Blood transfusion research centre, High Institute for Research and Education in Transfusion Medicine, Tehran, Iran.
Immunohematology Laboratory, Iranian Blood Transfusion Organization, Tehran, Iran.
Transfus Apher Sci. 2023 Jun;62(3):103640. doi: 10.1016/j.transci.2023.103640. Epub 2023 Jan 6.
Bombay and Para-Bombay phenotypes are characterized by FUT1 gene mutation and lack of H antigen expression in red blood cells. ABH antigens are not present in the body secretions of Bombay individuals, while they are expressed in the secretions of para-Bombay. The aim of this study was to investigate the molecular basis of FUT1 and FUT2 genes in Iranians with the Bombay or Para-Bombay phenotype.
ABO phenotype analysis and routine serological tests were performed on 11 people with Bombay and Para-Bombay phenotypes. The coding regions of FUT1 and FUT2 genes were amplified by PCR followed by sequencing. The ABO genotypes were also determined by sequencing exons 6 and 7 of the ABO gene.
Serological investigations confirmed the Bombay phenotype in 8 samples and the Para-Bombay phenotype in 3 samples. Family members with the Bombay phenotype had the classic c 0.725 T > G mutation in the FUT1 gene, accompanied by deletion of the FUT2 gene. Other samples had c.653 A>G, c 0.661 C>T, c 0.652 C>G, and c.722 A>C mutations in the FUT1 while FUT2 was silenced by c 0.461 G>A.
In this research, we identified two novel mutations in the FUT1 gene in individuals with the Bombay phenotype. This and previous works confirm the variety of FUT1 mutations.
孟买和 Para-Bombay 表型的特征是 FUT1 基因突变,导致红细胞缺乏 H 抗原。Bombay 个体的体液中不存在 ABH 抗原,而 Para-Bombay 个体的体液中则表达 ABH 抗原。本研究旨在探讨伊朗人群中具有 Bombay 或 Para-Bombay 表型的 FUT1 和 FUT2 基因的分子基础。
对 11 例具有 Bombay 和 Para-Bombay 表型的个体进行 ABO 表型分析和常规血清学检测。采用 PCR 扩增 FUT1 和 FUT2 基因的编码区,然后进行测序。通过对 ABO 基因外显子 6 和 7 的测序确定 ABO 基因型。
血清学研究证实 8 例样本为 Bombay 表型,3 例样本为 Para-Bombay 表型。具有 Bombay 表型的家系成员在 FUT1 基因中存在经典的 c 0.725T>G 突变,同时缺失 FUT2 基因。其他样本在 FUT1 中存在 c.653A>G、c 0.661C>T、c 0.652C>G 和 c.722A>C 突变,而 FUT2 则通过 c 0.461G>A 失活。
在本研究中,我们在 Bombay 表型个体中鉴定出 FUT1 基因的两个新突变。这与之前的研究一起证实了 FUT1 基因突变的多样性。