BMC Genet. 2003 Nov 17;4:17.

ABO exon and intron analysis in individuals with the AweakB phenotype reveals a novel O1v-A2 hybrid allele that causes four missense mutations in the A transferase.

Hosseini-Maaf B, Hellberg A, Rodrigues MJ, Chester MA, Olsson ML.

Source

Dept of Transfusion Medicine, Institute of Laboratory Medicine, Lund University & Blood Centre, University Hospital, SE-221 85 Lund, Sweden. bahram.hosseini_maaf@transfumed.lu.se

Abstract

BACKGROUND:

Since the cloning in 1990 of cDNA corresponding to mRNA transcribed at the blood-group ABO locus, polymorphisms due to ethnic and/or phenotypic variations have been reported. Some subgroups have been explained at the molecular level, but unresolved samples are frequently encountered in the reference laboratory.

RESULTS:

ABO blood grouping discrepancies were investigated serologically and by ABO genotyping [duplex polymerase-chain-reaction (PCR)--restriction-fragment-length-polymorphism (RFLP) and PCR--allele-specific-primer (ASP) across intron 6] and DNA sequencing of the ABO gene and its proposed regulatory elements. Blood samples from five individuals living in Portugal, Switzerland, Sweden and the USA were analysed. These individuals were confirmed to be of Black ethnic origin and had the unusual AweakB phenotype but appeared to have the A2B genotype without previously reported mutations associated with weak A or B expression. Sequencing of this A allele (having 467C>T and 1061delC associated with the common A2 [A201] allele) revealed three mutations regularly encountered in the O1v [O02] allele: 106C>T (Val36Phe), 188G>A (Arg63His), 220C>T (Pro74Ser) in exons 3, 4 and 5, respectively. The additional presence of 46G>A (Ala16Thr) was noted, whilst 189C>T that normally accompanies 188G>A in O1v was missing, as were all O1v-related mutations in exons 6 and 7 (261delG, 297A>G, 646T>A, 681G>A, 771C>T and 829G>A). On screening other samples, 46G>A was absent, but two new O alleles were found, a Jordanian O1 and an African O1v allele having 188G>A but lacking 189C>T. Sequencing of introns 2, 3, 4 and 5 in common alleles (A1 [A101], A2, B [B101], O1, O1vand O2 [O03]) revealed 7, 12, 17 and 8 polymorphic positions, respectively, suggesting that alleles could be defined by intronic sequences. These polymorphic sites allowed definition of a breakpoint in intron 5 where the O1v-related sequence was fused with A2 to form the new hybrid. Intron 6 has previously been sequenced. Four new mutations were detected in the hybrid allele and these were subsequently also found in intron 6 of A2 alleles in other Black African samples.

CONCLUSIONS:

A novel O1v-A2 hybrid was defined by ABO exon/intron analysis in five unrelated individuals of African descent with the AweakB blood group phenotype.

PMID:: 14617382; [PubMed - indexed for MEDLINE]
PMCID:: PMC305365

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Figure 1

Depiction of the relative locations of amino acid substitutions caused by the novel allele. A schematic representation of the A transferase resulting from transcription and translation of the novel allele is shown on the left side whilst a computed 3D-model on black background is displayed on the right side. In the former, all amino acid substitutions resulting from the four missense mutations in the O^1v-A²hybrid are shown as coloured circles highlighted by dotted arrows. In the latter, only two of the mutated positions could be displayed in the model since the two N-terminal substitutions were not included in the expressed soluble portion of the crystallized A transferase [32] on which the template structure (molecular coordinate file 1LZ0 in the NCBI structure database) was based. The 3D surface model was created with the DeepView Swiss Pdb Viewer version 3.7, an interactive molecular graphics programme for viewing and analyzing protein structure ( and [33]) using the molecular surface mode and the 3D rendering display option. No effort was made to calculate the possible structural alterations caused by the amino acid changes. The original sequence expressed for the crystallographic study [32] was used for the analysis. Residue positions 63 and 74 are highlighted in red and green, respectively, to show their relative locations in the model. In addition, the DXD motif (present in almost all glycosyltransferases, here as DVD capable of binding the UDP part of the nucleotide-sugar substrate) is shown in blue in order to highlight the catalytic cleft. The different regions of the glycosyltransferase are shown according to Paulson and Colley [34] and the transmembrane domain (amino acids 17–37) is based on the hydrophobicity plot and amino acid composition originally reported by Yamamoto et al. [35]. The black X represents the approximate location of a proteolytic cleavage site for generation of the soluble glycosyltransferase found in body fluids.

ABO exon and intron analysis in individuals with the AweakB phenotype reveals a novel O1v-A2 hybrid allele that causes four missense mutations in the A transferase

BMC Genet. BMC Genet;4:17-17.

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