2011
DOI: 10.1074/jbc.m111.230326
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Determination of Structural Models of the Complex between the Cytoplasmic Domain of Erythrocyte Band 3 and Ankyrin-R Repeats 13–24

Abstract: The adaptor protein ankyrin-R interacts via its membrane binding domain with the cytoplasmic domain of the anion exchange protein (AE1) and via its spectrin binding domain with the spectrin-based membrane skeleton in human erythrocytes. This set of interactions provides a bridge between the lipid bilayer and the membrane skeleton, thereby stabilizing the membrane. Crystal structures for the dimeric cytoplasmic domain of AE1 (cdb3) and for a 12-ankyrin repeat segment (repeats 13-24) from the membrane binding do… Show more

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Cited by 31 publications
(59 citation statements)
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“…The fact that a stable subpopulation of band 3 tetramers can be isolated from nonionic detergent extracts of ghosts 75 argues for the former. But the structure of a band 3 tetramer binding to the full membrane domain has not been solved, and at least 1 recent paper argues that band 3 dimers must bind independently, 76 so the question remains. The ankyrin-spectrin binding site is well defined.…”
Section: Attachment Of the Membrane Skeleton Ankyrinmentioning
confidence: 99%
“…The fact that a stable subpopulation of band 3 tetramers can be isolated from nonionic detergent extracts of ghosts 75 argues for the former. But the structure of a band 3 tetramer binding to the full membrane domain has not been solved, and at least 1 recent paper argues that band 3 dimers must bind independently, 76 so the question remains. The ankyrin-spectrin binding site is well defined.…”
Section: Attachment Of the Membrane Skeleton Ankyrinmentioning
confidence: 99%
“…Because lipid bilayers were already known to be intrinsically unstable (3,4), research rapidly focused on identifying linkages between the fragile bilayer and the more stable spectrin-based membrane skeleton that might stabilize the bilayer. A protein complex composed of the membrane-spanning protein, band 3 (AE1), linked to spectrin via ankyrin, was the first bridge shown to perform this linking function (5)(6)(7)(8)(9)(10). Evidence for the critical role of the band 3-ankyrin bridge came not only from studies of membranes in which the bridge was artificially ruptured (11)(12)(13) and from characterization of band 3-knock-out mice (14,15), but also from observations that natural mutations in any of the bridging components commonly led to an inherited membrane instability termed hereditary spherocytosis (16 -19).…”
mentioning
confidence: 99%
“…One of these stretches (residues 110 -120) is identical to a major interacting loop (residues 175-185) of the cytoplasmic N terminus of eAE1 with ankyrin-R (21) but appears to be a secondary docking site for ankyrin-G in our two-hybrid experiments because its deletion alone has no effect on the binding efficiency. The two other interacting regions of kAE1 (residues 241-319 and 328 -331) do not encompass any of the determinants defined for eAE1 (from amino acids 70 -302 or 5-237 in eAE1 or kAE1 numberings, respectively) (31,32). All three domains must be deleted or mutated for a complete inhibition of ankyrin-G binding.…”
Section: Discussionmentioning
confidence: 99%