Abstracts
Eighty-three abstracts published but not listed here.
Publications
LePage, G. A., J. F. Morgan, and M. E. Campbell. 1946. Production and purification of penicillinase. J. Biol. Chem. 166: 465–472.
Morgan, J. F., and M. E. Campbell. 1947. A rapid method for the production and isolation of penicillinase. J. Biol. Chem. 169: 337–343.
Morgan, J. F., and R. C. Parker. 1949. Use of antitryptic agents in tissue culture. I. Crude soybean trypsin-inhibitor. Proc. Soc. Exp. Biol. Med. 71: 665–668.
Parker, R. C., and J. F. Morgan. 1950. Use of antitryptic agents in tissue culture. II. Egg-white antitrypsin. Proc. Soc. Exp. Biol. Med. 74: 344–346.
Morgan, J. F., H. J. Morton, and R. C. Parker. 1950. Nutrition of animal cells in tissue culture. I. Initial studies on a synthetic medium. Proc. Soc. Exp. Biol. Med. 73: 1–8.
Morton, H. J., J. F. Morgan, and R. C. Parker. 1950. Nutrition of animal cells in tissue culture. II. Use of tweens in synthetic feeding mixtures. Proc. Soc. Exp. Biol. Med. 74: 22–26.
Parker, R. C., J. F. Morgan, and H. J. Morton. 1950. Nutrition of animal cells in tissue culture. III. Effect of ethyl alcohol on cell survival and multiplication. J. Cell. Comp. Physiol. 36: 411–420.
Morgan, J. F. 1950. Development of synthetic media. Chapter 8.. In: R. C. Parker (Ed.),Methods of Tissue Culture. Paul B. Hoeber, Inc., New York, 2nd Ed., pp. 115–131.
Morgan, J. F., H. J. Morton, and R. C. Parker. 1951. Nutrition of animal cells in tissue culture. IV. Inhibition of cell activity by cobalt and the protective action of L-histidine. Growth 15: 11–22.
Morton, H. J., J. F. Morgan, and R. C. Parker. 1951. Nutrition of animal cells in tissue culture. V. Effect of initial treatment of cultures on their survival in a synthetic medium. J. Cell. Comp. Physiol. 38: 389–400.
Morgan, J. F., H. J. Morton, G. M. Healy, and R. C. Parker. 1951. Nutrition of animal cells in tissue culture. VI. Low toxicity of barium. Proc. Soc. Exp. Biol. Med. 78: 880–882.
Parker, R. C., J. F. Morgan, and H. J. Morton. 1951. Toxicity of rubber stoppers for tissue cultures. Proc. Soc. Exp. Biol. Med. 76: 444–445.
Morgan, J. F., and R. C. Parker. 1952. Interrelationships between cobalt and amino acids in tissue culture. Arch. Biochem. Biophys. 38: 267–274.
Healy, G. M., J. F. Morgan, and R. C. Parker. 1952. Trace metal content of some natural and synthetic media. J. Biol. Chem. 198: 305–312.
Burr, M. M., M. E. Campbell, J. F. Morgan, and F. P. Nagler. 1954. Studies on the propagation of influenza and mumps viruses in tissue culture with chemically-defined media. Can. J. Microbiol. 1: 158–169.
Morgan, J. F., and H. J. Morton. 1955. Studies on the sulfur metabolism of tissue cultivatedin vitro. I. A critical requirement for L-cystine. J. Biol. Chem. 215: 539–545.
Morgan, J. F., M. Campbell, and H. J. Morton. 1955. The nutrition of animal tissues cultivatedin vitro. I. A survey of natural materials as supplements to synthetic Medium 199. J. Natl. Cancer Inst. 16: 557–567.
Pasieka, A. E., and J. F. Morgan. 1955. The detection of homocysteine in biological systems. Biochim. Biophys. Acta 18: 236–240.
Pasieka, A. E., and J. F. Morgan. 1956. The identification of phenylalanine on paper chromatograms. Biochim. Biophys. Acta 19: 366–371.
Pasieka, A. E., H. J. Morton, and J. F. Morgan. 1956. The metabolism of animal tissues cultivatedin vitro. I. Amino acid metabolism of chick embryonic-heart fibroblasts cultivated in synthetic Medium M150. J. Natl. Cancer Inst. 16: 995–1009.
Morgan, J. F., H. J. Morton, M. E. Campbell, and L. F. Guerin. 1956. The nutrition of animal tissues cultivatedin vitro. II. A comparison of various synthetic media. J. Natl. Cancer Inst. 16: 1405–1413.
Morgan, J. F., and H. J. Morton. 1956. Studies on the sulfur metabolism of tissues cultivatedin vitro. II. Optimal specificities and interrelationships between cysteine and methionine. J. Biol. Chem. 221: 529–535.
Pasieka, A. E., and J. F. Morgan. 1956. Quantitative determination of phenylalanine on paper chromatograms. Anal. Chem. 28: 1964–1966.
Pasieka, A. E., and J. F. Morgan. 1956. Specific determination of hydroxy-L-proline in biological materials. Proc. Soc. Exp. Biol. Med. 92: 96–99.
Pasieka, A. E., and J. F. Morgan. 1956. Specific determination of proline in biological materials. Proc. Soc. Exp. Biol. Med. 93: 54–57.
Morton, H. J., A. E. Pasieka, and J. F. Morgan. 1956. The nutrition of animal tissue cultivatedin vitro. III. Use of a depletion technique for determining specific nutritional requirements. J. Biophys. Biochem. Cytol. 2: 589–597.
Morgan, J. F., L. F. Guerin, and H. J. Morton. 1956. The effect of low temperature and storage on the viability and mouse strain specificity of ascitic tumor cells. Cancer Res. 16: 907–911.
Morgan, J. F., and H. J. Morton. 1957. The nutrition of animal tissues cultivatedin vitro. IV. Amino acid requirements of chick embryonic heart fibro-blasts. J. Biophys. Biochem. Cytol. 3: 141–150.
Morgan, J. F., and H. J. Morton. 1957. Studies on the sulphur metabolism of tissues cultivatedin vitro. III. Interrelationships between cysteine, methionine, cysteamine, and cystamine. Can. J. Biochem. Physiol. 35: 785–794.
Morgan, J. F., and M. A. McCrone. 1957. A study of protein synthesis in tissue culture. J. Natl. Cancer Inst. 19: 393–407.
Morgan, J. F. 1957. Tissue culture in medical research. Univ. Ottawa Med. J. 2: 35–40.
Morgan, J. F. 1958. Tissue culture nutrition. Bacteriol. Rev. 22: 20–45.
Morton, H. J., and J. F. Morgan. 1958. Studies on the sulfur metabolism of tissues cultivatedin vitro. IV. Ergothionine, oxidized glutathione, and lanthionine. J. Biol. Chem. 231: 93–100.
Pasieka, A. E., H. J. Morton, and J. F. Morgan. 1958. The metabolism of animal tissues cultivatedin vitro. III. Amino acid metabolism of strain L cells in completely synthetic media. Can. J. Biochem. Physiol. 36: 771–782.
Morgan, J. F., H. J. Morton, and A. E. Pasieka. 1958. The arginine requirement of tissue cultures. I. Interrelationships between arginine and related compounds. J. Biol. Chem. 233: 664–667.
Pasieka, A. E., H. J. Morton, and J. F. Morgan. 1958. The metabolism of animal tissues cultivatedin vitro. II. Amino acid metabolism of chick embry-onic kidney, chick embryonic liver, and monkey kidney cortex cultures. Can. J. Biochem. Physiol. 36: 171–184.
Pasieka, A. E., and J. F. Morgan. 1959. Glutamine metabolism of normal and malignant cells cultivated in synthetic media. Nature 183: 1201–1202.
Townsend, G. F., J. F. Morgan, and B. Hazlett. 1959. Activity of 10-hydroxy-decenoic acid from royal jelly against experimental leukaemia and ascitic tumours. Nature 183: 1270–1271.
Morton, H. J., and J. F. Morgan. 1959. Studies on the dual requirement for phenylalanine and tyrosine in tissue cultures. J. Biol. Chem. 234: 2698–2701.
Morgan, J. F. 1960. Tissue culture as a tool in biochemical research. Chem. Can. 12: 23.
Pasieka, A. E., H. J. Morton, and J. F. Morgan. 1960. The metabolism of animal tissues cultivated in vitro. IV. Comparative studies on human malignant cells. Cancer Res. 20: 362–367.
Morgan, J. F., and H. J. Morton. 1960. Carbohydrate utilization by chick embryonic heart cultures. Can. J. Biochem. Physiol. 38: 69–78.
Morgan, J. F., and A. E. Pasieka. 1960. Amino acid metabolism of normal and malignant cell cultures. Can. J. Biochem. Physiol. 38: 399–408.
Morton, H. J., and J. F. Morgan. 1960. Utilization of phosphorylated compounds in tissue culture. Exp. Cell Res. 19: 623–625.
Kimm, G. E., R. H. Allen, H. J. Morton, and J. F. Morgan. 1960. Enhancement of survivalin vitro ofTreponema pallidum by addition of glucose and magnesium. J. Bacteriol. 80: 726–727.
Townsend, G. F., J. F. Morgan, S. Tolnai, B. Hazlett, H. J. Morton, and R. W. Schuel. 1960. Studies on thein vitro antitumor activity of fatty acids. I. 10-Hydroxy-2-decenoic acid from royal jelly. Cancer Res. 20: 503–510.
Morgan, J. F., S. Tolnai, and G. F. Townsend. 1960. Studies on thein vitro antitumor activity of fatty acids. II. Saturated dicarboxylic acids. Can. J. Biochem. Physiol. 38: 597–603.
Tolnai, S., and J. F. Morgan. 1961. Studies on thein vitro antitumor activity of fatty acids. III. Saturated monocarboxylic acids. Can. J. Biochem. Physiol. 39: 713–719.
Morton, H. J., and J. F. Morgan. 1961. Further studies on the dual requirement for phenylalanine and tyrosine in tissue culture. Can. J. Biochem. Physiol. 39: 925–932.
Guerin, M. M., and J. F. Morgan. 1961. Establishment of the TA3 and Ehrlich ascites tumors as permanent cell strains in tissue culture. Cancer Res. 21: 376–382.
Kimm, G. E., R. H. Allen, H. J. Morton, and J. F. Morgan. 1962. Studies on the in vitro survival of virulentTreponema pallidum. I. Methodology and basal synthetic medium. Am. J. Hyg. 75: 339–346.
Tolnai, S., R. Scantland, and J. F. Morgan. 1962. Subcellular transmissible agent from Ehrlich carcinoma cells producing ascites tumours in mice. Nature 193: 591–592.
Tolnai, S., and J. F. Morgan. 1962. Studies on the in vitro antitumor activity of fatty acids. V. Unsaturated acids. Can. J. Biochem. Physiol. 40: 869–875.
Tolnai, S., and J. F. Morgan. 1962. Studies on the in vitro antitumor activity of fatty acids. VI. Derivatives of mono-and di-carboxylic and unsaturated fatty acids. Can. J. Biochem. Physiol. 40: 1367–1373.
Morgan, J. F. 1963. Agent producing ascites tumors. In: R. W. Begg (Ed.),Proceedings of the Canadian Cancer Conference, Vol. 5. Academic Press, New York.
Tolnai, S., R. Scantland, and J. F. Morgan. 1963. A subcellular transmissible agent from Ehrlich carcinoma cells producing ascites tumors in mice. Can. Cancer Conf. 5: 175–189.
Morgan, J. F. 1963. Biochemical studies of malignant cells in tissue culture. Trans. R. Soc. Can. (Vol. I, Series IV, Section III) 403–414.
Tolnai, S., and J. F. Morgan. 1966. Studies on the in vitro antitumor activity of fatty acids. VII. Effect of amino-fatty acid salts. Can. J. Biochem. 44: 979–981.
Morgan, J. F., B. Bowman, and E. Lipinski. 1968. Studies on the cultivation of ascites tumor cells in chemically-defined media. In: H. Katsuta (Ed.),Cancer Cells in Culture. University of Tokyo Press, Tokyo, pp. 48–59.
Morgan, J. F., M. D. Heuchert, and H. D. Kirk. 1969. The effect of storage at low temperatures on the mouse strain specificity on the 6C3HED ascites tumor. Cancer Res. 29: 855–861.
Eng, C. P., and J. F. Morgan. 1969. The release of nucleic acids and protein from ascites tumor cells incubated with glycerol, dimethyl-sulfoxide, and inositol. Can. J. Biochem. 47: 871–876.
Eng, C. P., J. A. Hindmarsh, and J. F. Morgan. 1969. Antigenic relationships of various fractions of the Ehrlich ascites tumor investigated by different immunoserological methods. Can. J. Microbiol. 15: 1085–1090.
Eng, C. P., J. A. Hindmarsh, and J. F. Morgan. 1969. Heterophile antigens in Ehrlich ascites fluid. Can. J. Microbiol. 15: 1409–1413.
Morgan, J. F. 1970. Nutrition of mouse ascites tumor cells in primary culture. I. Large molecular substances and conditioned media. J. Natl. Cancer Inst. 44: 623–631.
Morgan, J. F., C. P. Eng, M. D. Heuchert, and H. D. Kirk. 1970. Loss of transplantability and induction of immunoprotection by mouse ascites tumor cells in tissue culture. Proc. Soc. Exp. Biol. Med. 134: 305–308.
Eng, C. P., and J. F. Morgan. 1970. Partial loss of antigenicity of 6C3HED ascites tumor cells after preservation over liquid nitrogen. Cryobiology 6: 302–308.
Eng, C. P., L. P. Kleine, and J. F. Morgan. 1970. Tumor-specific immunity induced by nontumorigenic 6C3HED ascites tissue culture cells. J. Natl. Cancer Inst. 45: 235–242.
Morgan, J. F., and C. P. Eng. 1970. Nutrition of mouse ascites tumor cells in primary culture. II. Specific requirement for glucose. J. Natl. Cancer Inst. 45: 869–877.
Dell'Orco, R. T., D. G. R. Blair, and J. F. Morgan. 1971. Comparative transfer RNA methylase capacity in mouse ascites tumors and in their derived tumorigenic and nontumorigenic cell cultures. Cancer Res. 31: 561–565.
Bhatnagar, M. K., and J. F. Morgan. 1971. Hexokinase activity in tumorigenic and nontumorigenic cell cultures derived from mouse ascites tumor cells. J. Natl. Cancer Inst. 47: 15–23.
Blair, D. G. R., C. P. Eng, and J. F. Morgan. 1971. Nucleic acids and acid-soluble derivatives released by isotonic solutions of cryoprotective agents from Ehrlich-Lettre ascites carcinoma and mouse spleen cells. Eur. J. Cancer 7: 397–410.
Banks, W. J., Jr., M. K. Bhatnagar, and J. F. Morgan. 1971. Comparative ultrastructural studies of cells from tumorigenic and nontumorigenic cultures derived from the 6C3HED mouse ascites tumor. Eur. J. Cancer 7: 433–439.
Blair, D. G. R., S. J. Peesker, M. Dommasch, M. D. Heuchert, and J. F. Morgan. 1972. Adenine phosphoribosyltransferase activities of mouse ascites tumors and derived tumorigenic tissue cultures. J. Natl. Cancer Inst. 48: 763–770.
Eng, C. P., M. K. Bhatnagar, and J. F. Morgan. 1972. Inhibition of mouse ascites tumors by carbohydrate combined with immunization. Can. J. Physiol. Pharmacol. 50: 156–163.
Eng, C. P., and J. F. Morgan. 1972. Further studies on tumor-specific immunity induced by nontumorigenic mouse ascites tissue-culture cells. Can. J. Microbiol. 18: 775–781.
Morgan, J. F., and C. P. Eng. 1972. The induction of immunoprotection by mouse ascites tumor cells attenuated in tissue culture. Eur. J. Cancer 8: 293–298.
Morton, H. J., and J. F. Morgan. 1973. Sample preparations of media. A. Vertebrate cells. In: P. F. Kruse, Jr., and M. K. Patterson, Jr. (Eds.),Tissue Culture, Methods and Applications. Academic Press, New York, 686–692.
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Presented in the Opening Symposium on Nutritional Factors and Differentiation at the 28th Annual Meeting of the Tissue Culture Association, New Orleans, Louisiana, June 6–9, 1977.
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Morton, H.J. Joseph F. Morgan: The man and his contributions. In Vitro 14, 3–10 (1978). https://doi.org/10.1007/BF02618169
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DOI: https://doi.org/10.1007/BF02618169