[Polymorphism of M, N Allele in MN Blood Group of Chinese Population].

OBJECTIVE: To detect the base sequences of all exons and part of introns in the GYPA gene of the glycophorin GPA and to investigate the polymorphism of M, N alleles in Chinese population. METHODS: A total of 225 blood sample were randomly colleeted from unrelated Chinese volunteers and were detected by serology techniques. The primers were designed by self, the seguencing of GYPA gene related with sample exon 1-7 full length sequences of bases and intron-1-7 partial sequence was performed, the polymorphism of M, N gene mutation in mucleotide sequence was analysed. RESULTS: The results of M and N genotyping were in agreement with the results of serological detection. The 23rd base of intron-2, the 55th base of intron-3, the 63rd base of intron-4, the 55th, 189th and 190th base of intron-6, the 712th base variation of exon-7 in the gene M and N were used to subdivide the gene M and N into the mutant M103, M201, M202, N101, N102, N103, N104, and N201. At the same time, it was found that 42th and 54th base were mutated, the base T was inserted between 59th and 60th base in the intron-2, the new mutations occurred in the alleles 28, 29, 65 and 102 in intron-3 in this study. CONCLUSION: The polymorphism of the the Chinese population's GYPA gene occurs in all the exons and partly in the introns. The gene polymorphism of M and N blood group in Chinese population might provide the theoretical basis for the studies of clinical blood transfusion, human population genetics and molecular biology.

Molecular genetic analysis for a novel Ael allele of the ABO blood group system.

The ABO blood group is the most important system in clinical transfusion medicine. Previous studies on the genetic base of the common ABO group and some rare ABO subgroups have suggested that the molecular genetic background of the ABO gene in the Chinese population has specific character. In this study, we carried out a molecular genetic analysis of a family with an individual diagnosed as Ael subgroup by serological tests. A novel allele was identified in our A subgroup cases.

Identification of a novel B variant allele at the ABO locus in Chinese Han individuals with B subgroup.

We studied the molecular genetic background of the B subgroup in the Chinese Han population and identified a novel allele at the ABO locus. Ten control samples from randomly selected blood donors of normal B phenotype and 6 samples from individuals diagnosed as B subgroup by serological tests were genotyped by PCR-SSP and direct DNA sequencing at exons 6 and 7 of the ABO gene. Exons 6 and 7 and the intervening intron 6 of B alleles from the 6 B subgroup samples were analyzed by cloning and haplotype-sequencing. A novel B variant allele was identified in 2 individuals who were serologically-determined as members of the B(x) and B(w) subgroups, respectively. The novel B allele differs from allele B101 by a single 695T>C missense mutation in exon 7. The family of the individual with B(x) subgroup was studied; among 8 family members tested, 4 had the novel B variant allele. No mutation at exon 6 or 7 of the ABO gene was detected in the 10 control samples or in the other 4 B subgroup samples. Mutation at position 695 where T is replaced by C results in an amino acid change from Leu to Pro, which is predicted to diminish B transferase activity. This indicates that alteration of the amino acid at position 232 is critical to the activity of glycosyltransferases.