The intramembranous segment of human erythrocyte glycophorin A

Abstract

The intramembranous segment of glycophorin A has been localized to a 35-amino acid peptide. This has been isolated by a new procedure in which acid-insoluble peptides of a tryptic digest of detergent-purified glycophorin A are fractionated by countercurrent distribution. Amino acid sequence analyses, using both manual and automatic Edman degradation techniques, indicate that this peptide has a unique sequence in contrast to earlier work ( J. P. Segrest, I. Kahane, R. L. Jackson, and V. T. Marchesi, 1973, Biochem. Biophys. Res. Commun., 49, 964–969). Ambiguities at three positions have been resolved, and sequencing errors at two additional positions have been corrected. One segment of this peptide has an uninterrupted stretch of 22 uncharged amino acids, and it is likely that this is the part which spans the lipid bilayer of the membrane. The complete 35-residue peptide has an apparent molecular weight in the 6000–8000 range, when analyzed on sodium dodecyl sulfate gels, suggesting that it forms dimers under these conditions. This result is consistent with our earlier proposal that intact glycophorin A molecules exist as dimers in sodium dodecyl sulfate which are stabilized by noncovalent associations between hydrophobic segments of their polypeptide chains.