A temperature-sensitive mutation of Crygs in the murine Opj cataract.
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The X-ray crystal structure of human gamma S-crystallin C-terminal domainThe Human W42R D-Crystallin Mutant Structure Provides a Link between Congenital and Age-related CataractsStructure and Dynamics of the Fish Eye Lens Protein, γM7-CrystallinThe mutation V42M distorts the compact packing of the human gamma-S-crystallin molecule, resulting in congenital cataractAlterations to proteins in the lens of hereditary Crygs-mutated cataractous mice.A single destabilizing mutation (F9S) promotes concerted unfolding of an entire globular domain in gammaS-crystallin.Hereditary and histologic characteristics of the CF1/b cac mouse cataract model.Ethylnitrosourea-induced base pair substitution affects splicing of the mouse gammaE-crystallin encoding gene leading to the expression of a hybrid protein and to a cataract.Clinical and experimental advances in congenital and paediatric cataracts.Radiation hybrid mapping of cataract genes in the dog.Characterization of a transient unfolding intermediate in a core mutant of γS-crystallin.Age-related retention of fiber cell nuclei and nuclear fragments in the lens cortices of multiple species.Endogenous retroviral insertion in Cryge in the mouse No3 cataract mutant.γ-Crystallins of the chicken lens: remnants of an ancient vertebrate gene family in birds.Conditional deletion of beta1-integrin from the developing lens leads to loss of the lens epithelial phenotype.A role for γS-crystallin in the organization of actin and fiber cell maturation in the mouse lensSolution structure of (gamma)S-crystallin by molecular fragment replacement NMR.Protein misfolding and aggregation in cataract disease and prospects for prevention.Novel mutation in the gamma-S crystallin gene causing autosomal dominant cataract.On the mechanism of organelle degradation in the vertebrate lens.Hydrophobic core mutations associated with cataract development in mice destabilize human gammaD-crystallin.Solution properties of γ-crystallins: compact structure and low frictional ratio are conserved properties of diverse γ-crystallins.Solution properties of γ-crystallins: hydration of fish and mammal γ-crystallins.Crystallin {gamma}B-I4F mutant protein binds to {alpha}-crystallin and affects lens transparency.Group II archaeal chaperonin recognition of partially folded human γD-crystallin mutantsInhibition of unfolding and aggregation of lens protein human gamma D crystallin by sodium citrate.Evaluation of three canine gamma-crystallins (CRYGB, CRYGC, and CRYGS) as candidates for hereditary cataracts in the dachshundSubunit exchange demonstrates a differential chaperone activity of calf alpha-crystallin toward beta LOW- and individual gamma-crystallins.AP-2α is required after lens vesicle formation to maintain lens integrity.Amyloid β-Sheet Secondary Structure Identified in UV-Induced Cataracts of Porcine Lenses using 2D IR Spectroscopy.
P2860
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P2860
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
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2000 nî lūn-bûn
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A temperature-sensitive mutation of Crygs in the murine Opj cataract.
@ast
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
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label
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
@ast
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
@en
prefLabel
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
@ast
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
@en
P2093
P2860
P356
P1476
A temperature-sensitive mutation of Crygs in the murine Opj cataract.
@en
P2093
Jaworski C
Robison WG
Slingsby C
P2860
P304
P356
10.1074/JBC.M010583200
P407
P577
2000-12-19T00:00:00Z