ISSN:
1432-1017
Keywords:
Key words Spectrin
;
Self-association
;
Erythrocyte
;
Hereditary elliptocytosis
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Physics
Notes:
Abstract We have examined the properties and interactions of expressed polypeptide fragments from the N-terminus of the α-chain and the C-terminus of the β-chain of human erythroid spectrin. Each polypeptide comprises one complete structural repeating unit, together with the incomplete repeat that interacts with its partner when spectrin tetramers are formed. The shared repeat thus generated is made up of two helices from the C-terminal part of the β-chain and one helix from the N-terminus of the α-chain. Three mutant β-chain fragments with amino acid substitutions in the incomplete terminal repeat were also studied. The α- and β-chain fragments were both substantially monomeric, as shown by sedimentation equilibrium. Circular dichroism analysis and thermal denaturation profiles revealed that the complete repeat present in each fragment had entered the stable tertiary fold. Unexpectedly, the conformational stability of the folded β-chain repeat was found to be grossly perturbed by the mutations, all of them well beyond its C-terminal boundary; possible explanations for this phemomenon are considered. Sedimentation equilibrium showed that in equimolar mixtures the wild-type α- and β-chain peptides formed a 1:1 complex. Mixing curves, observed by circular dichroism, revealed that association was accompanied by an increase in α-helicity. From continuous-variation profiles an association constant in the range 1–2×106 M–1 was inferred. The association was unaffected by the apparently unstructured anionic tail of 54 residues, found at the C-terminus of the spectrin β-chain. Of the three mutations in the β-chain fragment, one (an Ala→Val replacement in the A helix segment of the incomplete repeat) had a relatively small effect on the association with the α-chain fragment, whereas Trp→Arg mutations in the A and in the remote B helix segments were much more deleterious. These observations are consistent with the relative severities of the haemolytic conditions associated with the mutations.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/s002490050201
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