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Molecular Aspects of MAP‐1 and MAP‐2: Microheterogeneity, in Vitro Localization and Distribution in Neuronal and Nonneuronal Cellsa

1986; Wiley; Volume: 466; Issue: 1 Linguagem: Inglês

10.1111/j.1749-6632.1986.tb38394.x

1749-6632

Gerhard Wiche, Harald Herrmann, J M Dalton, Roland Foisner, F E Leichtfried, Hans Lassmann, Christiane Koszka, E. Briones,

Advanced Fluorescence Microscopy Techniques

Annals of the New York Academy of SciencesVolume 466, Issue 1 p. 180-198 Molecular Aspects of MAP-1 and MAP-2: Microheterogeneity, in Vitro Localization and Distribution in Neuronal and Nonneuronal Cellsa GERHARD WICHE, GERHARD WICHE Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorHARALD HERRMANN, HARALD HERRMANN Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorJ. MITCHELL DALTON, J. MITCHELL DALTON Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorROLAND FOISNER, ROLAND FOISNER Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorFRANZ E. LEICHTFRIED, FRANZ E. LEICHTFRIED Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorHANS LASSMANN, HANS LASSMANN Neurological Institute, University of Vienna Medical School Vienna, Austria Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorCHRISTIANE KOSZKA, CHRISTIANE KOSZKA Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorESTHER BRIONES, ESTHER BRIONES Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this author GERHARD WICHE, GERHARD WICHE Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorHARALD HERRMANN, HARALD HERRMANN Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorJ. MITCHELL DALTON, J. MITCHELL DALTON Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorROLAND FOISNER, ROLAND FOISNER Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorFRANZ E. LEICHTFRIED, FRANZ E. LEICHTFRIED Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorHANS LASSMANN, HANS LASSMANN Neurological Institute, University of Vienna Medical School Vienna, Austria Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorCHRISTIANE KOSZKA, CHRISTIANE KOSZKA Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this authorESTHER BRIONES, ESTHER BRIONES Institute of Biochemistry, University of Vienna Medical School Vienna, AustriaSearch for more papers by this author First published: June 1986 https://doi.org/10.1111/j.1749-6632.1986.tb38394.xCitations: 14 a This work was supported by Grant 5263 from the Austrian Science Research Fund (Österreichischer Fonds zur Förderung der Wissenschaftlichen Forschung) and Grant 18.853/2-10/83 from the Austrian Ministry of Science and Research (Bundesministerium für Wissenschaft and Forschung). AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Bloom, G. S., F. C. Luca & R. B. Vallee. 1984. Widespread cellular distribution of MAP-1A (microtubule-associated protein 1A) in the mitotic spindle and on interphase microtubules. J. Cell Biol. 98: 331–340. 2 Wiche, G., E. Briones, C. Koszka, U. Artlieb & R. Krepler. 1984. Widespread occurrence of polypeptides related to neurotubule-associated proteins (MAP-1 and MAP-2) in non-neuronal cells and tissues. EMBO J. 3: 991–998. 3 Wiche, G. 1985. High molecular weight microtubule associated proteins (MAPs): A ubiquitous family of cytoskeletal connecting links. Trends Biochem. Sci. 10: 67–70. 4 Karr, T. L., H. D. White & D. L. Purich. 1979. Characterization of brain microtubule proteins prepared by selective removal of mitochondrial and synaptsomal components. J. Biol. Chem. 254: 6107–6111. 5 Bloom, G. S., T. A. Schoenfeld & R. B. Vallee. 1984. Widespread distribution of the major polypeptide component of MAP 1 (microtubule-associated protein 1) in the nervous system. J. Biol. Chem. 98: 320–330. 6 Wiche, G., E. Briones, H. Hirt, R. Krepler, U. Artlieb & H. Denk. 1983. Differential distribution of microtubule-associated proteins MAP-1 and MAP-2 in neurons of rat brain and association of MAP-1 with microtubules of neuroblastoma cells (clone N2A). EMBO J. 2: 1915–1920. 7 Herrmann, H., R. Pytela, J. M. Dalton & G. Wiche. 1984. Structural homology of microtubule-associated proteins 1 and 2 demonstrated by peptide mapping and immunoreactivity. J. Biol. Chem. 259: 612–617. 8 Hermann, H., J. M. Dalton & G. Wiche. 1985. Microheterogeneity of microtubuleassociated proteins, MAP-1 and MAP-2, and differential phosphorylation of individual subcomponents. J. Biol. Chem. 260: 5797–5803. 9 Carraro, U. & C. Catani. 1983. A sensitive SDS-PAGE method separating myosin heavy chain isoforms of rat skeletal muscles reveals the heterogeneous nature of the embryonic myosin. Biochem. Biophys. Res. Commun. 116: 793–802. 10 Marshall, T. 1984. Detection of protein in polyacrylamide gels using an improved silver stain. Anal. Biochem. 136: 340–346. 11 Elder, J. H., R. A. Pickett II, J. Hampton & R. A. Lerner. 1977. Radioiodination of proteins in single polyacrylamide gel slices. J. Biol. Chem. 252: 6510–6515. 12 Cleveland, D. W., S. G. Fischer, M. W. Kirschner & U. K. Laemmli. 1977. Peptide mapping by limited proteolysis in sodium dodecyl sulfate and analysis by gel electrophoresis. J. Biol. Chem. 252: 1102–1106. 13 Jameson, L., T. Frey, B. Zeeberg, F. Dalldorf & M. Caplow. 1980. Inhibition of microtubule assembly by phosphorylation of microtubule-associated proteins. Biochemistry 19: 2472–2479. 14 Weingarten, M. D., A. H. Lockwood, S.-Y. Hwo & M. W. Kirschner. 1975. A protein factor essential for microtubule assembly. Proc. Natl. Acad. Sci. USA 72: 1858–1862. 15 Koszka, C., F. E. Leichtfried & G. Wiche. 1985. Identification and spatial arrangement of high molecular weight proteins (300,000–330,000) co-assembling with microtubules from a cultured cell line (glioma C6). Eur. J. Cell Biol. 38: 149–156. 16 Huber, G. & A. Matus. 1984. Immunocytochemical localization of microtubule-associated protein 1 in rat cerebellum using monoclonal antibodies. J. Cell Biol. 98: 777–781. 17 Bernhardt, R. & A. Matus. 1982. Initial phase of dendrite growth: Evidence for the involvement of high molecular weight microtubule-associated proteins (HMWP) before the appearance of tubulin. J. Cell Biol. 92: 589–593. 18 Bernhardt, R. & A. Matus. 1984. Light and electron microscopic studies of the distribution of microtubule-associated protein 2 in rat brain: A difference between dendritic and axonal cytoskeletons. J. Comp. Neurol. 226: 203–221. 19 Bloom, G. S. & R. B. Vallee. 1983. Association of microtubule associated protein 2 (MAP-2) with microtubules and intermediate filaments in cultured brain cells. J. Cell Biol. 95: 1523–1531. 20 Briones, E. & G. Wiche. 1985. Mr, 205,000 sulfoglycoprotein in extracellular matrix of mouse fibroblast cells is immunologically related to high molecular weight microtubule-associated proteins. Proc. Natl. Acad. Sci. USA. 82: 5776–5780. 21 Wiche, G., H. Herrmann, F. E. Leichtfried & R. Pytela. 1982. Plectin: a high-molecular weight cytoskeletal polypeptide component that copurifles with intermediate filaments of the vimentin type. Cold Spring Harbor Symp. Quant. Biol. 46: 475–482. Citing Literature Volume466, Issue1Dynamic Aspects of Microtubule BiologyJune 1986Pages 180-198 ReferencesRelatedInformation