Saudi Journal of Medicine and Medical Sciences (Jun 2024)

Molecular Background of RhD-positive and RhD-negative Phenotypes in a Saudi Population

  • Mohrah A. Alalshaikh,
  • Ammar H. Alsughayir,
  • Alyazeed S. Alsaif,
  • Sarah A. Ababtain,
  • Shaika Y. Aloyouni,
  • Khawlah E. Aldilaijan,
  • Sahar F. Alsubaie

DOI
https://doi.org/10.4103/sjmms.sjmms_664_23
Journal volume & issue
Vol. 12, no. 3
pp. 210 – 215

Abstract

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Background: The RHD gene is one of the most complex blood group genes. The molecular background of the RHD gene in RhD-negative and RhD-positive individuals varies within and among different populations. Knowing the molecular basis of the RHD gene in a specific population is required to establish effective genotyping methods. While the molecular basis has been revealed in many ethnicities, such as Caucasians and Black Africans, it still requires elucidation in Arabs. Objectives: The aim of this study was to gain insights into the molecular basis of RhD-positive and RhD-negative phenotypes in Saudi donors. Materials and Methods: Conventional serological tests were used to determine the Rh phenotypes in 136 Saudi donors by typing D, C, c, E, and e antigens. Multiplex-PCR and Single Specific Primer-PCR were used to detect the presence of exons 3, 4, and 7 and the hybrid Rhesus box gene, respectively, in RhD-negative and/or RhD-positive samples. Results: Of the 136 samples, 70 were RhD positive and 66 were RhD negative. None of the RhD-negative donors had any of the three tested exons, whereas the hybrid Rhesus box gene was detected in all, indicating the zygosity status of the RHD deletion allele. The hybrid Rhesus box gene was detected in 79% of the RhD-positive individuals, suggesting high frequencies of RHD-negative haplotypes. Conclusions: The study findings indicate that Saudis with the RhD-negative phenotype are likely to have an entire RHD deletion in the homozygous state. However, a more comprehensive analysis of variant RHD alleles in the Saudi population is required to implement effective and dedicated molecular RHD typing strategies.

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