Novel KEL allele associated with loss of Kpb identified in a white blood donor.

Q4 Medicine
S Yearout, A Smith, J Keller, M A Keller
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Abstract

The importance of identifying variant alleles among blood donors is significant to the safety of transfusion for recipients. Molecular methods have become more prominent in the routine process of antigen typing donor units. Some variant antigens cannot be detected using only serologic methods. Molecular testing allows the determination of nucleotide sequences that are used to predict a phenotype. Antigens of the Kell blood group system are known for being highly immunogenic and causing adverse reactions upon antibody formation. A female white blood donor who typed Kp(b-) using serologic methods on multiple donations since 2005 was the subject of a typing discrepancy investigation. Routine genotyping using a commercial genotyping kit (HemoID DQS Panel; Agena Bioscience, San Diego, CA) predicted the donor to type Kp(a+b+). Investigation of the discrepancy between these two results identified a rare single nucleotide variant in the KEL gene at nucleotide position c.948G>T that alters amino acid residue 316 from tryptophan (Trp) to cysteine (Cys). After discovery of the novel allele, adsorption and elution studies were performed to see if there was weakened Kpb expression. The elution studies yielded negative results, which indicated that Kpb is not expressed. The KEL transcripts expressed by the donor were determined using cDNA analysis, and the predicted amino acid sequence of the novel allele was modeled to investigate the impact of the amino acid sequence on the structure of the KEL polypeptide. Both SWISS-MODEL and Robetta software were used to evaluate the impact of the p.Trp316Cys on the three-dimensional protein structure. There was no conformational change noted with SWISS-MODEL, whereas the Robetta software showed a significant conformational change compared with the normal Kp(b+) reference sequence. Because the donor is homozygous for variants associated with k and Jsb expression, it was not possible to determine whether the novel allele is associated with loss of Kpb only or loss of all Kell antigens.

在一名白血细胞献血者中发现与Kpb丢失相关的新型KEL等位基因。
在献血者中识别变异等位基因的重要性对输血接受者的安全具有重要意义。分子方法在抗原分型供体单位的常规过程中变得更加突出。一些变异抗原不能仅用血清学方法检测。分子测试允许核苷酸序列的测定,用于预测表型。众所周知,凯尔血型系统的抗原具有高度的免疫原性,并在抗体形成时引起不良反应。本文对2005年以来多次献血用血清学方法分型Kp(b-)的女性献血者进行分型差异调查。常规基因分型使用商业基因分型试剂盒(haemid DQS Panel;Agena Bioscience, San Diego, CA)预测供体为Kp(a+b+)型。对这两个结果之间差异的调查发现,在KEL基因的核苷酸位置c.948G>T上存在罕见的单核苷酸变异,该变异将氨基酸残基316从色氨酸(Trp)转变为半胱氨酸(Cys)。在发现新的等位基因后,进行吸附和洗脱研究,看看是否有减弱的Kpb表达。洗脱研究结果为阴性,表明Kpb不表达。利用cDNA分析确定供体表达的KEL转录本,并对新等位基因的预测氨基酸序列进行建模,研究氨基酸序列对KEL多肽结构的影响。采用SWISS-MODEL和Robetta软件评价p.Trp316Cys对蛋白三维结构的影响。与正常的Kp(b+)参考序列相比,SWISS-MODEL没有发现构象变化,而Robetta软件显示出明显的构象变化。由于供体是与k和Jsb表达相关变异的纯合子,因此不可能确定新等位基因是否仅与Kpb缺失有关,还是与所有Kell抗原缺失有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Immunohematology
Immunohematology Medicine-Medicine (all)
CiteScore
1.30
自引率
0.00%
发文量
18
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