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Publication year
2004Source
Progress in Biophysics and Molecular Biology, 86, 3, (2004), pp. 407-85ISSN
Publication type
Article / Letter to editor
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Organization
Biomolecular Chemistry
Journal title
Progress in Biophysics and Molecular Biology
Volume
vol. 86
Issue
iss. 3
Page start
p. 407
Page end
p. 85
Subject
Bio-Molecular Chemistry; Molecular BiologyAbstract
The alpha-, beta- and gamma-crystallins are the major protein components of the vertebrate eye lens, alpha-crystallin as a molecular chaperone as well as a structural protein, beta- and gamma-crystallins as structural proteins. For the lens to be able to retain life-long transparency in the absence of protein turnover, the crystallins must meet not only the requirement of solubility associated with high cellular concentration but that of longevity as well. For proteins, longevity is commonly assumed to be correlated with long-term retention of native structure, which in turn can be due to inherent thermodynamic stability, efficient capture and refolding of non-native protein by chaperones, or a combination of both. Understanding how the specific interactions that confer intrinsic stability of the protein fold are combined with the stabilizing effect of protein assembly, and how the non-specific interactions and associations of the assemblies enable the generation of highly concentrated solutions, is thus of importance to understand the loss of transparency of the lens with age. Post-translational modification can have a major effect on protein stability but an emerging theme of the few studies of the effect of post-translational modification of the crystallins is one of solubility and assembly. Here we review the structure, assembly, interactions, stability and post-translational modifications of the crystallins, not only in isolation but also as part of a multi-component system. The available data are discussed in the context of the establishment, the maintenance and finally, with age, the loss of transparency of the lens. Understanding the structural basis of protein stability and interactions in the healthy eye lens is the route to solve the enormous medical and economical problem of cataract.
This item appears in the following Collection(s)
- Academic publications [246216]
- Electronic publications [133864]
- Faculty of Science [37928]
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