Nissley et al, Growth & Differentiation of Cells in Defined Environment, (1985), pp. 337-344. |
Moses et al, Growth & Differentiation of Cells in Defined Environment, (1985), pp. 373-378. |
Booyens et al, Prostaglandins Leukot. Med., Jul. 1984, 15 (1) pp. 15-33. (Biosis Abstract #84298492). |
The Merck Index, 10.sup.th edition, 1983, p. 1172. |
Tsao et al. J. Cellular Physiol. 110: 219-229, 1982 Clonal growth of normal human epid. keratinocyt. in def. med. |
Boyce & Ham, J. Invest. Dermatol. 81:33-40, 1983 Ca-Reg. different. of norm. human epid. kerat. in chem & serum def. med. |
Wille et al J. Cellular Physiol. 121:31-44, 1984 Integr. Contr. of grow. & diff. of normal human prokeratin. in serum-free med: clon. anal., growth kin. & cell cycle studies. |
Pittelkow et al. J. Invest. Dermatol. 86:410-417, 1986 Two funct. dist: classes of growth arrest states in human proker. that reg. clonogenic potential. |
Shipley, et al. Cancer Res. 46:2068-2071, 1986 Reversible inhibition of normal human prokeratin. prolif. by beta-type TGF inhibitor in serum-free medium. |
Coffey et al. Nature 328:817-820, 1987 production and autoinduction of TGF-.alpha. in human keratino. |
Nanchahal et al Lancet II(8656):191-193, 1989 Cultured composite skin grafts: Biolog. equiv. permitting massive expansion. |
Savage & Cohen J. Biol. Chem 247:7609-7611, 1972 EGF & a new derivative. Rapid isolation. |
Wilke et al Amer. J. Pathol. 131:171-181, 1988 Biolog. Mach. for the Regulation of normal human keratinocyte prolif: Effect of Ca.sup.21 on G, Cell Arrest. |
Peehl & Ham In vitro 16:516-525, 1980 Growth & differentiation of human keratinocytes without a feeder layer or conditioned medium. |