Organizational model of human erythrocyte band 3 (anion-exchange protein). The protein contains 2 structurally and functionally distinct domains: a cytoplasmic binding domain (amino acids 1-359) and a transmembrane domain (amino acids 360-911) that forms the anion-exchange channel.⁷⁸  In the cytoplasmic domain, the glycolytic enzymes PFK, aldolase, and G3PD bind to amino acids 1 to 23 at the N-terminus of band 3 and contact amino acids 356 to 384,⁷⁹  which are nearby in the folded protein. The enzymes are inactive when bound,⁸⁰  but are displaced and activated by deoxyhemoglobin (Hb), which also binds to the N-terminus,⁸¹  or by phosphorylation of 2 tyrosines (Tyr21-P and Tyr8-P) within the binding sites.⁸⁰  Enolase, PK and LDH also localize to the membrane and are displaced by deoxyhemoglobin, but do not bind to band 3.⁸⁰  This fact suggests that many of the enzymes in the glycolytic pathway form a functional complex (or “metabolon”) that efficiently generates adenosine triphosphate (ATP), particularly under hypoxic conditions. Ankyrin also interacts with the N-terminus,⁸²  but the main ankyrin sites are amino acids 63-73 and 175-185, which loop out from the surface.⁷¹  Protein 4.1 binds to 2 sites with the (I/L)RRRY motif, near the end of the domain.⁸³  Ankyrin and protein 4.1R inhibit each other’s binding. The binding sites for protein 4.2 and adducin have not been identified. In the membrane domain, the best current model⁸⁴  for the anion-exchange channel is based on the structure of the ClC bacterial chloride channel. The intramembrane and transmembrane helices are lettered as they are in the ClC channel. A complex carbohydrate structure is attached to Asn 642. Carbonic anhydrase (CA)IV binds to the extracellular loop of band 3 between helices I and J,⁸⁵  and CAII may bind to the C-terminal segment⁸⁶ ; both are perfectly positioned to create bicarbonate from carbon dioxide and to shuttle the ions to or from the plasma through band 3. F-6-P, fructose 6-phosphate; Hb-O₂, oxyhemoglobin; NAc, acetylated aminoterminus.