Determination of the RhC/c Blood Group by Polymerase Chain Reaction with Sequence-specific Primers of the Intron 2 Insert of the RHCE Gene.
- Author:
Chul Min PARK
1
;
Se Ran HEO
;
Sun Kyung JIN
;
Ho Eun CHANG
;
Kyoung Un PARK
;
Junghan SONG
;
Kyou Sup HAN
Author Information
1. Department of Laboratory Medicine, Seoul National University College of Medicine, Seoul, Korea.
- Publication Type:Original Article
- Keywords:
RHCE;
Genotype;
RhC/c;
PCR-SSP
- MeSH:
Alleles;
Blood Group Antigens;
Exons;
Genotype;
Introns*;
Phenotype;
Polymerase Chain Reaction*
- From:Korean Journal of Blood Transfusion
2007;18(3):138-144
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
BACKGROUND: RhC/c blood group antigens are of clinical importance and molecular genotyping for them can be useful when serological typing is difficult. A method to determine the RhC/c genotype, by targeting exon 1 nt48 and exon 2 nt307, has been used. However, this approach is not accurate for the RHc(cyt48) variant allele. We applied a more accurate genotyping method, using the intron 2 109 bp insert of the RHCE gene, and evaluated its performance in comparison with the standard method. METHODS: RhD and RhC/c serotypes of 236 subjects were determined. We compared two genotype results with the serological phenotype. One method examined the allele-specific exon 1 nt48 and exon 2 nt307 polymorphism area (Method 1), while the other method detected the intron 2 insert instead of the exon 1 nt48 (Method 2) by polymerase chain reaction with sequence-specific primers (PCR-SSP). RESULTS: The predicted phenotypes by Method 1 were not matched with the true phenotypes in 24 cases (24/236, 10.2%). By contrast, the predicted results by Method 2 matched with true phenotypes in all cases except one. The RHc(cyt48) variant was suspected in 22 cases (23.7%) of the 93 Rhc cases. CONCLUSION: For the determination of the RhC/c genotype in Koreans, the method that analyzes exon 1 nt48 is inaccurate. Instead, intron 2 insert analysis with exon 2 nt307 by PCR-SSP appears to be a more accurate alternative.