Structural analysis of the mutant protein D26G of human γS-crystallin, associated with Coppock cataract

Karri, Srinivasu ; Kasetti, Ramesh Babu ; Vendra, Venkata Pulla Rao ; Sushil, Chandani ; Dorairajan, Balasubramanian (2013) Structural analysis of the mutant protein D26G of human γS-crystallin, associated with Coppock cataract Molecular vision, 19 . p. 1231.

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Abstract

Purpose To analyze the protein structural features responsible for the aggregation properties of the mutant protein D26G human γS-crystallin (HGSC) associated with congenital Coppock-type cataract. Methods cDNAs of wild-type (WT) and D26G mutant HGSC were cloned and expressed in BL21 (DE3) pLysS cells and the proteins isolated and purified. Their secondary and tertiary structural features, aggregation tendencies, and structural stabilities were compared using spectroscopic (circular dichroism, intrinsic and extrinsic fluorescence), molecular modeling, and dynamics methods. Results No difference was observed between the conformational (secondary and tertiary structural) features and aggregation properties between the WT and D26G proteins. The mutant, however, was structurally less stable; it denatured at a slightly lower concentration of the added chemical denaturant (at 2.05 M guanidinium chloride, cf. 2.20 M for the WT) and at a slightly lower temperature (at 70.8 °C, cf. 72.0 °C for the WT). The mutant also self-aggregated more readily (it turned turbid upon standing; at 65 °C, it started precipitating beyond 200 s, while the WT did not, even after 900 s). Molecular modeling showed that the Asp26-Arg84 contact (and the related Arg84–Asn54 interaction) was disturbed in the mutant, making the latter less compact around the mutation site. Conclusions The cataract-associated mutant D26G of HGSC is remarkably close to the WT molecule in structural features, with only a microenvironmental change in the packing around the mutation site. This alteration appears sufficient to promote self-aggregation, resulting in peripheral cataract.

Item Type:Article
Source:Copyright of this article belongs to Emory University.
ID Code:128789
Deposited On:03 Nov 2022 09:40
Last Modified:03 Nov 2022 09:40

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