Диссертация (1151316), страница 49
Текст из файла (страница 49)
Hermann,U. Aebi // Annual review of biochemistry. – 2004. – V. 73. – P. 749–789.306284. Marotta, C. Neuronal intermediate filaments / C. Marotta // Handbookneurochemistry. – 1984. – V. 7. – P. 281–314.285. De Armond, S.J. Degradation of glial fibrillary acidic protein by a calciumdependent proteinase: an electroblot study / S.J. De Armond, M. Fajardo,S.A.
Naughton, L.F. Eng // Brain research. – 1983. – V. 262. – P. 275–282.286. Soffie, M. Behavioural and glial changes in old rats following environmentalenrichment / M. Soffie, K. Hahn, E. Terao, F. Eclancher // Behavioural brainresearch. – 1999. – V. 1(101). – P. 37–49.287. O’Callaghan, J.P. Neurotypic and gliotypic proteins as biochemical markers ofneurotoxicity / J.P. O’Callaghan // Neurotoxicology and teratology. – 1988.
–V. 5(10). – P. 445–452.288. Ourednik, J. Ectopic expression of the neural cell adhesion molecule L1 inastrocytes leads to changes in the development of the corticospinal tract /J. Ourednik, V. Ourednik, M. Bastmeyer, M. Schachner // The Europeanjournal of neuroscience. – 2001. – V. 9(14).
– P. 1464–1474.289. Safavi-Abbasi,S.Rapidmorphologicalchangesinastrocytesareaccompanied by redistribution but not by quantitative changes of cytoskeletalproteins / S. Safavi-Abbasi, J.R. Wolff, M. Missler // Glia. – 2001. – V. 1(36). –P. 102–115.290. Lariviere, R.C. Functions of intermediate filaments in neuronal development anddisease / R.C. Lariviere, J.P. Julien // Journal of neurobiology. – 2004. – V. 1(58). –Р. 131–148.291. Montgomery, D.L. Astrocytes: form, function, and roles in disease /D.L. Montgomery // Veterinary pathology. – 1994. – V.
2(31). – P. 145–167.292. Onozuka, M. Impairment of spatial memory and changes in astroglialresponsiveness following loss of molar teeth in aged SAMP8 mice /M. Onozuka, K. Watanabe, S. Nagasaki et. al. // Behavioural brain research. –2000. – V. 2(108). – Р. 145–155.307293.
Zheng, W. Neurotoxicology of the brain barrier system: new implications /W. Zheng // Journal of toxicology. Clinical toxicology. – 2001. – V. 7(39). –Р. 711–719.294. Ballabh, P. The blood-brain barrier: an overview: structure, regulation, andclinical implications / P. Ballabh, A. Braun, M. Nedergaard // Neurobiology ofdisease. – 2004. – V.
1(16). – Р. 1–13.295. Jou, M.J. Visualization of melatonin's multiple mitochondrial levels ofprotection against mitochondrial Ca(2+)-mediated permeability transition andbeyond in rat brain astrocytes / M.J. Jou, T.I. Peng, L.F. Hsu et. al. // Journal ofpineal research. – 2010. – V. 1(48). – Р. 20–38.296. Gheuens, J. Identifacation of several forms of the glial fibrillary acidic protein, orα-albumin, by a specific monoclonal antibody / J.Gheuens, E. de Schutter,M. Noppe, A. Lowenthal // Journal of neurochemistry.
– 1984. – V. 4(43). –P. 964–970.297. Eng, L.F. A study of proteins in old multiple sclerosis plaques / L.F. Eng,B. Gerstl, J.J. Vanderhaeghen // Transactions of the American society ofneurochemistry. – 1970. – V. 1. – P. 42.298. Eng, L.F. An acidic protein isolated from fibrous astrocytes / L.F. Eng,J.J. Vanderhaeghen, A. Bignami, B. Gerstl // Brain research. – 1971. – V.
28. –P. 351–354.299. Dahl, D. Glial fibrillary acidic protein from normal human brain. Purification andproperties / D. Dahl, A. Bignami // Brain research. – 1973. –V. 2(57). – P. 343–360.300. Dahl, D. Isolation and initial characterization of glial fibrillary acidic proteinfrom chicken, turtle, frog and fish central nervous systems / D. Dahl // Biochimica etbiophysica acta.
– 1976. – V. 1(446). – P. 41–50.301. Uyeda, C.T. Immunological study of the glial fibrillary acidic protein /C.T.Uyeda, L. F. Eng, A. Bignami // Brain research. – 1972. – V. 37. – P. 81–89.302. Dahl, D. Immunohistochemical and immunofluorescence studies of the glialfibrillary acidic protein in vertebrates / D. Dahl, A. Bignami // Brain research. –1973. – V. 61. – Р. 279–283.308303. Zilles, K.
Mapping of glial fibrillary acidic protein-immunoreactivity in therat forebrain and mesencephalon by computerized image analysis / K. Zilles,F.Hajos, M. Kalman, A. Schleicher // Journal of comparative neurology. – 1991.– V. 3(308). – Р. 340–355.304. Liedtke, W. GFAP is necessary for the integrity of CNS white matterarchitecture and long-term maintenance of myelination/ W.
Liedtke,W. Edelman, P.L. Bieri et. al. // Neuron. – 1996. – V. 4(17). – Р. 607–615.305. Kalman, M. Distribution of glial fibrillary acidic protein (GFAP)immunoreactive astrocytes in the rat brain. I. Forebrain / M. Kalman, F. Hajos //Experimental brain research. – 1989.
– V. 78. – Р. 147–163.306. Sabbatini, M. Age-related changes of glial fibrillary acidic proteinimmunoreactive astrocytes in the rat cerebellar cortex / M. Sabbatini, P. Barili,E. Bronzetti et. al. // Mechanisms of ageing and development. – 1999.–V. 2(108). – Р. 165–172.307. Lepekhin, E.A. Intermediate filaments regulate astrocyte motility / E.A. Lepekhin,C. Eliasson, C.H. Berthold et. al. // Journal of neurochemistry. – 2001. – V.
3(79). –Р. 617–625.308. Kalman, M. GFAP-immunopositive structures in spiny dogfish, Squalusacanthias, and little skate, Raia erinacea, brains: differences have evolutionaryimplications / M. Kalman, R.M. Gould // Anatomy and embryology. – 2001. –V. 1(204). – Р. 59–80.309. Kalman, M. GFAP expression withdraws – a trend of glial evolution? /M.
Kalman // Brain research bulletin. – 2002. – V. 3–4(57). – Р. 509–511.310. Kalman, M. Distribution of GFAP Immunoreactive Structures in theRhombencephalon of the Sterlet (Acipenser ruthenus) and Its EvolutionaryImplication / M. Kalman, C. Ari // The journal of experimental zoology. – 2002.– V. 4(293).
– Р. 395–406.311. Milenkovic, I. Pattern of glial fibrillary acidic protein expression followingkainate-induced cerebellar lesion in rats / I. Milenkovic, N. Nedeljkovic,R. Filipovic et. al. // Neurochemical research. – 2005. – V. 2(30). – Р. 207–13.309312. Estrada,F.S.Astrogliosisistemporallycorrelatedwithenhancedneurogenesis in adult rat hippocampus following a glucoprivic insult /F.S. Estrada, V.S. Hernandez, M.P.
Medina et. al. // Neuroscncei letters. –2009.– V. 3(459). – Р. 109–114.313. Dahl, D. Glial fibrillary acidic protein from normal and gliosed human brain /D. Dahl, A. Bignami // Biochimica et biophysica acta. – 1973. – V. 386. – P. 41–51.314. Dahl, D. Glial fibrillary acidic protein from bovine and rat brain. Degradation intissues and homogenates / D. Dahl // Biochimica et biophysica acta. – 1976. –V. 420.
– P. 142–154.315. Yen, S.H. Biochemistry of the filaments of brain / S. H. Yen, D. Dahl,M. Schachner, M. L. Shelanski // Proceedings of the national Academy of Sciencesof the USA. – 1976. – V. 73. – P. 529–533.316. McLendon, R.E. Immunohystochemistry of the glial fibrillary acidic protein: basicand applied considerations / R. E.
McLendon, D. D. Bigner // Brain pathology. –1994. – V. 3(4). – P. 221–228.317. Inagaki, M. Glial fibrillary acidic protein: dynamic property and regulation byphosphorylation / M. Inagaki, Y. Nakamura, T. Masatoshi et. al. // Brain pathology.– 1994. – V. 4. – P. 239–243.318.
Monzon-Mayor,M.Glialfibrillaryacidicproteinandvimentinimmunohistochemistry in the developing and adult midbrain of the lizardGallotia galloti / M. Monzon-Mayor, C. Yanes, G.Tholey et. al. // The journalofcomparativeneurology.–1990.–V.4(295).–Р. 569–579.319. Hagiwara, N. Cell type specific segregation of transcriptional expression of glialgenes in the rat peripheral neurotumor RT4 cell lines / N. Hagiwara, S.
Imada,N. Sueoka // Journal of neuroscience reseach. – 1993. – V. 6(36). – P. 646–656.320. Wicht, H. An immunocytochemical investigation of glial morphology in thePacific hagfish: Radial and astrocyte-like glia have the same phylogenetic age /H. Wicht, A. Derouiche, H.W. Korf // Journal of neurocytology. – 1994. –V. 9(23). – Р. 565–576.310321.
Brenner, M. Structure and transcriptional regulation of the GFAP gene /M. Brenner // Brain pathology. – 1994. – V. 3(4). – P. 245–257.322. Condorelli, D.F. Structural features of the rat GFAP gene and identifacation of anovel alternative transcript / D.F.
Condorelli, V.G. Nicoletti, V. Barresi et. al. //Journal of neuroscience reseach. – 1999. – V. 3(56). – P. 219–228.323. Martinian, L. Expression patterns of glial fibrillary acidic protein (GFAP)delta in epilepsy-associated lesional pathologies / L. Martinian, K. Boer,J. Middeldorp et. al. // Neuropathology and applied neurobiology. – 2009. –V. 4(35). – P. 394–405.324. Nielsen, A.L. A new splice variant of glial fibrillary acidic protein, GFAP epsilon,interacts with the presenilin proteins / A.L. Nielsen, I.E. Holm, M. Johansen et.
al. //The journal of biological chemistry. – 2002. – V. 33(227). – P. 29983–29991.325. Castillo-Ruiz, M.M. Delayed neurodegeneration and early astrogliosis afterexcitotoxicity to the aged brain / M.M. Castillo-Ruiz, O. Campuzano,L. Acarin et. al. // Experimental gerontology. – 2007. – V. 4(42). – P. 343–354.326. Blechingberg, J. Identification and characterization of GFAPkappa, a novelglial fibrillary acidic protein isoform / J.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
