Oligomeric structure and the anion transport function of human erythrocyte band 3 protein

Conclusions Evidence from many laboratories using several different techniques strongly suggests that, in the intact red cell, band 3 exists as dimers which can associate with other dimers to form tetramers. The kinetics of anion transport inhibition by stilbenedisulfonates indicate that irreversible inhibition of one subunit does not detectably affect anion transport by the other subunit. This does not imply that monomeric band 3 could necessarily transport anions; the native conformation of each subunit may require stabilizing interactions with another subunit, as indicated by the recent work of Boodhoo and Reithmeier [10]. A more detailed understanding of the structure of the band 3 dimer/tetramer will require information on which specific segments of the primary structure are involved in subunit-subunit contact. The combination of chemical cross-linking with proteolysis [136] is a promising approach to this problem.