Common and variant properties of intermediate filament proteins from lower chordates and vertebrates; two proteins from the tunicate Styela and the identification of a type III homologue

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Adjaye, J., Plessmann, U., Weber, K. and Dodemont, H (1995). Characterisation of neurofilament protein NF70 mRNA from the gastropod Helix aspersa reveals that neuronal and non-neuronal intermediate filament proteins of cerebral ganglia arise from separate lamin-related genes. J. Cell Sci 108, 3581-3590.[Abstract]

Bartnik, E. and Weber, K (1989). Widespread occurrence of intermediate filaments in invertebrates; common principles and aspects of divergence. Eur. J. Cell Biol 50, 17-33.

Bovenschulte, M., Riemer, D. and Weber, K (1995). The sequence of a cytoplasmic intermediate filament (IF) protein from the annelid Lumbricus terrestris emphasizes a distinctive feature of protostomic IF proteins. FEBS Lett 360, 223-226.[Medline]

Bovenschulte, M. and Weber, K (1997). Deuterostomic actin genes and the definition of the chordates: cDNA cloning and gene organization for cephalochordates and hemichordates. J. Mol. Evol 45, 653-660.[Medline]

Dodemont, H., Riemer, D. and Weber, K (1990). Structure of an invertebrate gene encoding cytoplasmic intermediate filament proteins: implications for the origin and the diversification of IF proteins. EMBO J 9, 4083-4094.[Medline]

Dodemont, H., Riemer, D., Ledger, N. and Weber, K (1994). Eight genes and alternative RNA processing pathways generate an unexpectedly large diversity of cytoplasmic intermediate filament proteins in the nematode Caenorhabditis elegans. EMBO J 13, 2625-2638.[Medline]

Druger, R. K., Glasgow, E., Fuchs, C., Levine, E. M., Matthews, J. P., Park, C-H. and Schechter, N (1994). Complex expression of keratins in goldfish optic nerve. J. Comp. Neurol 340, 269-280.[Medline]

Fuchs, E. and Weber, K (1994). Intermediate filaments: Structure, dynamics, function and disease. Annu. Rev. Biochem 63, 345-382.[Medline]

Fuchs, E. and Cleveland, D. W (1998). A structural scaffolding of intermediate filaments in health and disease. Science 279, 514-519.[Abstract/Free Full Text]

Glasgow, E., Druger, R. K., Fuchs, C., Levine, E. M., Giordano, S. and Schechter, N (1994). Cloning of multiple forms of goldfish vimentin: differential expression in CNS. J. Neurochem 63, 470-481.[Medline]

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Merdes, A., Gounari, F. and Georgatos, S. D (1993). The 47-kD lens-specific protein phakinin is a tailless intermediate filament protein and an assembly partner of filensin. J. Cell Biol 123, 1507-1516.[Abstract/Free Full Text]

Pruss, R. M., Mirsky, R., Raff, M. C., Thorpe, R., Dowding, A. J. and Anderton, B. H (1981). All classes of intermediate filaments share acommon antigenic determinant defined by a monoclonal antibody. Cell 27, 419-428.[Medline]

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Riemer, D., Dodemont, H. and Weber, K (1991). Cloning of the non-neuronal intermediate filament protein of the gastropod Aplysia californica ; identification of an amino acid residue essential for the IFA epitope. Eur. J. Cell Biol 56, 351-357.[Medline]

Riemer, D., Dodemont, H. and Weber, K (1992). Analysis of the cDNA and gene encoding a cytoplasmic intermediate filament (IF) protein from the cephalochordate Branchiostoma lanceolatum ; implications for the evolution of the IF protein family. Eur. J. Cell Biol 58, 128-135.[Medline]

Riemer, D., Stuurman, N., Berrios, M., Hunter, C., Fisher, P. A. and Weber, K (1995). Expression of Drosophila lamin C is developmentally regulated: analogies with vertebrate A-type lamins. J. Cell Sci 108, 3189-3198.[Abstract]

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Tomarev, S. I., Zinovievam R. D. and Piatigorsky, J (1993). Primary structure and lens-specific expression of genes for an intermediate filament protein and-tubulin in cephalopods. Biochim. Biophys. Acta 1216, 245-254.[Medline]

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Vandekerckhove, J. and Weber, K (1984). Chordate muscle actins differ distinctly from invertebrate muscle actins. The evolution of different vertebrate muscle actins. J. Mol. Biol 179, 391-413.[Medline]

Way, J., Hellmich, M. R., Jaffe, H., Szaro, B., Pant, H. C., Gainer, H. and Battey, J (1992). A high-molecular-weight squid neurofilament protein contains a lamin-like rod domain and a tail domain with Lys-Ser-Pro repeats. Proc. Nat. Acad. Sci. USA 89, 6963-6967.[Abstract/Free Full Text]

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