【 摘 要 】

The eye lens is packed with soluble crystallin proteins, providing a lifetime of transparency and light refraction. gamma-Crystallins are major components of the dense, high refractive index central regions of the lens and generally have high solubility, high stability and high levels of cysteine residues. Human gamma C belongs to a group of gamma-crystallins with a pair of cysteine resi- dues at positions 78 and 79. Unlike other gamma-crystallins it has relatively low solubility, whereas mouse gamma C, which has the exposed C79 replaced with arginine, and a novel mouse splice variant, gamma Cins, are both highly soluble. Furthermore, human gamma C is extremely stable, while the mouse orthologs are less stable. Evolutionary pressure may have favoured stability over solubility for human gamma C and the reverse for the orthologs in the mouse. Mutation of C79 to R79, in human gamma C, greatly increased solubility, however, neither form produced crystals. Remarkably, when the human gamma D R36S crystallization cataract mutation was mimicked in human gamma C-crystallin, the, solubility of gamma C was dramatically increased, although it still did not crystallize. The highly soluble mouse gamma C-crystallin did crystallize. Its X-ray structure was solved and used in homology modelling of human gamma C, and its,, mutants C79R and R36S. The human gamma D R36S mutant was also modelled from human gamma D coordinates. Molecular dynamics simulation of the six molecules in the solution state showed that the human gamma Cs differed from gamma Ds in domain pairing, behaviour that correlates with interface sequence changes. When the fluctuations of the calculated molecular dipoles, for the six structures, over time were analysed, characteristic patterns for soluble gamma C and gamma D proteins were observed. Individual sequence changes that increase or decrease solubility correlated well with changes in the magnitude and direction of these dipoles. It is suggested that changes in surface residues have allowed adaptation for the differing needs of human and mouse lenses. (c) 2007 Elsevier Ltd. All rights reserved.

【 授权许可】

Free   

【 预 览 】

附件列表

Files	Size	Format	View
10_1016_j_jmb_2007_06_049.pdf	2375KB	PDF	download