Akiyama, S. K., Nagata, K. and Yamada, K. M (1990). Cell surface receptors for extracellular matrix components. Biochim. Biophys. Acta 1031, 91-110.[Medline]
Albelda, S. M., Mette, S. A., Elder, D. E., Stewart, R., Damjanovich, L., Herlyn, M. and Buck, C. A (1990). Integrin distribution in malignant melanoma: association of the beta 3 subunit with tumor progression. Cancer Res 50, 6757-6764.[Abstract/Free Full Text]
Barletta, E., Bremer, E. G. and Culp, L. A (1991). Neurite outgrowth in dorsal root neuronal hybrid clones modulated by ganglioside GM1 and disintegrins. Exp. Cell Res 193, 101-111.[Medline]
Barnes, D. and Sato, G (1980). Methods for growth of cultured cells in serum-free medium. Anal. Biochem 102, 255-270.[Medline]
Baron, M. H. and Maniatis, T (1986). Rapid reprogramming of globin gene expression in transient heterokaryons. Cell 46, 591-602.[Medline]
Bergman, M. and Ringertz, N (1990). Gene expression pattern of chicken erythrocyte nuclei in heterokaryons. J. Cell Sci 97, 167-175.[Abstract/Free Full Text]
Birk, D. E. and Trelstad, R. L (1985). Fibroblasts create compartments in the extracellular space where collagen polymerizes into fibrils and fibrils associate into bundles. Ann. N. Y. Acad. Sci 460, 258-266.[Abstract]
Blau, H. M (1988). Hierarchies of regulatory genes may specify mammalian development. Cell 53, 673-674.[Medline]
Brennan, M. J., Oldberg, A., Pierschbacher, M. D. and Ruoslahti, E (1984). Chondroitin/dermatan sulfate proteoglycan in human fetal membranes. Demonstration of an antigenically similar proteoglycan in fibroblasts. J. Biol. Chem 259, 13-.
C\232ster, L., Carlstedt, I., Kendall, S., Malmstr\232m, A., Schmidtchen, A. and Fransson, L. A (1986). Structure of proteoheparan sulfates from fibroblasts. Confluent and proliferating fibroblasts produce at least three types of proteoheparan sulfates with functionally different core proteins. J. Biol. Chem 261, 12-.
De Luca, M., Tamura, R. N., Kajiji, S., Bondanza, S., Rossino, P., Cancedda, R., Marchisio, P. C. and Quaranta, V (1990). Polarized integrin mediates human keratinocyte adhesion to basal lamina. Proc. Nat. Acad. Sci. USA 87, 6888-6892.[Abstract/Free Full Text]
Durkin, M. E., Carlin, B. E., Vergnes, J., Bartos, B., Merlie, J. and Chung, A. E (1987). Carboxyl-terminal sequence of entactin deduced from a cDNA clone. Proc. Nat. Acad. Sci. USA 84, 1570-1574.[Abstract/Free Full Text]
Edidin, M., Wei, T. and Gotlib, L (1982). Diffusion rates of cell surface antigens of mouse-human heterokaryons. III. Regulation of lateral diffusion rates by calcium ions. J. Cell Biol 95, 453-462.[Abstract/Free Full Text]
Engvall, E., Krusius, T., Wewer, U. and Ruoslahti, E (1983). Laminin from rat yolk sac tumor: isolation, partial characterization, and comparison with mouse laminin. Arch. Biochem. Biophys 222, 649-656.[Medline]
Fleischmajer, R., MacDonald, E. D., Perlish, J. S., Burgeson, R. E. and Fisher, L. W (1990). Dermal collagen fibrils are hybrids of type I and type III collagen molecules. J. Struct. Biol 105, 162-169.[Medline]
Hedman, K., Kurkinen, M., Vaheri, A., Johansson, S. and H\232\232k, M (1979). Isolation of the pericellular matrix of human fibroblast cultures. J. Cell Biol 81, 83-91.[Abstract/Free Full Text]
Heremans, A., van der Schueren, B., de Cock, B., Paulsson, M., Cassiman, J. J., van den Berghe, H. and David, G (1989). Matrix-associated heparan sulfate proteoglycan: core protein-specific monoclonal antibodies decorate the pericellular matrix of connective tissue cells and the stromal side of basement membranes. J. Cell Biol 109, 3199-3211.[Abstract/Free Full Text]
Kato, M., Koike, Y., Suzuki, S. and Kimata, K (1988). Basement membrane proteoglycan in various tissues: characterization using monoclonal antibodies to the Engelbreth-Holm-Swarm mouse tumor low density heparan sulfate proteoglycan. J. Cell Biol 106, 2203-2210.[Abstract/Free Full Text]
Klein, D. J., Brown, D. M., Oegema, T. R., Brenchley, P. E., Anderson, J. C., Dickinson, M. A., Horigan, E. A. and Hassell, J. R (1988). Glomerular basement membrane proteoglycans are derived from a large precursor. J. Cell Biol 106, 963-970.[Abstract/Free Full Text]
Kleinman, H. K., McGarvey, M. L., Hassell, J. R., Star, V. L., Cannon, F. B., Laurie, G. W. and Martin, G. R (1986). Basement membrane complexes with biological activity. Biochemistry 25, 312-318.[Medline]
Laurila, P (1981). Loss of pericellular fibronectin matrix from68heterokaryons of normal human fibroblasts and epithelial cells. Exp. Cell Res 135, 21-29.[Medline]
Laurila, P. and Stenman, S (1982). Expression of fibronectin matrix in cybrids of fibroblasts and epithelial cells. Exp. Cell Res 142, 15-23.[Medline]
Laurila, P., Virtanen, I., Lehto, V. P., Vartio, T. and Stenman, S (1982). Expression and distribution of vimentin and keratin filaments in heterokaryons of human fibroblasts and amnion epithelial cells. J. Cell Biol 94, 308-315.[Abstract/Free Full Text]
Laurila, P., Virtanen, I., Wartiovaara, J. and Stenman, S (1978). Fluorescent antibodies and lectins stain intracellular structures in fixed cells treated with nonionic detergent. J. Histochem. Cytochem 26, 251-257.[Abstract]
Laurila, P., Wartiovaara, J. and Stenman, S (1979). Fibronectin expression is determined by the genotype of the transformed parental cells in heterokaryons between normal and transformed fibroblasts. J. Cell Biol 80, 118-127.[Abstract/Free Full Text]
Lehman, J. M., Speers, W. C., Schwartzendruber, D. E. and Pierce, G. B (1974). Neoplastic differentiation: characteristics of cell lines derived from a murine teratocarcinoma. J. Cell. Physiol 84, 13-27.[Medline]
Leivo, I (1983). Structure and composition of early basement membranes: studies with early embryos and teratocarcinoma cells. Med. Biol 61, 1-30.[Medline]
Leivo, I., Alitalo, K., Risteli, L., Vaheri, A., Timpl, R. and Wartiovaara, J (1982). Basal lamina glycoproteins laminin and type IV collagen are assembled into a fine-fibered matrix in cultures of a teratocarcinoma-derived endodermal cell line. Exp. Cell Res 137, 15-23.[Medline]
Leivo, I., Hedman, K., Vartio, T. and Wartiovaara, J (1986). Basement membrane matrix in vitro: focal binding of exogenous fibronectin to the matrix of teratocarcinoma-derived endodermal cells. Cell Differ 19, 195-206.[Medline]
Martinez-Hernandez, A. and Amenta, P. S (1983). The basement membrane in pathology. Lab. Invest 48, 656-677.[Medline]
Neff, J. M. and Enders, J. F (1968). Poliovirus replication and cytopathogenicity in monolayer hamster cell cultures fused with beta propiolactone-inactivated Sendai virus. Proc. Soc. Exp. Biol. Med 127, 260-267.[Medline]
Norum, R. A. and Migeon, B. R (1974). Non-random loss of human markers from man-mouse somatic cell hybrids. Nature 251, 72-74.[Medline]
Paulsson, M., Deutzmann, R., Dziadek, M., Nowack, H., Timpl, R., Weber, S. and Engel, J (1986). Purification and structural characterization of intact and fragmented nidogen obtained from a tumor basement membrane. Eur. J. Biochem 156, 467-478.[Medline]
Pavlath, G. K. and Blau, H. M (1986). Expression of muscle genes in heterokaryons depends on gene dosage. J. Cell Biol 102, 124-130.[Abstract/Free Full Text]
Roman, J., LaChance, R. M., Broekelmann, T. J., Kennedy, C. J., Wayner, E. A., Carter, W. G. and McDonald, J. A (1989). The fibronectin receptor is organized by extracellular matrix fibronectin:implications for oncogenic transformation and for cell recognition of fibronectin matrices. J. Cell Biol 108, 2529-2543.[Abstract/Free Full Text]
Ruoslahti, E., Hayman, E. G., Pierschbacher, M. and Engvall, E (1982). Fibronectin: purification, immunochemical properties, and biological activities. Methods Enzymol 82, 803-831.
Russell, W. C., Newman, C. and Williamson, D. H (1975). A simple cytochemical technique for demonstration of DNA in cells infected with mycoplasmas and viruses. Nature 253, 461-462.[Medline]
Sakashita, S., Engvall, E. and Ruoslahti, E (1980). Basement membrane glycoprotein laminin binds to heparin. FEBS Lett 116, 243-246.[Medline]
Sonnenberg, A., Linders, C. J., Daams, J. H. and Kennel, S. J (1990). The alpha 6 beta 1 (VLA-6) and alpha 6 beta 4 protein complexes: tissue distribution and biochemical properties. J. Cell Sci 96, 207-217.[Abstract/Free Full Text]
Soroka, C. J. and Farquhar, M. G (1991). Characterization of a novel heparan sulfate proteoglycan found in the extracellular matrix of liver sinusoids and basement membranes. J. Cell Biol 113, 1231-1241.[Abstract/Free Full Text]
Timpl, R (1989). Structure and biological activity of basement membrane proteins. Eur. J. Biochem 180, 487-502.[Medline]
Timpl, R., Rohde, H., Robey, P. G., Rennard, S. I., Foidart, J. M. and Martin, G. R (1979). Laminin- a glycoprotein from basement membranes. J. Biol. Chem 254, 9933-9937.[Abstract/Free Full Text]
Timpl, R., Wiedemann, H., van Delden, V., Furthmayr, H. and Kuhn, K (1981). A network model for the organization of type IV collagen molecules in basement membranes. Eur. J. Biochem 120, 203-211.[Medline]
Tryggvason, K., Pihlajaniemi, T. and Salo, T (1984). Studies on the molecular composition and degradation of type IV procollagen. Ciba Found. Symp 108, 117-129.[Medline]
Veomett, G., Prescott, D. M., Shay, J. and Porter, K. R (1974). Reconstruction of mammalian cells from nuclear and cytoplasmic components separated by treatment with cytochalasin B. Proc. Nat. Acad. Sci. USA 71, 1999-2002.[Abstract/Free Full Text]
Voss, B., Gl\232ssl, J., Cully, Z. and Kresse, H (1986). Immunocytochemical investigation on the distribution of small chondroitin sulfate-dermatan sulfate proteoglycan in the human. J. Histochem. Cytochem 34, 1013-1019.[Abstract]
Vracko, R (1974). Basal lamina scaffold-anatomy and significance for maintenance of orderly tissue structure. Amer. J. Pathol 77, 314-346.[Medline]
Watt, F. M (1991). Cell culture models of differentiation. FASEB J 5, 287-294.[Abstract]
Weiss, M. C. and Green, H (1967). Human-mouse hybrid cell lines containing partial complements of human chromosomes and functioning human genes. Proc. Nat. Acad. Sci. USA 58, 1104-1111.[Free Full Text]
