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Bornemann, A. and Schmalbruch, H (1994). Immunocytochemistry of M-cadherin in mature and regenerating rat muscle. Anat. Rec 239, 119-125.[Medline]

Cifuentes-Diaz, C., Nicolet, M., Goudou, D., Rieger, F. and Mege, R. M (1994). N-cadherin expression in developing, adult and denervated chicken neuromuscular system: accumulations at both the neuromuscular junction and the node of Ranvier. Development 120, 1-11.[Abstract]

Dickson, G., Peck, D., Moore, S. E., Barton, C. H. and Walsh, F. S (1990). Enhanced myogenesis in NCAM transfected mouse myoblasts. Nature 344, 348-351.[Medline]

Doherty, P., Rowett, L. H., Moore, S. E., Mann, D. and Walsh, F. S (1991). Neurite outgrowth in response to transfected NCAM and N-cadherin reveals fundamental differences in neuronal responsiveness to CAMs. Neuron 6, 247-258.[Medline]

Donalies, M., Cramer, M., Ringwald, M., and Starzinski-Powitz, A (1991). Expression of M-cadherin, a member of the cadherin multigene family, correlates with differentiation of skeletal muscle cells. Proc. Nat. Acad. Sci. USA 88, 8024-8028.[Abstract/Free Full Text]

Endo, T. and Nadal-Ginard, B (1987). Three types of muscle-specific gene expression in fusion-blocked rat skeletal muscle cells: translational control in EGTA-treated cells. Cell 49, 515-.[Medline]

Hahn, C. G. and Covault, J (1992). Neural regulation of N-cadherin gene expression in developing and adult skeletal muscle. J. Neurosci 12, 4677-4687.[Abstract]

H\212rtner, T., Kirschbaum, B. J. and Pette, D (1989). The multiplicity of troponin T isoforms. Distribution in normal rabbit muscles and effects of chronic stimulation. Eur. J. Biochem 179, 31-38.[Medline]

Hinck, L., N\212thke, I. S., Papkoff, J. and Nelson, W. J (1994). Dynamics of cadherin/catenin complex formation: novel protein interactions and pathways of complex assembly. J. Cell Biol 125, 1327-1340.[Abstract/Free Full Text]

Hirano, S., Nose, A., Hatta, K., Kawakami, A. and Takeichi, M (1987). Calcium-dependent cell-cell adhesion molecules (cadherins): subclass specificities and possible involvement of actin bundles. J. Cell Biol 105, 2501-2510.[Abstract/Free Full Text]

Irintchev, A., Zeschnigk, M., Starzinski-Powitz, A. and Wernig, A (1994). Expression pattern of M-cadherin in normal, denervated and regenerating mouse muscles. Dev. Dynam 199, 326-337.[Medline]

Kemler, R (1993). From cadherins to catenins: cytoplasmic protein interactions and regulation of cell adhesion. Trends Genet 9, 317-321.[Medline]

Knudsen, K (1990). Cell adhesion molecules in myogenesis. Curr. Opin. Cell Biol 2, 902-906.[Medline]

Knudsen, K. A., Myers, L. and McElwee, S. A (1990). A role for the Ca2+-dependent adhesion molecule, N-cadherin, in myoblast interaction during myogenesis. Exp. Cell Res 188, 175-184.[Medline]

Knudsen, K. A., McElwee, S. A. and Myers, L (1990). A role for neural cell adhesion molecule, NCAM, in myoblast interaction during myogenesis. Dev. Biol 138, 159-168.[Medline]

McNeill, H., Ozawa, M., Kemler, R. and Nelson, W. J (1990). Novel function of the cell adhesion molecule uvomorulin as an inducer of cell surface polarity. Cell 62, 309-316.[Medline]

Mege, R. M., Goudou, D., Diaz, C., Nicolet, M., Garcia, L., Geraud, G. and Rieger, F (1992). N-cadherin and NCAM in myoblast fusion: Compared localisation and effect of blockade by peptides and antibodies. J. Cell Sci 103, 897-906.[Abstract/Free Full Text]

Miyatani, S., Shimamura, K., Hatta, M., Nagafuchi, A., Nose, A., Matsunaga, M., Hatta, K. and Takeichi, M (1989). Neural cadherin: role in selective cell-cell adhesion. Science 245, 631-635.[Abstract/Free Full Text]

Moore, R. and Walsh, F. S (1993). The cell adhesion molecule M-cadherin is specifically expressed in developing and regenerating, but not denervated skeletal muscle. Development 117, 1409-1420.[Abstract]

Munro, S. and Pelham, H. R (1987). A C-terminal signal prevents secretion of luminal ER proteins. Cell 48, 899-907.[Medline]

Muller, G., Ruppert, S., Schmid, E. and Schutz, G (1988). Functional analysis of alternatively spliced tyrosine transcripts. EMBO J 7, 2723-2730.[Medline]

Nadal-Ginard, B (1978). Commitment, fusion, and biochemical differentiation of a myogenic line in the absence of DNA synthesis. Cell 15, 855-864.[Medline]

Nose, A., Tsuji, K. and Takeichi, M (1990). Localization of specificity determining sites in cadherin cell adhesion molecules. Cell 61, 147-155.[Medline]

Ozawa, M., Engel J. and Kemler, R (1990). Single amino acid substitutions in one Ca2+binding site of uvomorulin abolish the adhesive function. Cell 63, 1033-1038.[Medline]

Ozawa, M. and Kemler, R (1992). Molecular organisation of the uvomorulin-catenin complex. J. Cell Biol 116, 989-996.[Abstract/Free Full Text]

Peck, D. and Walsh, R. S (1993). Differential effects of over-expressed neural cell adhesion isoforms on myoblast fusion. J. Cell Biol 123, 1587-1595.[Abstract/Free Full Text]

Pouliot, Y., Holland, P. C. and Blaschuk, O. W (1990). Developmental regulation of a cadherin during the differentiation of skeletal myoblasts. Dev. Biol 141, 292-298.[Medline]

Pouliot, Y., Gravel, M. and Holland, P. C (1994). Developmental regulation of M-cadherin in the terminal differentiation of skeletal myoblasts. Dev. Dynam 200, 305-312.[Medline]

Rose, O., Rohwedel, J., Reinhardt, S., Bachmann, M., Cramer, M., Rotter, M., Wobus, A. and Starzinski-Powitz, A (1994). Expression of M-cadherin protein in myogenic cells during prenatal mouse development and differentiation of embryonic stem cell in culture. Dev. Dynam 201, 245-259.[Medline]

Rosen, G. D., Sanes, J. R., LaChance, R., Cunningham, J. M., Roman, J. and Dean, D. C (1992). Roles for the integrin VLA-4 and its counter receptor VCAM-1 in myogenesis. Cell 69, 1107-1119.[Medline]

Soler, A. P. and Knudsen, K. A (1994). N-cadherin involvement in cardiac myocyte interaction and myofibrillogenesis. Dev. Biol 162, 9-17.[Medline]

Southern, P. J. and Berg, P (1982). Transformation of mammalian cells to antibiotic resistance with a bacterial gene under control of the SV40 early region promoter. J. Mol. Appl. Genet 1, 327-341.[Medline]

Stockdale, F. E (1992). Myogenic cell lineages. Dev. Biol 154, 284-298.[Medline]

Takeichi, M (1988). The cadherins: Cell-cell adhesion molecules controlling animal morphogenesis. Development 102, 639-655.[Abstract/Free Full Text]

Takeichi, M (1991). Cadherin cell adhesion receptors as a morphogenetic regulator. Science 251, 1451-1455.[Abstract/Free Full Text]

Wachtler, F. and Christ, B (1992). The basic embryology of skeletal muscle formation in vertebrates: the avian model. Dev. Biol 3, 217-227.

Wade, R., Sutherland, C., Gahlmann, R., Kedes, L., Hardeman, E. and Gunning, P (1990). Regulation of contractile protein gene family mRNA pool sizes during myogenesis. Dev. Biol 142, 270-282.[Medline]

Yaffe, D (1968). Retention of differentiation potentialities during prolonged cultivation of myogenic cells. Proc. Nat. Acad. Sci. USA 61, 477-483.[Free Full Text]
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