Schematic representation of erythrocyte spectrin equilibria and distal mutations. (A) Full-length red cell spectrin illustrating the closed dimer ↔ open dimer ↔ tetramer equilibria and component domains. The homologous ∼106 residue spectrin type “repeat units” that comprise most of the spectrin molecule are represented by rounded rectangles. The gray rectangles are domains required to initiate antiparallel lateral heterodimer assembly.⁵⁰  The α-spectrin EF hands are represented by small yellow hexagons and the laterally associated actin binding domain at the N terminus of β-spectrin is represented by larger blue ovals. The SH3 domain (α10) inserted with the α9 domain is indicated by a small white triangle. The domains used in the construction of the recombinant mini-spectrin are highlighted in light blue and wheat and orange and blue. (B) Mini-spectrin in its tetramer form and the corresponding dissociation to open dimer and conversion to closed dimers. The α0-5 is connected to β16-17 using a short glycine linker (gray arc). The approximate locations of the L260P (asterisk) and Q471P (triangle) mutations are shown. (C) The relationship between the secondary structure of the 3-helix bundle motif and the α0-5 spectrin sequence. The black bars above the sequences indicate the locations of the A, B, and C helices of the 3-helix bundle that comprises each repeat, the gray-shaded squiggles indicate locations of loop regions, and the blue-shaded bar and sequence indicate the helical linker region that connects the end of the C helix to the beginning of the A helix in the next repeat. The locations of the L260P and Q471P mutations in the sequence are highlighted in red.