Biotin induces tetramerization of a recombinant monomeric avidin. A model for protein-protein interactions

Chicken avidin, a homotetramer that binds four molecules of biotin was converted to a monomeric form by successive mutations of interface residues to alanine. The major contribution to monomer formation was the mutation of two aspartic acid residues, which together account for ten hydrogen bonding i...

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Bibliographic Details
Published in:The Journal of biological chemistry 2001-03, Vol.276 (11), p.8219-8224
Main Authors: Laitinen, O H, Marttila, A T, Airenne, K J, Kulik, T, Livnah, O, Bayer, E A, Wilchek, M, Kulomaa, M S
Format: Article
Language:English
Subjects:
Avidin - chemistry
Biotin - chemistry
Models, Molecular
Protein Subunits
Recombinant Proteins - chemistry
Online Access:Get full text
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Summary:Chicken avidin, a homotetramer that binds four molecules of biotin was converted to a monomeric form by successive mutations of interface residues to alanine. The major contribution to monomer formation was the mutation of two aspartic acid residues, which together account for ten hydrogen bonding interactions at the 1-4 interface. Mutation of these residues, together with the three hydrophobic residues at the 1-3 interface, led to stable monomer formation in the absence of biotin. Upon addition of biotin, the monomeric avidin reassociated to the tetramer, which exhibited properties similar to those of native avidin, with respect to biotin binding, thermostability, and protease resistance. To our knowledge, these unexpected results represent the first example of a small monovalent ligand that induces oligomerization of a monomeric protein. This study may suggest a biological role for low molecular weight ligands in inducing oligomerization and in maintaining the stability of multimeric protein assemblies.
ISSN:0021-9258
DOI:10.1074/jbc.M007930200