The Kx protein is an erythrocyte membrane polypeptide which is deficient in rare individuals suffering from the McLeod syndrome. The gene encoding this protein has been recently cloned and the Kx protein independently purified as a covalent complex with the Kell blood group protein. To further study the Kx membrane protein, antisera raised in rabbits against six synthetic peptides derived from the primary sequence of this protein were characterized. All antisera but two precipitated the recombinant Kx protein synthesized in coupled transcription‐translation in vitro. Three antisera reacted on immunoblots with the 37 kD Kx protein present in the purified Kell–Kx complex and in SDS red cell membrane lysates from variants with different Kell blood group phenotypes, including K0, which lack the Kell protein of 93 kD. However, no reactivity was found with McLeod preparations lacking Kx protein, thus clearly indicating that these antibodies have a Kx specificity. Unexpectedly, the relative amount of Kx protein in K0 cells was found to be lower than in red cells with common Kell phenotypes, suggesting that the absence of the Kell protein may alter the amount of Kx in the membrane.
The human Kx blood group antigen is carried by a 37,000 M(r) apparent molecular mass membrane polypeptide which is deficient in rare individuals with the McLeod syndrome. The X-linked human XK gene is transcribed in many tissues including adult skeletal muscle and brain, sieges of disorders observed in McLeod syndrome. We report here the cloning of the orthologous mouse XK mRNA. Comparison of XK from human and mouse revealed 80% sequence similarity at the amino acid level. The mouse XK gene is organized in two exons and is expressed in many tissues, but its expression pattern is slightly different from that of the human gene. The presence in mouse erythrocyte membrane of a 43,000 M(r) Kx-related protein was demonstrated by immunoblotting with a rabbit antiserum directed against the human protein. With non-reduced samples, a 140,000 M(r) species was detected instead of the 43,000 M(r) protein, suggesting that, as demonstrated in the Kx polypeptide might be complexed with another protein in mouse red cells, presumably the homologue of the human Kell protein of 93,000 M(r).
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