Analysis in non-human primates reveals that the ancestral Band 3 gene encodes Dib and the Band 3-Memphis phenotype.

Background: The anion exchanger, Band 3, carries antigens in the Diego blood group system, and can carry the Band 3-Memphis phenotype. Although Di(b) is of high prevalence and Band 3-Memphis is of low prevalence in humans, it has been suggested that both are on the ancestral gene. We determined the orthologue nucleotide sequences corresponding to these two polymorphic sites, Di(a)/Di(b) (2561T > C; Leu854Pro) and Band 3-Memphis(166A > G; Lys56Glu) in several nonhuman primates.

A panel of monoclonal antibodies recognizing GPI-anchored ADP-ribosyltransferase ART4, the carrier of the Dombrock blood group antigens.

ART4 (CD297) is a member of the family of toxin-related ADP-ribosyltransferases (ARTs) and is the carrier of the Dombrock blood group alloantigens (Do). Two mouse monoclonal antibodies (MIMA-52 and MIMA-53), and two rat monoclonal antibodies (N0NI-B4 and NONI-B63) were obtained following immunization of mice with human Do/ART4-transfected cells and of rats with human Do/ART4 cDNA, respectively. All four mAbs recognize Do/ART4-transfected Jurkat cells but not untransfected cells by FACS analysis.

Studies on the Dombrock blood group system in non-human primates.

The Dombrock blood group system consists of five distinct antigens: two antithetical antigens, Doa and Dob, and three high-frequency antigens:Gya,Hy, and Joa. Although the prevalence of Doa and Dob in different populations makes them useful as genetic markers, the scarcity of reliable antibodies to these antigens has prevented this potential from being realized. The gene (DO;ART4) encoding the Dombrock glycoprotein has been cloned and sequenced, and the molecular bases of the various Dombrock phenotypes have been determined.

Recombinant glycophorins C and D as tools for studying Gerbich blood group antigens.

Background: The Gerbich blood group system antigens are carried on glycophorin C (GPC) and glycophorin D (GPD) and variants thereof. These glycoproteins have been expressed in a heterologous system to study the individual antigens and to determine whether Ana is antithetical to Ge2.

Study Design And Methods: cDNAs encoding GPC, GPD, GPC.

Localization of Knops system antigens in the long homologous repeats of complement receptor 1.

Background: The Sl(a) (Knops system) located on complement receptor 1 (CR1) has been associated with malarial rosetting, a process associated with severe malarial infections. Moreover, the long homologous repeats (LHRs) B and C of CR1 were implicated in rosette formation. As a step toward mapping the location of Knops system antigens, truncated CR1 proteins have been expressed and their ability to inhibit antibodies to the high-incidence Knops system antigens was assessed.