采用血清学技术，经典方法是血凝试验。然而，血清分型可能存在重要局限性，如稀有抗血清供应稀缺、近期输血患者以及直接抗球蛋白试验阳性患者的分型。因此，血清学检测正得到分子方法的补充。本研究的目的是开发一种低成本、高通量的红细胞（RBC）大规模基因分型方法。

研究设计与方法

评估了与一些临床重要血型抗原以及某些稀有血型抗原相关的单核苷酸多态性：Jk(a)/Jk(b)、Fy(a)/Fy(b)、S/s、K/k、Kp(a)/Kp(b)、Js(a)/Js(b)、Co(a)/Co(b)和Lu(a)/Lu(b)。通过与偶联等位基因特异性寡核苷酸的微球直接杂交来检测聚合酶链反应（PCR）扩增的靶标。利用表型和/或基因分型样本确定每种基因型的截断值。

结果

该方法在92份献血者样本的盲法检测中得到验证。结果与血凝试验和/或序列特异性引物（SSP）-PCR提供的结果完全一致。随后，该方法在约800份献血者和患者样本中进行了评估。

结论

本研究提出了一种灵活、快速且经济的方法，用于对大量献血者队列的红细胞等位基因进行完整基因分型。

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使用微阵列磁珠对Jk(a)/Jk(b)、Fy(a)/Fy(b)、S/s、K/k、Kp(a)/Kp(b)、Js(a)/Js(b)、Co(a)/Co(b)和Lu(a)/Lu(b)进行血型基因分型。

Blood group genotyping for Jk(a)/Jk(b), Fy(a)/Fy(b), S/s, K/k, Kp(a)/Kp(b), Js(a)/Js(b), Co(a)/Co(b), and Lu(a)/Lu(b) with microarray beads.

作者信息

机构信息

出版信息

BACKGROUND

STUDY DESIGN AND METHODS

RESULTS

CONCLUSION

背景

研究设计与方法

结果

结论

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