Fangling Ji scite author profile

Fangling Ji

2Publications

137Citation Statements Received

143Citation Statements Given

How they've been cited

114

How they cite others

133

Affiliations

Dalian University, Dalian University of Technology, University of Pittsburgh

Publications

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The Human W42R γD-Crystallin Mutant Structure Provides a Link between Congenital and Age-related Cataracts*

Jung

Koharudin

et al. 2013

Journal of Biological Chemistry

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Background:The mechanism of cataract formation by the recently discovered ␥D-crystallin W42R mutant is unknown. Results: Structural, biochemical, and biophysical studies revealed a partially unfolded species of the W42R mutant. Conclusion: Partially unfolded species serve as nuclei for aggregation. Significance: The properties of the W42R mutant ␥D-crystallin provide the link to the pathogenesis of age-related cataract caused by photodamaged wild-type ␥D-crystallin.

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Structural and Biochemical Characterization of the Childhood Cataract-Associated R76S Mutant of Human γD-Crystallin

Jung

Gronenborn

2012

Biochemistry

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Although a number of γD-crystallin mutations are associated with cataract formation, there is not a clear understanding of the molecular mechanism(s) that lead to this protein deposition disease. As part of our ongoing studies on crystallins, we investigated the recently discovered Arg76 to Ser (R76S) mutation that is correlated with childhood cataract in an Indian family. We expressed the R76S γD-crystallin protein in E. coli, characterized it by CD, fluorescence, and NMR spectroscopy, and determined its stability with respect to thermal and chemical denaturation. Surprisingly, no significant biochemical or biophysical differences were observed between the wild-type protein and the R76S variant, except a lowered pI (6.8 compared to the wild-type value of 7.4). NMR assessment of the R76S γD-crystallin solution structure, by RDCs, and of its motional properties, by relaxation measurements, also revealed a close resemblance to wild type crystallin. Further, kinetic unfolding/refolding experiments for R76S and wild-type protein showed similar degrees of off-pathway aggregation suppression by αB-crystallin. Overall, our results suggest that neither structural nor stability changes in the protein are responsible for the R76S γD-crystallin variant's association with cataract. However, the change in pI and the associated surface charge or the altered nature of the amino acid could influence interactions with other lens protein species.

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Fangling Ji

The Human W42R γD-Crystallin Mutant Structure Provides a Link between Congenital and Age-related Cataracts*

Structural and Biochemical Characterization of the Childhood Cataract-Associated R76S Mutant of Human γD-Crystallin

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