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Journal Abstract Search

173 related items for PubMed ID: 3943659

  • 21. GammaD-crystallin associated protein aggregation and lens fiber cell denucleation.
    Wang K, Cheng C, Li L, Liu H, Huang Q, Xia CH, Yao K, Sun P, Horwitz J, Gong X.
    Invest Ophthalmol Vis Sci; 2007 Aug; 48(8):3719-28. PubMed ID: 17652744
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  • 23. Calcium activated proteolysis and protein modification in the U18666A cataract.
    Chandrasekher G, Cenedella RJ.
    Exp Eye Res; 1993 Dec; 57(6):737-45. PubMed ID: 8150025
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  • 24. Alpha neoprotein molecules in normal lenses from animals of different ages and in cataractous lenses.
    Manski W, Malinowski K.
    Exp Eye Res; 1985 Feb; 40(2):179-90. PubMed ID: 3884353
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  • 25. Lens development and crystallin distribution of the early onset hereditary cataract in the UPL rat.
    Tomohiro M, Murata S, Yazawa K, Shinzawa S, Maruyama Y, Uga S, Mizuno A, Sakuma S.
    Jpn J Ophthalmol; 1996 Feb; 40(1):42-52. PubMed ID: 8739499
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  • 26. A set of anti-crystallin monoclonal antibodies for detecting lens specificities: beta-crystallin as a specific marker for detecting lentoidogenesis in cultures of chicken lens epithelial cells.
    Sawada K, Agata K, Yoshiki A, Eguchi G.
    Jpn J Ophthalmol; 1993 Feb; 37(4):355-68. PubMed ID: 7832826
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  • 27. Proteomic analysis of water insoluble proteins from normal and cataractous human lenses.
    Harrington V, Srivastava OP, Kirk M.
    Mol Vis; 2007 Sep 14; 13():1680-94. PubMed ID: 17893670
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  • 31. CRYβA3/A1-Crystallin Knockout Develops Nuclear Cataract and Causes Impaired Lysosomal Cargo Clearance and Calpain Activation.
    Hegde S, Kesterson RA, Srivastava OP.
    PLoS One; 2016 Sep 14; 11(2):e0149027. PubMed ID: 26863613
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