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  • Ainis L, Tagliafierro G, Mauceri A, Licata A, Ricca MB, Fasulo S. 1995. Cytokeratin type distribution in the skin and gill epithelia of the Indian fresh-water catfish, Heteropenustes fossilis as detected by immunohistochemistry. Folia Histochem Cytobiol 33: 7781.
  • Amores A, Force A, Yan YL, Joly L, Amemiya C, Tritz A, Ho RK, Langeland J, Prince V, Wang YL, Westerfield M, Ekker M, Postlethwait JH. 1998. Zebrafish hox clusters and vertebrate genome evolution. Science 282: 17111714.
  • Arenas MI, Fraile B, De Miguel M, Paniagua R. 1995. Intermediate filaments in the testis of the teleost mosquito fish (Gambusia affinis holbrooki): a light and electron microscope immunocytochemical study and western blotting analysis. Histochem J 27: 329337.
  • Chua KL, Lim TM. 2000. Type I and type II cytokeratin cDNAs from the zebrafish (Danio rerio) and expression patterns during early development. Differentiation 66: 3141.
  • Conrad M, Lemb K, Schubert T, Markl J. 1998. Biochemical identification and tissue-specific expression patterns of keratins in the zebrafish (Danio rerio). Cell Tissue Res 293: 195205.
  • Druger RK, Levine EM, Glasgow E, Jones PS, Schechter N. 1992. Cloning of a type I keratin from goldfish optic nerve: differential expression of keratins during regeneration. Differentiation 52: 3343.
  • Fuchs E, Weber K. 1994. Intermediate filaments: structure, dynamics, function, and disease. Annu Rev Biochem 63: 345382.
  • Giordano S, Glasgow E, Tesser P, Schechter N. 1989. A type II keratin is expressed in glial cells of the goldfish visual pathway. Neuron 2: 15071516.
  • Giordano S, Hall C, Quitschke W, Glasgow E, Schechter N. 1990. Keratin 8 of simple epithelia is expressed in glia of the goldfish nervous system. Differentiation 44: 163172.
  • Goldman D, Hankin M, Li Z, Dai X, Ding J. 2001. Transgenic zebrafish for studying nervous system development and regeneration. Transgenic Res 10: 2133.
  • Gong Z. 1999. Zebrafish expressed sequence tags and their applications. Methods Cell Biol 60: 213233.
  • Gong Z, Hew CL. 1995. Transgenic fish in aquaculture and developmental biology. Curr Top Dev Biol 30: 177214.
  • Gong Z, Yan T, Liao J, Lee SE, He J, Hew CL. 1997. Rapid identification and isolation of zebrafish cDNA clones. Gene 201: 8798.
  • Groff JM, Naydan DK, Higgins RJ, Zinkl JG. 1997. Cytokeratin-filament expression in epithelial and non-epithelial tissues of the common carp (Cyprinus carpio). Cell Tissue Res 287: 375384.
  • Halloran MC, Sato-Maeda M, Warren JT, Su F, Lele Z, Krone PH, Kuwada JY, Shoji W. 2000. Laser-induced gene expression in specific cells of transgenic zebrafish. Development 127: 19531960.
  • Higashijimas S, Okamoto H, Ueno N, Hotta Y, Eguchi G. 1997. High-frequency generation of transgenic zebrafish which reliably express GFP in whole muscles or the whole body by using promoters of zebrafish origin. Dev Biol 192: 289299.
  • Higashijimas S, Hotta Y, Okamoto H. 2000. Visualization of cranial motor neurons in live transgenic zebrafish expressing green fluorescent protein under the control of the islet-1 promoter/enhancer. J Neurosci 20: 206218.
  • Hsieh JT, Zhau HE, Wang XH, Liew CC, Chung LWK. 1992. Regulation of basal and luminal cell-specific cytokeratin expression in rat accessory sex organs. Evidence for a new class of androgen-repressed genes and insight into their pairwise control. J Biol Chem 267: 23032310.
  • Imboden M, Goblet C, Korn H, Vriz S. 1997. Cytokeratin 8 is a suitable epidermal marker during zebrafish development. C R Acad Sc III 320: 689700.
  • Jowett T, Mancera M, Amores A, Yan YL. 1996. In: In situ hybridization. Laboratory companion. ClarkM, editor. Chapman & Hall publications. p 99120.
  • Ju B, Xu Y, He J, Liao J, Yan T, Hew CL, Lam TJ, Gong Z. 1999. Faithful expression of green fluorescent protein (GFP) in transgenic zebrafish embryos under control of zebrafish gene promoters. Dev Genet 25: 158167.
  • Kemler R, Brulet P, Schnebelen MT, Gaillard J, Jacob F. 1981. Reactivity of monoclonal antibodies against intermediate filament proteins during embryonic development. J Embryol Exp Morphol 64: 4560.
  • Kennedy BN, Vihtelic TS, Checkley L, Vaughan KT, Hyde RH. 2001. Isolation of a zebrafish rod opsin promoter to generate a transgenic zebrafish line expressing enhanced green fluorescent protein in rod photoreceptors. J Biol Chem 276: 1403714043.
  • Kimmel CB, Ballard WW, Kimmel SR, Ullmann B, Schilling TF. 1995. Stages of embryonic development of the zebrafish. Dev Dyn 203: 253310.
  • Korzh V, Sleptsova I, Liao J, He J, Gong Z. 1998. Expression of zebrafish bHLH genes ngn1 and nrd defines distinct stages of neural differentiation. Dev Dyn 213: 92104.
  • Lane EB. 1982. Monoclonal antibodies provide specific intramolecular markers for the study of epithelial tonofilament organization. J Cell Biol 92: 665673.
  • Liao J, Chan CH, Gong Z. 1997. An alternative linker-mediated polymerase chain reaction method using a dideoxynucleotide to reduce amplification background. Anal Biochem 253: 137139.
  • Long Q, Meng A, Wang H, Jessen JR, Farrell MJ, Lin S. 1997. GATA-1 expression pattern can be recapitulated in living transgenic zebrafish using GFP reporter gene. Development 124: 41054111.
  • Long Q, Huang H, Shafizadeh E, Liu N, Lin S. 2000. Stimulation of erythropoiesis by inhibiting a new hematopoietic death receptor in transgenic zebrafish. Nat Cell Biol 2: 549552.
  • Markl J, Franke WW. 1988. Localization of cytokeratins in tissues of the rainbow trout: fundamental differences in expression pattern between fish and higher vertebrates. Differentiation 39: 97122.
  • Markl J, Winter S, Franke WW. 1989. The catalog and the expression complexity of cytokeratins in a lower vertebrate: biochemical identification of cytokeratins in a teleost fish, the rainbow trout. Eur J Cell Biol 50: 116.
  • Moll R, Franke WW, Schiller DL, Geiger B, Krepler R. 1982. The catalog of human cytokeratins: patterns of expression in normal epithelia, tumors and cultured cells. Cell 31: 1124.
  • Nozaki M, Murata K, Morita T, Matsushiro A. 1988. Isolation of endo A cDNA from mouse 8-cell stage embryos. Biochem Biophys Res Commun 154: 890894.
  • Park HC, Kim CH, Bae YK, Yeo SY, Kim SH, Hong SK, Shin J, Yoo KW, Hibi M, Hirano T, Miki N, Chitnis AB, Huh TL. 2000. Analysis of upstream elements in the HuC promoter leads to the establishment of transgenic zebrafish with fluorescent neurons. Dev Biol 227: 279293.
  • Schaffeld M, Lobbecke A, Lieb B, Markl J. 1998. Tracing keratin evolution: catalog, expression patterns and primary structure of shark (Scyliorhinus stellaris) keratins. Eur J Cell Biol 77: 6980.
  • Sire JY, Quilhac A, Bourguignon J, Allizard F. 1997. Scale development in zebrafish (Danio rerio). J Morphol 231: 161174.
  • Wang XH, Oon H, Ho GWP, Wong WSF, Lim TM, Leung KY. 1998. Internalization and cytotoxicity are important virulence mechanisms in Vibrio-fish epithelial cell interactions. Microbiology 144: 29873002.
  • Waseem A, Alexander CM, Steel JB, Lane EB. 1990. Embryonic simple epithelial keratins 8 and 18: chromosomal location emphasizes difference from other keratin pairs. New Biol 2: 464478.
  • Westerfield M. 1995. The zebrafish book. A guide for the laboratory use of zebrafish (Danio rerio). Eugene, Oregon: University of Oregon.
  • Wu YJ, Parker LM, Binder NE, Beckett MA, Sinard JH, Griffiths CT, Rheinwald JG. 1982. The mesothelial keratins: a new family of cytoskeletal proteins identified in cultured mesothelial cells and nonkeratinizing epithelia. Cell 31: 693703.
  • Zaccone G, Howi AJ, Mauceri A, Fasulo S, Lo Casio P, Youson JH. 1995. Distribution patterns of cytokeratins in epidermis and horny teeth of the adult sea lamprey, Petromyzon marinus. Folia Histochem Cytobiol 33: 6975.
  • Zehner ZE. 1991. Regulation of intermediate filament gene expression. Curr Opin Cell Biol 3: 6774.