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Journal Abstract Search

165 related items for PubMed ID: 35359596

  • 41. Cataract-causing mutation R48C increases γA-crystallin susceptibility to oxidative stress and ultraviolet radiation.
    Wu J, Xu W, Wu W, Xu J, Zheng S, Shentu X, Chen X.
    Int J Biol Macromol; 2022 Jan 01; 194():688-694. PubMed ID: 34826455
    [Abstract] [Full Text] [Related]

  • 42. Proteostasis and the Regulation of Intra- and Extracellular Protein Aggregation by ATP-Independent Molecular Chaperones: Lens α-Crystallins and Milk Caseins.
    Carver JA, Ecroyd H, Truscott RJW, Thorn DC, Holt C.
    Acc Chem Res; 2018 Mar 20; 51(3):745-752. PubMed ID: 29442498
    [Abstract] [Full Text] [Related]

  • 43. The congenital cataract-linked G61C mutation destabilizes γD-crystallin and promotes non-native aggregation.
    Zhang W, Cai HC, Li FF, Xi YB, Ma X, Yan YB.
    PLoS One; 2011 Mar 20; 6(5):e20564. PubMed ID: 21655238
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  • 44. The congenital cataract-linked A2V mutation impairs tetramer formation and promotes aggregation of βB2-crystallin.
    Xu J, Wang S, Zhao WJ, Xi YB, Yan YB, Yao K.
    PLoS One; 2012 Mar 20; 7(12):e51200. PubMed ID: 23236454
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  • 45. Trimethylamine N-oxide alleviates the severe aggregation and ER stress caused by G98R alphaA-crystallin.
    Gong B, Zhang LY, Pang CP, Lam DS, Yam GH.
    Mol Vis; 2009 Dec 19; 15():2829-40. PubMed ID: 20029648
    [Abstract] [Full Text] [Related]

  • 46. 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
    [Abstract] [Full Text] [Related]

  • 47. Expression of Cataract-linked γ-Crystallin Variants in Zebrafish Reveals a Proteostasis Network That Senses Protein Stability.
    Wu SY, Zou P, Fuller AW, Mishra S, Wang Z, Schey KL, Mchaourab HS.
    J Biol Chem; 2016 Dec 02; 291(49):25387-25397. PubMed ID: 27770023
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  • 51. Cataract-causing Y204X mutation of crystallin protein CRYβB1 promotes its C-terminal degradation and higher-order oligomerization.
    Jing X, Zhu M, Lu X, Wei P, Shi L, Zhang BY, Xu Y, Tang YP, Xiang DM, Gong P.
    J Biol Chem; 2023 Aug 02; 299(8):104953. PubMed ID: 37356717
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  • 52. A novel cataract-causing mutation Ile82Met of γA crystallin trends to aggregate with unfolding intermediate.
    Xu W, Xu J, Shi C, Wu J, Wang H, Wu W, Chen X, Hu L.
    Int J Biol Macromol; 2022 Jun 30; 211():357-367. PubMed ID: 35513103
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  • 53. Dissimilarity in the Contributions of the N-Terminal Domain Hydrophobic Core to the Structural Stability of Lens β/γ-Crystallins.
    Zhang K, Zhao WJ, Yao K, Yan YB.
    Biochemistry; 2019 May 21; 58(20):2499-2508. PubMed ID: 31037943
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  • 54. Association properties of betaB1- and betaA3-crystallins: ability to form heterotetramers.
    Chan MP, Dolinska M, Sergeev YV, Wingfield PT, Hejtmancik JF.
    Biochemistry; 2008 Oct 21; 47(42):11062-9. PubMed ID: 18823128
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  • 55. The Y46D Mutation Destabilizes Dense Packing of the Second Greek Key Pair of Human γC-Crystallin Causing Congenital Nuclear Cataracts.
    Vendra VPR, Ostrowski C, Clark R, Dyba M, Tarasov SG, Hejtmancik JF.
    Biochemistry; 2023 Jun 20; 62(12):1864-1877. PubMed ID: 37184593
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  • 58. Decreased heat stability and increased chaperone requirement of modified human betaB1-crystallins.
    Lampi KJ, Kim YH, Bächinger HP, Boswell BA, Lindner RA, Carver JA, Shearer TR, David LL, Kapfer DM.
    Mol Vis; 2002 Sep 25; 8():359-66. PubMed ID: 12355063
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  • 59. Preferential and specific binding of human αB-crystallin to a cataract-related variant of γS-crystallin.
    Kingsley CN, Brubaker WD, Markovic S, Diehl A, Brindley AJ, Oschkinat H, Martin RW.
    Structure; 2013 Dec 03; 21(12):2221-7. PubMed ID: 24183572
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