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  Salivary glands : development, adaptations, and disease

  volume editors, A.S. Tucker, I. Miletich.

  Contents:
  Introduction to salivary glands : structure, function, and embryonic development / Miletich, I.
  Salivary gland adaptations : modification of the glands for novel uses / Tucker, A.S.
  Genetic regulation of salivary gland development in drosophila melanogaster / Pirraglia, C. ; Myat, M.M.
  Extracellular matrix and growth factors in salivary gland development / Sequeira, S.J. ; Larsen, M. ; DeVine, T.
  Lumen formation in salivary gland development / Wells, K.L. ; Patel, N.
  Epithelial stem/progenitor cells in the embryonic mouse submandibular gland / Lombaert, I.M.A. ; Hoffman, M.P.
  Salivary gland regeneration / Carpenter, G.H. ; Cotroneo, E.
  Salivary gland disease / Thomas, B.L. ; Brown, J.E. ; McGurk, M.

  Digital Access Karger 2010
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• Article

  Growth requirements of human mammary epithelial cells in culture.

  Taylor-Papadimitriou J, Shearer M, Stoker MG.

  Int J Cancer. 1977 Dec 15;20(6):903-8.

  Colony-forming epithelial cells can be separated from the non-dividing "foam cells" in human milk by differential adhesion to glass and freezing. The growth of such partially purified mammary epithelial cells is stimulated by co-culture with non-dividing feeder cells. Foam cells, mitomycin-treated mouse fibroblast lines and human mammary fibroblasts and calf lens epithelial cells are all effective in promoting mammary epithelial cell growth. Contact between epithelial cells and feeders is not required for the growth-promoting effect. The mitogenic effect of epidermal growth factor on mammary epithelial cells also requires feeder cell activity.

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  PubMed