Novel missense mutation c.797T>C (p.Met266Thr) gives rise to the rare B(A) phenotype in a Chinese family

• Published in: Vox sanguinis Vol. 119; no. 4; pp. 383 - 387
• Main Authors: Shao, Lin‐Nan, Yang, Yi‐Cheng, Xia, Yue‐Xin, Li, Chun‐Xiang, Zhou, Shi‐Hang, Liang, Xiao‐Hua
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.04.2024; S. Karger AG
• Subjects: ABO system; allele; Alleles; B(A); Bonding strength; Crystallization; Enzymes; Genotype & phenotype; Hydrogen bonding; Hydrogen bonds; Hydrophobicity; Ionic interactions; Missense mutation; Molecular modelling; Mutation; Nucleotides; Phenotypes; Predictions; Proteins; Regulatory sequences; sequencing; Stability; Three dimensional models; B(A); mutation; allele; sequencing
• ISSN: 0042-9007; 1423-0410; 1423-0410
• DOI: 10.1111/vox.13591

Background and Objectives B(A) phenotype is usually formed by nucleotide mutations in the ABO*B.01 allele, with their products exhibiting glycosyltransferases (GTs) A and B overlapping functionality. We herein report a B(A) allele found in a Chinese family. Materials and Methods The entire ABO genes of the probands, including flanking regulatory regions, were sequenced through PacBio third‐generation long‐read single‐molecule real‐time sequencing. 3D molecular models of the wild‐type and mutant GTB were generated using the DynaMut web server. The effect of the mutation on the enzyme function was predicted by PROVEAN and PolyPhen2. The predictions of stability changes were performed using DynaMut and SNPeffect. Results Based on serological and sequencing features, we concluded the two probands as possible cases of the B(A) phenotype. Crystallization analysis showed that Thr266 substitution does not disrupt the hydrogen bonds. However, some changes in interatomic contacts, such as loss of ionic interactions and hydrophobic contacts, and addition of weak hydrogen bonds, may have affected protein stability to some extent. This mutation was predicted to have a benign effect on enzyme function and slightly reduce protein stability. Conclusion The probands had the same novel B(A) allele with a c.797T>C (p.Met266Thr) mutation on the ABO*B.01 backbone.