[Molecular study of an individual with Bel subtype due to a novel c.620T>C variant].

OBJECTIVE:To explore the molecular basis for an individual with Bel subtype of the ABO blood type due to a novel c.620T>C variant gene, and assess its impact on the structure of GTB transferase. METHODS:An individual who had visited the First Affiliated Hospital of Zhengzhou University on February 11, 2023 was selected as the study subject. ABO phenotyping was initially conducted with serological methods, which was followed by direct sequencing of 7 exons of the ABO gene. Subsequently, single-strand sequencing was carried out by using allele-specific primers, and the variant in the B transferase was homology-modeled using the Modeller software. The impact of the variant on the transferase's spatial structure was analyzed with the PyMOL software. RESULTS:The serological phenotype of the patient was identified as the Bel subtype. Direct sequencing revealed that she has harbored a novel c.620T>C variant, resulting in a p.Leu207Pro substitution in the polypeptide chain. Combined with single-strand sequencing, her genotype was ultimately determined as ABO*BELnew/ABO*O.01.02. Three-dimensional protein structure modeling showed that, compared with the wild type, the distance of one hydrogen bond between Proline and Glycine at position 272 has increased, along with disappearance of another hydrogen bond. CONCLUSION:The novel c.620T>C (p.Leu207Pro) variant of B allele may affect the structural stability of the glycosyltransferase. The weakened enzyme activity in turn may lead to reduced B antigen expression, manifesting as the Bel subtype by serological analysis.