TY - JOUR
T1 - The R0Har RH:33 phenotype results from substitution of exon 5 of the RHCE gene by the corresponding exon of the RHD gene
AU - Beckers, E. A.
AU - Faas, B. H.
AU - von dem Borne, A. E.
AU - Overbeeke, M. A.
AU - van Rhenen, D. J.
AU - van der Schoot, C. E.
PY - 1996
Y1 - 1996
N2 - The highly polymorphic Rh (Rhesus) system is encoded by two homologous genes, one encoding the D polypeptide and the other the CcEe polypeptides. Partial D antigens may be caused by gene rearrangements, deletions or point mutations. In this study the molecular basis of R0Har RH:33, a Rh phenotype of low frequency, is described. The R0Har RH:33 phenotype is characterized by partial expression of D, altered expression of e, absence of G and the presence of two antigens of low frequency: Rh33 and FPTT. Southern blot analysis, RHD typing by PCR and sequence analysis of Rh transcripts revealed that the RHD gene is absent in subjects with this phenotype. Apart from the expected RHCE transcripts, a new Rh transcript, RHc(D)(e), was identified in three unrelated individuals expressing R0Har Rh:33. The RHc(D)(e) transcript showed the same sequence as the RHce transcript, with the exception of exon 5, which was substituted by the corresponding exon of the RHD gene. A method for PCR-based genotyping was developed to determine specifically the c(D)(e) haplotype. The c(D)(e) PCR proved to be a reliable alternative method for R0Har RH:33 typing
AB - The highly polymorphic Rh (Rhesus) system is encoded by two homologous genes, one encoding the D polypeptide and the other the CcEe polypeptides. Partial D antigens may be caused by gene rearrangements, deletions or point mutations. In this study the molecular basis of R0Har RH:33, a Rh phenotype of low frequency, is described. The R0Har RH:33 phenotype is characterized by partial expression of D, altered expression of e, absence of G and the presence of two antigens of low frequency: Rh33 and FPTT. Southern blot analysis, RHD typing by PCR and sequence analysis of Rh transcripts revealed that the RHD gene is absent in subjects with this phenotype. Apart from the expected RHCE transcripts, a new Rh transcript, RHc(D)(e), was identified in three unrelated individuals expressing R0Har Rh:33. The RHc(D)(e) transcript showed the same sequence as the RHce transcript, with the exception of exon 5, which was substituted by the corresponding exon of the RHD gene. A method for PCR-based genotyping was developed to determine specifically the c(D)(e) haplotype. The c(D)(e) PCR proved to be a reliable alternative method for R0Har RH:33 typing
U2 - https://doi.org/10.1046/j.1365-2141.1996.382918.x
DO - https://doi.org/10.1046/j.1365-2141.1996.382918.x
M3 - Article
C2 - 8616049
SN - 0007-1048
VL - 92
SP - 751
EP - 757
JO - British journal of haematology
JF - British journal of haematology
IS - 3
ER -