1992
DOI: 10.1073/pnas.89.22.10925
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Molecular cloning and primary structure of the human blood group RhD polypeptide.

Abstract: The RH (rhesus) blood group locus from RhD-positive donors is composed of two homologous structural genes, one of which encodes the Cc and Ee polypeptides, whereas the other, which is missing in the RhD-negative condition, encodes the D protein that carries the major antigen of the RH system. Recently, different splicing isoforms transcribed from the CcEe gene were isolated. We report now the characterization of two other Rh clones, RhII and RhXIII, generated by alternative choices for poly(A) addition sites t… Show more

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Cited by 277 publications
(174 citation statements)
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“…These parameters have not been investigated in previous studies and should help in the selection of methods for reliable RHD genotyping of fetal cells. The primers used in the PCR assays for methods I-III were derived to selectively amplify D-specific sequences, based on the known nucleotide polymorphisms of RHD v RHCE genes (Cherif-Zahar et al, 1990;Le van Kim et al, 1992), whereas those used in method IV were located in exons 4 and 5, respectively, so as to amplify a 1200 bp intron containing fragment from the RHCE gene and a 600 bp intron fragment from the RHD gene, as first shown by Arce et al (1993).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…These parameters have not been investigated in previous studies and should help in the selection of methods for reliable RHD genotyping of fetal cells. The primers used in the PCR assays for methods I-III were derived to selectively amplify D-specific sequences, based on the known nucleotide polymorphisms of RHD v RHCE genes (Cherif-Zahar et al, 1990;Le van Kim et al, 1992), whereas those used in method IV were located in exons 4 and 5, respectively, so as to amplify a 1200 bp intron containing fragment from the RHCE gene and a 600 bp intron fragment from the RHD gene, as first shown by Arce et al (1993).…”
Section: Discussionmentioning
confidence: 99%
“…Oligonucleotide primers used in the Rh-specific PCR assays are described in Table I. The primers D4 and D5 used in method I, were derived from the PCR system of Le Van Kim et al (1992) and Bennett et al (1993). The D4 forward primer was derived from primer A3 which has been 5 0 -extended with six additional bases to increase the PCR annealing temperature to 58ЊC, and the reverse primer D5 was chosen 99 bases 3 0 downstrean to the initial RhXIII/A4 primer and corresponded to primers RDA3/RD2 of Lo et al (1993).…”
Section: Methodsmentioning
confidence: 99%
“…The erythrocyte Rh D antigen is expressed on a 30 kD membrane protein with multiple membrane traversing hydrophobic segments (Le van Kim et al, 1992;Arce et al, 1993). The protein has close homology to the Rh CcEe proteins with 35 or 36 amino acid substitutions (Avent et al, 1990;Cherif-Zahar et al, 1990).…”
Section: Summary the Discovery Of Rh Partial D Variant Red Cells By mentioning
confidence: 99%
“…The PCR product obtained from the RHCE gene (1238 bp) is distinguished from that obtained from the RHD gene because in the latter there is a deletion in intron 4 that results in a smaller PCR product (587 bp). We designed the other set of primers based on published RHCE and RHD sequence data 3,4 to analyse exon 10 of the RHD gene; 11,15 Rh1228 for a sequence located in exon 10 of both RH genes (5 TTTCCTCATTTGGCTGTTG 3 , sense primer, position 1228±1246); and Rh1478 for a sequence located in the 3 non-coding region of the RHD gene (5 CATGGCTGTATTTTATTGTTGTAT 3 , antisense primer, position 1478±1455). This pair of primers yields a PCR product of 250 bp only from the RHD gene.…”
Section: Pcr Strategymentioning
confidence: 99%
“…Each gene consists of 10 exons with 92% sequence homology between them. 3,4 The molecular basis for RhD-positive and RhDnegative blood type is the presence or absence of the RHD gene, rather than the hypothetical d allele. That is, RhD-positive individuals have either one or two RHD genes per cell whereas the RhD-negative phenotype is caused by the absence of the entire RHD gene or at least part of it.…”
Section: Introductionmentioning
confidence: 99%