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Journal Abstract Search

181 related items for PubMed ID: 3376145

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  • 5. Evidence that formation of an intermediate filament-protein complex plays a primary role in aggregation of neurofilaments, glial fibrillary acidic protein (GFAP)-filaments and vimentin-filaments by 2,5-hexanedione.
    Durham HD, Salera I, Dahrouge S.
    J Neuropathol Exp Neurol; 1989 Mar; 48(2):197-211. PubMed ID: 2466109
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  • 7. 2,5-hexanedione aggregates vimentin-, but not keratin-, intermediate filaments of PtK1 cells.
    Durham HD.
    Cell Biol Int Rep; 1987 Apr; 11(4):307-18. PubMed ID: 2439214
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  • 8. Aggregation of intermediate filaments by 2,5-hexanedione: comparison of effects on neurofilaments, GFAP-filaments and vimentin-filaments in dissociated cultures of mouse spinal cord-dorsal root ganglia.
    Durham HD.
    J Neuropathol Exp Neurol; 1988 Jul; 47(4):432-42. PubMed ID: 3385438
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  • 9. Cytoskeletal changes induced by 2,5-hexanedione on developing human neurons in vitro.
    Moretto G, Monaco S, Passarin MG, Benedetti MD, Rizzuto N.
    Arch Toxicol; 1991 Jul; 65(5):409-13. PubMed ID: 1929857
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  • 10. Cytoskeletal dynamics in rabbit synovial fibroblasts: I. Effects of acrylamide on intermediate filaments and microfilaments.
    Aggeler J, Seely K.
    Cell Motil Cytoskeleton; 1990 Jul; 16(2):110-20. PubMed ID: 2165439
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  • 11. Acrylamide sensitization of the heat response of the cytoskeleton and cytotoxicity in attaching and well-spread synchronous Chinese hamster ovary cells.
    Wachsberger PR, Coss RA.
    Cell Motil Cytoskeleton; 1989 Jul; 13(2):67-82. PubMed ID: 2670251
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  • 12. The effects of methylmercury on the cytoskeleton of murine embryonal carcinoma cells.
    Wasteneys GO, Cadrin M, Reuhl KR, Brown DL.
    Cell Biol Toxicol; 1988 Mar; 4(1):41-60. PubMed ID: 3067828
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  • 13. Toxic neurofilamentous axonopathies and fast anterograde axonal transport. IV. In vitro analysis of transport following acrylamide and 2,5-hexanedione.
    Sickles DW.
    Toxicol Lett; 1992 Jul; 61(2-3):199-204. PubMed ID: 1641866
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  • 14. Chromatin motion in neuronal interphase nuclei: changes induced by disruption of intermediate filaments.
    Hay M, De Boni U.
    Cell Motil Cytoskeleton; 1991 Jul; 18(1):63-75. PubMed ID: 2004434
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  • 15. Hexahydrocarbon effects on intermediate filament organization in human fibroblasts.
    Durham HD, Peña SD, Ecobichon DJ.
    Muscle Nerve; 1988 Feb; 11(2):160-5. PubMed ID: 3343992
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  • 16. Microtubule-dependent transport of vimentin filament precursors is regulated by actin and by the concerted action of Rho- and p21-activated kinases.
    Robert A, Herrmann H, Davidson MW, Gelfand VI.
    FASEB J; 2014 Jul; 28(7):2879-90. PubMed ID: 24652946
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  • 17. Mechanical interactions among cytoskeletal filaments.
    Wang N.
    Hypertension; 1998 Jul; 32(1):162-5. PubMed ID: 9674654
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  • 18. Alterations in microtubules, intermediate filaments, and microfilaments induced by microcystin-LR in cultured cells.
    Wickstrom ML, Khan SA, Haschek WM, Wyman JF, Eriksson JE, Schaeffer DJ, Beasley VR.
    Toxicol Pathol; 1995 Jul; 23(3):326-37. PubMed ID: 7659955
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  • 19. Effects of methylmercury on retinoic acid-induced neuroectodermal derivatives of embryonal carcinoma cells.
    Cadrin M, Wasteneys GO, Jones-Villeneuve EM, Brown DL, Reuhl KR.
    Cell Biol Toxicol; 1988 Mar; 4(1):61-80. PubMed ID: 3067829
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  • 20. Alteration of intermediate filament distribution in PtK1 cells by acrylamide.
    Eckert BS.
    Eur J Cell Biol; 1985 May; 37():169-74. PubMed ID: 2411559
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