[RhD表型下一个新的RHCE等位基因的鉴定和分析]。

Q4 Medicine

中华医学遗传学杂志 Pub Date : 2025-08-10 DOI:10.3760/cma.j.cn511374-20240926-00508

Li Wang, Qiankun Yang, Yuxiang Lin, Hecai Yang, Shuya Wang, Ying Xie, Xue Liu, Yanli Chang, Yongkui Kong

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The origin of the proband's variant was traced by pedigree analysis. Three-dimensional structural models of the wild-type RhCE*cE protein and the RhD-- phenotype protein were constructed to predict the alterations of the RhD-- phenotype protein caused by the variant. The procedures of this study were approved by the Medical Ethics Committee of the First Affiliated Hospital of Zhengzhou University (Ethics No.: 2023-KY-0870-003).Results: The red blood cells of the proband did not agglutinate with anti-C, anti-c, anti-E, and anti-e. The result of the serum irregular antibody test was negative. The results of direct agglutination reaction and absorption-elution test of the proband were both negative. Her Rh blood group was identified as RhD--. The results of the Rh blood grouping of her close relatives were normal. PCR-SSP detection showed that the RHCE genotypes of the proband and her close relatives were cE/cE and Ce/cE, respectively. Gene sequencing analysis showed that the RHCE genotypes of the proband and her close relatives were RHCE*cE (c.365C>A)/RHCE*cE (c.365C>A) and RHCE*Ce/RHCE*cE (c.365C>A), respectively. Pedigree analysis revealed that the variants in the proband were inherited from her father and mother, respectively. Homology modeling of RhCE*cE protein showed that the RhD-- type peptide chain with a significantly shortened C-terminal was encoded by only 121 amino acid resides, which was 296 amino acid resides shorter compared to the wild-type RhCE*cE peptide chain encoded by 417 amino acid residues.Conclusion: Above results revealed the molecular biological mechanism of a RhD-- phenotype. 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引用次数: 0

摘要

目的：探讨1例RhD-表型的分子机制。方法：选择2024年1月29日在郑州大学第一附属医院就诊的1例RhD-表型先证者作为研究对象。先证者及其近亲属（父亲、母亲、兄弟各3 mL）外周血8 mL，采用凝胶卡法和试管法进行Rh表型和不规则抗体检测。采用直接凝集法和吸附洗脱法检测先证者红细胞c抗原。采用pcr -序列特异性引物（PCR-SSP）分型和基因测序对先证者及其近缘人的RHCE基因进行检测。先证者变异的来源通过系谱分析得到。构建野生型RhCE*cE蛋白和RhD-表型蛋白的三维结构模型，预测该变异引起的RhD-表型蛋白的改变。本研究的程序经郑州大学第一附属医院医学伦理委员会批准(伦理号：: 2023 - ky - 0870 - 003)。结果：先证者红细胞与抗c、抗c、抗e、抗e均无凝集反应。血清不规则抗体试验结果为阴性。先证者的直接凝集反应和吸附洗脱试验结果均为阴性。她的Rh血型被鉴定为RhD。近亲属Rh血型检测结果正常。PCR-SSP检测显示先证者及其近亲属的RHCE基因型分别为cE/cE和cE/cE。基因测序分析显示，先证者及其近亲属的RHCE基因型分别为RHCE*cE (c.365C>A)/RHCE*cE （c.365C>A）和RHCE*cE /RHCE*cE （c.365C>A）。家谱分析显示，先证者的变异分别遗传自她的父亲和母亲。对RhCE*cE蛋白的同源性建模表明，c端明显缩短的RhD-型肽链仅含有121个氨基酸残基，与野生型的417个氨基酸残基相比，减少了296个氨基酸残基。结论：上述结果揭示了RhD表型的分子生物学机制。RHCE基因中的c.365C>A变异使RHCE*cE等位基因失效，最终导致RhD-表型。

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[Identification and analysis of a novel RHCE allele underlying a RhD-- phenotype].

Objective: To explore the molecular mechanism of a case with RhD-- phenotype.

Methods: A proband with RhD-- phenotype who attended the clinic of the First Affiliated Hospital of Zhengzhou University on January 29, 2024 was selected as the study subject. Peripheral blood samples were collected from the proband (8 mL) and her close relatives (father, mother and brother; 3 mL each) for Rh phenotyping and irregular antibodies testing with gel card and test tube methods. Direct agglutination reaction and absorption-elution test were used to detect the c antigen on the red blood cells of the proband. PCR-sequence specific primers (PCR-SSP) typing and gene sequencing were used to determine the RHCE gene of the proband and her relatives. The origin of the proband's variant was traced by pedigree analysis. Three-dimensional structural models of the wild-type RhCE*cE protein and the RhD-- phenotype protein were constructed to predict the alterations of the RhD-- phenotype protein caused by the variant. The procedures of this study were approved by the Medical Ethics Committee of the First Affiliated Hospital of Zhengzhou University (Ethics No.: 2023-KY-0870-003).

Results: The red blood cells of the proband did not agglutinate with anti-C, anti-c, anti-E, and anti-e. The result of the serum irregular antibody test was negative. The results of direct agglutination reaction and absorption-elution test of the proband were both negative. Her Rh blood group was identified as RhD--. The results of the Rh blood grouping of her close relatives were normal. PCR-SSP detection showed that the RHCE genotypes of the proband and her close relatives were cE/cE and Ce/cE, respectively. Gene sequencing analysis showed that the RHCE genotypes of the proband and her close relatives were RHCE*cE (c.365C>A)/RHCE*cE (c.365C>A) and RHCE*Ce/RHCE*cE (c.365C>A), respectively. Pedigree analysis revealed that the variants in the proband were inherited from her father and mother, respectively. Homology modeling of RhCE*cE protein showed that the RhD-- type peptide chain with a significantly shortened C-terminal was encoded by only 121 amino acid resides, which was 296 amino acid resides shorter compared to the wild-type RhCE*cE peptide chain encoded by 417 amino acid residues.

Conclusion: Above results revealed the molecular biological mechanism of a RhD-- phenotype. The c.365C>A variant in the RHCE gene has rendered the RHCE*cE alleles invalid, which ultimately led to the RhD-- phenotype.

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来源期刊

中华医学遗传学杂志 Medicine-Medicine (all)

CiteScore

0.50

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0.00%

发文量

9521

期刊介绍： Chinese Journal of Medical Genetics is a medical journal, founded in 1984, under the supervision of the China Association for Science and Technology, sponsored by the Chinese Medical Association (hosted by Sichuan University), and is now a monthly magazine, which attaches importance to academic orientation, adheres to the scientific, scholarly, advanced, and innovative, and has a certain degree of influence in the industry. Chinese Journal of Medical Genetics is a journal of Peking University, and is now included in Peking University Journal (Chinese Journal of Humanities and Social Sciences), CSCD Source Journals of Chinese Science Citation Database (with extended version), Statistical Source Journals (China Science and Technology Dissertation Outstanding Journals), Zhi.com (in Chinese), Wipu (in Chinese), Wanfang (in Chinese), CA Chemical Abstracts (U.S.), JST (Japan Science and Technology Science and Technology), and JST (Japan Science and Technology Science and Technology Research Center). ), JST (Japan Science and Technology Agency), Pж (AJ) Abstracts Journal (Russia), Copernicus Index (Poland), Cambridge Scientific Abstracts, Abstracts and Citation Database, Abstracts Magazine, Medical Abstracts, and so on.