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Acland, P., Dixon. M., Peters, G. and Dickson, C (1990). Subcellular fate of the int-2 oncoprotein is determined by choice of initiation codon. Nature 343, 662-665.[Medline]

Assoian, R. K., Komoriya, A., Meyers, C. A., Miller, D. M. and Sporn, M. B (1983). Transforming growth factor-in human platelets: identification of a major storage site, purification, and characterization. J. Biol. Chem 258, 7155-7160.[Abstract/Free Full Text]

Baird, A. and Durkin, T (1986). Inhibition of endothelial cell proliferation by typetransforming growth factor: interactions with acidic and basic fibroblast factors. Biochem. Biophys. Res. Commun 138, 476-482.[Medline]

Delli-Bovi, P., Curatola, A. M., Newman, K. A., Sato, Y., Mosetelli, D., Hewick, R. M., Rifkin, D. G. and Basilico, C (1988). Processing, secretion and biological properties of a novel growth factor of the fibroblast growth factor family with oncogenic potential. Mol. Cell Biol 8, 2933-2941.[Abstract/Free Full Text]

Dixon, M., Deed, R., Acland, P., Moorg, R., Whyte, A., Peters, G. and Dickson, C (1989). Detection and characterization of the fibroblast growth factor-related oncoprotein int-2. Mol. Cell Biol 9, 4896-4902.[Abstract/Free Full Text]

Elford, P. R. and Lamberts, S. W. J (1990). Contrasting modulation by transforming growth factor--1 of insulin-like growth factor-I production in osteoblasts and chondrocytes. Endocrinology 127, 1635-1639.[Abstract]

Fitzpatrick, D. R., Denhez, F., Kondaiah, P. and Akhurst, R. J (1990). Differential expression of TGF-isoforms in murine palatogenesis. Development 109, 585-595.[Abstract]

Flanders, K. C., Roberts, A. B., Ling, N., Fleurdelys, B. E. and Sporn, M. B (1988). Antibodies to peptide determinants in transforming growth factor beta and their applications. Biochemistry 27, 739-746.[Medline]

Folkman, J. and Klagsbrun, M (1987). Angiogenic Factors. Science 235, 442-447.[Abstract/Free Full Text]

Frenz, D. A., Jaikaria, N. S. and Newman, S. A (1989). The mechanism of precartilage mesenchymal condensation: a major role for interaction of the cell surface with the amino-terminal heparin binding domain of fibronectin. Dev. Biol 36, 97-103.

Frenz, D. A. and Van De Water, T. R (1991). Epithelial control of periotic mesenchyme chondrogenesis. Dev. Biol 144, 38-46.[Medline]

Frenz, D. A., Galinovic-Schwartz, V., Flanders, K. C. and Van De Water, T. R (1992). TGF-1is an epithelial-derived signal peptide that influences otic capsule formation. Dev. Biol 153, 324-336.[Medline]

Globus, R. K., Patterson-Buckendahl, P. and Gospodarowicz, D (1988). Regulation of bovine bone cell proliferation by fibroblast growth factor and transforming growth factor. Endocrinology 123, 98-105.[Abstract]

Gordon, P. B., Leitt N. A., Jenkins, C. S. and Hatcher, V. B (1984). Theeffect of the extracellular matrix on the detachment of human endothelial cells. J.Cell Physiol 121, 467-475.[Medline]

Gordon, P. B., Choi, H. U., Conn, G., Ahmed, A., Ehourmann, B., Rosenberg, L. and Hatcher, V (1989). Extracellular matrix heparin sulfate proteoglycans modulate the mitogenic capacity of acidic fibroblast growth factor. J. Cell.Physiol 140, 584-592.[Medline]

Gospodarowicz, D., Ferrara, L., Schweigerer, L. and Neufeld, F (1987). Structural characterization and biological functions of fibroblast growth factors. Endocr. Rev 8, 95-114.[Medline]

Hassell, J. R. and Horigan, F. A (1982). Chondrogenesis: A model developmental system for measuring teratogenic potential of compounds. Teratog. Carcinog. Mutagen 2, 325-331.[Medline]

Hayamizu, T. F., Sessions, S. K., Wanck, N. and Bryant, S. V (1991). Effects of localized application of transforming growth factor beta1on developing chick limbs. Dev. Biol 145, 164-173.[Medline]

Heine, U., Munoz, E. F., Flanders, K. C., Ellingsworth, L. R., Lam, H. Y., Thompson, N. L., Roberts, A. B. and Sporn, M. B (1987). Role of transforming growth factor-beta in the development of the mouse embryo. J. Cell Biol 105, 2861-2876.[Abstract/Free Full Text]

Ignotz, R. A., Endo, E. and Massague, J (1986). Regulation of fibronectin and type I collagen mRNA levels by transforming growth factor-. J. Biol. Chem 262, 6443-6446.[Abstract/Free Full Text]

Inoue, H., Kato, Y., Iwamoto, M., Hiraki, Y., Sakuda, M. and Suzuki, F (1989). Stimulation of cartilage-matrix proteoglycan synthesis by morphologically transformed chondrocytes grown in the presence of fibroblast growth factor and transforming growth factor-beta. J. Cell Physiol 138, 329-337.[Medline]

Kimelman, D. and Kirschner, N (1987). Synergistic induction of mesoderm by FGF and TGF-and the identification of FGF in the early embryo. Cell 51, 869-871.[Medline]

Kulyk, W. M., Rodgers, B. J., Greer, K., and Kosher, R. A (1989). Promotion of embryonic chick limb cartilage differentiation by transforming growth factor-beta. Dev. Biol 135, 424-430.[Medline]

Kurokawa, M., Doctrow, S. R., and Klagsburn, M (1989). Neutralizing antibodies inhibit the binding of basic fibroblast growth factor to its receptor but not to heparin. J. Biol. Chem 264, 7686-7691.[Abstract/Free Full Text]

LaBarca, C. and Paigen, K (1980). A simple, rapid, and sensitive DNA assay procedure. Analyt. Biochem 102, 344-352.[Medline]

Lefebvre, P. P., Staecker, H., Weber, T., Van De Water, T. R. and Moonen, G (1991). TGF-1modulates bFGF receptor message expression in cultured adult mouse auditory neurons. NeuroReport 2, 305-308.[Medline]

Lehnert, S. A. and Akhurst, R. J (1988). Embryonic expression pattern of TGF beta type-1 RNA suggests both paracrine and autocrine mechanisms of action. Development 04, 263-273.

Leonard, C. M. Fuld, H. M., Frenz, D. A., Downie, S. A., Massague, J. and Newman, S. A (1991). Role of transforming growth factor-in chondrogenic pattern formation in the embryonic limb: stimulation of mesenchymal condensation and fibronectin gene expression by exogenous TGF- and evidence for endogenous TGF--like activity. Dev. Biol 145, 99-109.[Medline]

Mansour, S. L., Goddard, J. M. and Capecchi, M (1993). Mice homozygous for a targeted disruption of the proto-oncogene int-2 have developmental defects in the tail and inner ear. Development 117, 13-28.[Abstract]

Massague, J (1987). The TGF-family of growth and differentiation factors. Cell 49, 437-438.[Medline]

Niswander, L. and Martin, G (1993). FGF-4 and BMP-2 have opposite effects on limb growth. Nature 361, 68-71.[Medline]

Noda, M. and Vogel, R (1989). Fibroblast growth factor enhances type1transforming growth factor gene expression in osteoblast-like cells. J. Cell Biol 109, 2529-2535.[Abstract/Free Full Text]

Pelton, R. W., Dickenson, M. E., Moses, H. L. and Hogan, B. L (1990). In situ hybridization analysis of TGFB3 RNA expression during mouse development: comparative studies with TGF1and 2. Development 110, 609-620.[Abstract/Free Full Text]

Pelton, R. W., Hogan, B. L., Miller, D. A. and Moses, H. L (1990). Differential expression of genes encoding TGFs1, 2, and3during murine palatal formation. Dev. Biol 141, 456-460.[Medline]

Puchtler, H., Waldrop, F. S., Meloan, S. N., Terry, M. S. and Conner, H. M (1970). Methacarn (methanol-Carnoy) fixation: Practical and theoretical considerations. Histochemie 97, 116-.

Rappolee, D. A., Brenner, C. A., Schultz, R., Mark, D. and Webb, Z (1988). Developmental expression of PDGF, TGF-alpha, and TGF-beta in genes in preimplantation mouse embryos. Science 241, 1823-1825.[Abstract/Free Full Text]

Represa, J., Leon, Y., Miner, C. and Giraldez, F (1991). The int-2 proto-oncogene is responsible for induction of the inner ear. Nature 353, 561-563.[Medline]

Saksela, O., Moscatelli, D. and Rifkin, D. B (1987). The opposing effects of basic fibroblast growth factor and transforming growth factor beta on the regulation of plasminogen activator activity in capillary endothelial cells. J. Cell Biol 105, 957-963.[Abstract/Free Full Text]

Schofield, J. M. and Wolpert, L (1990). Effects of TGF-1, TGF- 2and bFGF on chick cartilage and muscle cell differentiation. Exp. Cell Res 191, 144-148.[Medline]

Schweigerer, L., Neufeld, G., Friedman, J., Abraham, J. A., Fiddes, J. C. and Gospodarowicz, D (1987). Capillary endothelial cells express a basic fibroblast growth factor, a mitogen that promotes their own growth. Nature 325, 257-260.[Medline]

Slack, J. M. W., Darlington, B. G., Heath, J. K. and Godsave, S. G (1987). Mesoderm induction in early Xenopus embryos by heparin-binding growth factors. Nature 326, 197-200.[Medline]

Slager, H. G., Lawson, K. A., van De Eijnder-van Raaij, A. J. M., De Laat, S. W. and Mummery, C. L (1991). Differential localization of TGF-2in mouse preimplantation and early postimplantation development. Dev. Biol 145, 205-218.

Stocker, J. M., Sherman, L., Rees, S. and Ciment, G (1991). Basic FGF and TGF-1influence commitment to melanogenesis in neural crest-derived cells of avian embryos. Development 111, 635-645.[Abstract]

Wasteson, A., Uthne, K. and Westermark, B (1973). A novel assay for the biosynthesis of sulphated polysaccharide and its application to studies on the effects of somatomedin on cultured cells. Biochem J 136, 069-1074.

Weeks, D. L. and Melton, D. A (1987). A maternal mRNA localized to the vegetal hemisphere in Xenopus eggs codes for a growth factor related to TGF. Cell 51, 861-867.[Medline]

Wilkinson, D. G., Bratt, S. and McMahon, A. P (1989). Expression pattern of the FGF-related protooncogene int-2 suggests multiple roles in fetal development. Development 105, 131-136.[Abstract]

Zhan, X., Bates, B., Hu, X. and Goldfarb, M (1988). The human FGF-5 oncogene encodes a novel protein related to fibroblast growth factors. Mol. Cell. Biol 8, 3487-3495.[Abstract/Free Full Text]


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