Membrane glycophorins of Dantu blood group erythrocytes.

Glycophorins of erythrocytes of two unrelated individuals who exhibit the Dantu blood group phenotype were studied. Immunoblots indicated that erythrocytes of each individual contained a complement of a normal alpha-glycophorin (glycophorin A) and a variant N-glycophorin. delta-Glycophorin (glycophorin B) was present in one donor's cells but not the other's; the s and N phenotypes of the latter's erythrocytes may derive from the variant glycophorin. The variant glycophorin is of a smaller size, does not bind to Lens culinaris lectin agarose, and lacks residues approximately 40-60 of alpha-glycophorin and its single asparagine-linked carbohydrate; it contains approximately 2 less O-glycosidically bound units whose structures are identical to those found in alpha-glycophorins. All these properties are characteristic of delta-glycophorin. The variant is related to alpha-glycophorin in the carboxyl-terminal region as shown by reaction with a specific antiserum. Sequence analyses of a mixture of chymotryptic peptides of a CNBr fragment of the variant glycophorin identified the sequence Val-His-Arg-Phe-Thr-Val-Pro-Glu-Ile-Thr-Leu-Ile-Ile that contains the junction point of delta- and alpha-glycophorins spanning residues 33-38/39 of delta-glycophorin and residues 71/72-77 of alpha-glycophorin. Sequence analysis of a mixture of CNBr fragments allowed us to conclude that the variant originates from delta-s- rather than delta-S-glycophorin. The quantity of the variant Dantu glycophorin when compared to alpha-glycophorin differed in the two individuals, the ratio being 2/1 in one individual's cells and 0.5/1 in the other's. This may reflect that the two donors belong to different varieties of Dantu phenotypes. Together, the evidence indicates that both donors' erythrocytes contain a (delta-alpha) variant glycophorin, whose amino terminus originates from delta-s-glycophorin and the carboxyl end from alpha-glycophorin with a junction point around residues 39 of delta- and 71 of alpha-glycophorins. The results suggest that the unique junction region may be characteristic of the Dantu phenotype.