Studies on the effect of the p.Arg352Gln mutation on Bw07 transferase
10.3760/cma.j.cn114452-20230826-00089
- VernacularTitle:p.Arg352Gln突变对Bw07转移酶影响的研究
- Author:
Yongkui KONG
1
;
Pengfei ZHU
;
Xin LIU
;
Jie SONG
;
Li WANG
;
Shuya WANG
;
Qiankun YANG
Author Information
1. 郑州大学第一附属医院输血科,郑州 450052
- Keywords:
ABO Blood-Group System;
Bw07;
Genotype;
PCR-SSP;
Molecular dynamics
- From:
Chinese Journal of Laboratory Medicine
2024;47(3):286-292
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the molecular biological mechanism of Bw07 allele and its transferase alteration carried by a proband of ABw07 subtype.Methods:A 2-year-old male child was selected as the research object. The peripheral blood of the proband and his parents was identified for ABO blood type by the test tube method, and the ABO subgroup PCR-SSP detection and ABO gene sequencing were performed on the three individuals to determine their blood type genotypes. Finally, the effect of the p.Arg352Gln mutation on Bw07 transferase was verified by virtual mutation, DUET structure prediction, molecular dynamics analysis, and in vitro cellular experiments.Results:The serological phenotypes of the proband and his mother were ABw and Bw, respectively, while his father was normal A. The ABO subgroup PCR-SSP assay identified the three genotypes as Bw07/A, Bw07/O, and A/A, respectively.Sanger sequencing further verified that the proband and his mother carried the Bw07 gene, and virtual mutation showed that the intermolecular forces were weakened by the R352Q mutation. DUET predicted that this p.Arg352Gln mutation could affect the thermodynamic stability of Bw07 transferase. Molecular dynamics analysis confirmed that the alteration of thermodynamic stability was mainly related to the appearance of large fluctuations in the amino acid backbone atoms in the 125-133, 193-198 and 336-354 regions, and in vitro cellular experiments further verified the weakened antigen synthesis of Bw07 transferase.Conclusion:The formation of the ABw07 phenotype is associated with the mutation of the highly conserved Arg352 to Gln in Bw07 transferase.
