Insights to Human γD-Crystallin Unfolding by NMR Spectroscopy and Molecular Dynamics Simulations

Shu Shun Hsueh; Steven S.S. Wang; Shu Han Chen; Chia Lin Wang; Josephine W. Wu; Ta Hsien Lin

doi:10.3390/ijms23031591

Insights to Human γD-Crystallin Unfolding by NMR Spectroscopy and Molecular Dynamics Simulations

Shu Shun Hsueh, Steven S.S. Wang, Shu Han Chen, Chia Lin Wang, Josephine W. Wu^*, Ta Hsien Lin

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醫學系生物化學科

研究成果: Article › 同行評審

摘要

Human γD-crystallin (HGDC) is an abundant lens protein residing in the nucleus of the human lens. Aggregation of this and other structural proteins within the lens leads to the development of cataract. Much has been explored on the stability and aggregation of HGDC and where detailed investigation at the atomic resolution was needed, the X-ray structure was used as an initial starting conformer for molecular modeling. In this study, we implemented NMR-solution HGDC structures as starting conformers for molecular dynamics simulations to provide the missing pieces of the puzzle on the very early stages of HGDC unfolding leading up to the domain swap theories proposed by past studies. The high-resolution details of the conformational dynamics also revealed additional insights to possible early intervention for cataractogenesis.

原文	English
文章編號	1591
期刊	International Journal Of Molecular Sciences
卷	23
發行號	3
DOIs	https://doi.org/10.3390/ijms23031591
出版狀態	Published - 1 2月 2022

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10.3390/ijms23031591

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abstract = "Human γD-crystallin (HGDC) is an abundant lens protein residing in the nucleus of the human lens. Aggregation of this and other structural proteins within the lens leads to the development of cataract. Much has been explored on the stability and aggregation of HGDC and where detailed investigation at the atomic resolution was needed, the X-ray structure was used as an initial starting conformer for molecular modeling. In this study, we implemented NMR-solution HGDC structures as starting conformers for molecular dynamics simulations to provide the missing pieces of the puzzle on the very early stages of HGDC unfolding leading up to the domain swap theories proposed by past studies. The high-resolution details of the conformational dynamics also revealed additional insights to possible early intervention for cataractogenesis.",

keywords = "Aggregation, Cataract, Human γD-crystallin, Molecular dynamics simulations, NMR spectroscopy, Stability, Unfolding",

author = "Hsueh, {Shu Shun} and Wang, {Steven S.S.} and Chen, {Shu Han} and Wang, {Chia Lin} and Wu, {Josephine W.} and Lin, {Ta Hsien}",

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AU - Chen, Shu Han

AU - Wang, Chia Lin

AU - Wu, Josephine W.

AU - Lin, Ta Hsien

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N2 - Human γD-crystallin (HGDC) is an abundant lens protein residing in the nucleus of the human lens. Aggregation of this and other structural proteins within the lens leads to the development of cataract. Much has been explored on the stability and aggregation of HGDC and where detailed investigation at the atomic resolution was needed, the X-ray structure was used as an initial starting conformer for molecular modeling. In this study, we implemented NMR-solution HGDC structures as starting conformers for molecular dynamics simulations to provide the missing pieces of the puzzle on the very early stages of HGDC unfolding leading up to the domain swap theories proposed by past studies. The high-resolution details of the conformational dynamics also revealed additional insights to possible early intervention for cataractogenesis.

AB - Human γD-crystallin (HGDC) is an abundant lens protein residing in the nucleus of the human lens. Aggregation of this and other structural proteins within the lens leads to the development of cataract. Much has been explored on the stability and aggregation of HGDC and where detailed investigation at the atomic resolution was needed, the X-ray structure was used as an initial starting conformer for molecular modeling. In this study, we implemented NMR-solution HGDC structures as starting conformers for molecular dynamics simulations to provide the missing pieces of the puzzle on the very early stages of HGDC unfolding leading up to the domain swap theories proposed by past studies. The high-resolution details of the conformational dynamics also revealed additional insights to possible early intervention for cataractogenesis.

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KW - Molecular dynamics simulations

KW - NMR spectroscopy

KW - Stability

KW - Unfolding

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Insights to Human γD-Crystallin Unfolding by NMR Spectroscopy and Molecular Dynamics Simulations

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