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Cutting-Edge Research
Original Article
Yuan Chen, Ke Zhang, Yanhui Jin, Manlin Zeng, Kaiqi Jia, Lihong Yang, Mingshan Wang
浙江省检验诊断及转化研究重点实验室
温州医科大学附属第一医院
Objective This study aims to provide a preliminary discussion of the molecular basis of FV deficiency caused by compound heterozygous mutations in two Chinese families.
Methods Relative coagulation index was measured by the one-stage clotting method and the FV:Ag was measured by ELISA. All exons and flanking regions of the F5 gene were amplified by PCR and directly sequenced. ClustalX-2.1-win was used to analyze the conservation of mutations. The online software was used to predict the pathogenicity of mutations. PyMOL was used to analyze the variation in the spatial structure of the FV protein before and after mutations. Calibrated automated thrombogram was used to analyze the function of the mutant protein.
Results Phenotyping suggested that both probands had a simultaneous decrease in FV:C and FV:Ag. Their genetic tests showed that proband A had a missense mutation p.Ser111Ile in exon 3 and a polymorphism p.Arg2222Gly in exon 25. At the same time, the proband B had a missense mutation p.Asp96His in exon 3 and a frame-shift mutation p.Pro798Leufs*13 in exon 13. Meanwhile, the p.Ser111Ile is conserved among homologous species. The bioinformatics and protein model analysis revealed that p.Ser111Ile and p.Pro798Leufs*13 were pathogenic and could affect the structure of the FV protein. The thrombin generation test revealed that the clotting function of proband A and B had been affected.
Conclusion These four mutations may be responsible for the reduction of FV levels in two Chinese families. Moreover, the p.Ser111Ile mutation is a novel pathogenic variant that has not been reported.