I Mouro scite author profile

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 that were identified as the RhD gene transcripts. That these cDNAs represented the RhD messenger and that the previously described Rh clones were derived from the CcEe gene was demonstrated by amplification of RhII/XIII sequences only from D-positive genomes and by cloning and sequencing of D- and CcEe-specific gene fragments. The predicted translation product of the RhD mRNA is a 417-amino acid protein (M(r) = 45,500) that exhibited a similar membrane organization with 13 bilayer-spanning domains compared with the polypeptide encoded by the CcEe gene. The D and Cc/Ee polypeptides differ by 36 amino acid substitutions (8.4% divergence), but the NH2- and COOH-terminal regions of the two proteins are well conserved. Similarly, five of the six cysteine residues of the Cc/Ee proteins were conserved in the D protein, including the unique exofacial cysteine, which is critical for antigenic reactivity. The sequence homology between the Cc/Ee and D proteins supports the concept that the genes encoding these polypeptides have evolved by duplication of a common ancestor gene.

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Molecular genetic basis of the human Rhesus blood group system

Mouro

et al. 1993

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The Rhesus (RH) blood group locus is composed of two related structural genes, D and CcEe, that encode red cell membrane proteins carrying the D, Cc and Ee antigens. As demonstrated previously, the RhD-positive/RhD-negative polymorphism is associated with the presence or the absence of the D gene. Sequence analysis of transcripts and genomic DNA from individuals that belong to different Rh phenotypes were performed to determine the molecular basis of the C/c and E/e polymorphisms. The E and e alleles differ by a single nucleotide resulting in a Pro226Ala substitution, whereas the C and c alleles differ by six nucleotides producing four amino acid substitutions Cys16Trp, Ile60Leu, Ser68Asn and Ser103Pro. With the recent cloning of the RhD gene, these findings provide the molecular genetic basis that determine D, C, c, E and e specificities.

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Expression of RhCG, a New Putative NH3/NH4 + Transporter, along the Rat Nephron

Eladari¹,

Cheval

Quentin³

et al. 2002

123

103

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Different Transport Mechanisms in Plant and Human AMT/Rh-type Ammonium Transporters

Mayer

Schaaf

Mouro

et al. 2006

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The conserved family of AMT/Rh proteins facilitates ammonium transport across animal, plant, and microbial membranes. A bacterial homologue, AmtB, forms a channel-like structure and appears to function as an NH3 gas channel. To evaluate the function of eukaryotic homologues, the human RhCG glycoprotein and the tomato plant ammonium transporter LeAMT1;2 were expressed and compared in Xenopus oocytes and yeast. RhCG mediated the electroneutral transport of methylammonium (MeA), which saturated with Km = 3.8 mM at pHo 7.5. Uptake was strongly favored by increasing the pHo and was inhibited by ammonium. Ammonium induced rapid cytosolic alkalinization in RhCG-expressing oocytes. Additionally, RhCG expression was associated with an alkali-cation conductance, which was not significantly permeable to NH4 + and was apparently uncoupled from the ammonium transport. In contrast, expression of the homologous LeAMT1;2 induced pHo-independent MeA+ uptake and specific NH4 + and MeA+ currents that were distinct from endogenous currents. The different mechanisms of transport, including the RhCG-associated alkali-cation conductance, were verified by heterologous expression in appropriate yeast strains. Thus, homologous AMT/Rh-type proteins function in a distinct manner; while LeAMT1;2 carries specifically NH4 +, or cotransports NH3/H+, RhCG mediates electroneutral NH3 transport.

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Hydrophobic cluster analysis and modeling of the human Rh protein three-dimensional structures

Callebaut¹,

Dulin²,

Bertrand³

et al. 2006

Transfusion Clinique et Biologique

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Two new alleles of the RHCE gene in Black individuals: the RHce allele ceMO and the RHcE allele cEMI

et al. 2001

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Flow cytometric analysis of the association between blood group‐related proteins and the detergent‐insoluble material of K562 cells and erythroid precursors

et al. 2001

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Summary. The linkage between blood group-related cell surface proteins and the detergent-insoluble material (DIM) was estimated by flow cytometry using a panel of specific monoclonal antibodies (mAbs) as a comparison of the antibody-binding capacity of intact and Triton-X100-treated cells. Studies were performed with K562 cells expressing endogenous or recombinant proteins and with human erythroid progenitors during their proliferation and differentiation in vitro. Glycophorin C (GPC) was found to be Triton-insoluble in both cellular models. When expressed (erythroid progenitors), Band 3 remained Triton-insoluble. Glycophorin A (GPA), however, behaved as Triton-soluble or insoluble according to the absence (K562) or the presence (erythroid progenitors) of Band 3 respectively. Comparison of the cellular models regarding the proteins that compose the Rh complex also indicated that Rh(D), RhAG and CD47 were resistant to Triton extraction in cells lacking Band 3. Similarly, RhAG and CD47 remained predominantly Triton-insoluble in K562 cells and early progenitors before Rh and Band 3 expression. Further analysis showed that the Kell protein was DIM-associated. In contrast, CD99 and DARC (Fy) proteins were not, or were very poorly, DIMassociated. Additionally, the adhesion molecules CD44 and Lu were completely or partially resistant to detergent extraction respectively. Deletion of the Lu cytoplasmic tail or its replacement by the cytoplasmic domain of GPC resulted in significant increase or decrease of the Triton solubility of the transfected proteins respectively. These data suggest that Triton insolubility of Lu results in part from direct attachment of its cytoplasmic tail with the cytoskeleton. We assume that this method should provide a useful tool to map interaction sites localized in the cytoplasmic domain of recombinant transmembrane proteins.

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Specificity and sensitivity of RHD genotyping methods by PCR‐based DNA amplification

Jt¹,

Kim

Mouro

et al. 1997

Br J Haematol

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Summary.We have compared the sensitivity and specificity of four PCR methods of RHD gene detection using different sets of primers located in the regions of highest divergence between the RHD and RHCE genes, notably exon 10 (method I), exon 7 (method II), exon 4 (method III) and intron 4 (method IV). Methods I-III were the most sensitive and gave a detectable signal with D-pos/D-neg mixtures containing only 0 . 001% D-positive cells. Moreover, method II could detect the equivalent DNA amount present in only three nucleated cells in the assay without hybridization of PCR products, whereas the sensitivity of the other methods was 10-50 times less. Investigation of D variants indicated that false-negative results were obtained with method II (D IVb variant), method III (D VI and DFR variants) and method IV (D VI variants), but not method I. Weak D (D u ) was correctly detected as D-positive by all methods, but most cases of Rh null appeared as false-positives, as they carry normal RH genes that are not phenotypically expressed. Some false-positive results were obtained with method I in a few Caucasian DNA samples serotyped as RhD-neg but carrying a C-or E-allele, whereas a high incidence of false-positives was found among non-Caucasian Rh-negative samples by all methods. In the Caucasian population, however, we found a full correlation between the predicted genotype and observed phenotype at birth of 92 infants. Although we routinely use the four methods for RHD genotyping, a PCR strategy based on at least two methods is recommended.

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I Mouro

Molecular cloning and primary structure of the human blood group RhD polypeptide.

Molecular genetic basis of the human Rhesus blood group system

Expression of RhCG, a New Putative NH3/NH4 + Transporter, along the Rat Nephron

Different Transport Mechanisms in Plant and Human AMT/Rh-type Ammonium Transporters

Hydrophobic cluster analysis and modeling of the human Rh protein three-dimensional structures

Two new alleles of the RHCE gene in Black individuals: the RHce allele ceMO and the RHcE allele cEMI

Flow cytometric analysis of the association between blood group‐related proteins and the detergent‐insoluble material of K562 cells and erythroid precursors

Specificity and sensitivity of RHD genotyping methods by PCR‐based DNA amplification

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