Analyses of seed samples from 113 plant families
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Keywords
Economic Botany Prolamine Seed Sample Vernolic Acid Steroidal Sapogenin
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References
- 1.Earle, F. E., Glass, C. A., Geisinger, Glenda C., Wolff, I. A., and Jones, Quentin. Search for new industrial oils. IV. J. Am. Oil Chemists’ Soc. 37: 440–447. 1960.CrossRefGoogle Scholar
- 2.—, McGuire, T. A., Mallan, Jean, Bagby, M. O., Wolff, I. A., and Jones, Quentin. Search for new industrial oils. II. Oils with high iodine values. J. Am. Oil Chemists’ Soc. 37: 48–50. 1960.CrossRefGoogle Scholar
- 3.—, Melvin, E. H., Mason, L. H., Van Etten, C. H., Wolff, I. A., and Jones, Quentin. Search for new industrial oils. I. Selected oils from 24 plant families. J. Am. Oil Chemists’ Soc. 36: 304–307. 1959.CrossRefGoogle Scholar
- 4.—, Wolff, I. A., and Jones, Quentin. Search for new industrial oils. III. Oils from Compositae. J. Am. Oil Chemists’ Soc. 37: 254–256. 1960.CrossRefGoogle Scholar
- 5.Engler, A., and Prantl, K. Die natürlichen Pflanzenfamilien. 23 vols. Leipzig, 1887–1915.Google Scholar
- 6.Jones, Quentin, and Wolff, I. A. Cape marigold: Is it a new crop in the making? Chemurgic Dig. 19: 4–5. 1960.Google Scholar
- 7.Smith, C. R., Jr., Bagby, M. O., Lohmar, R. L., Glass, C. A., and Wolff, I. A. The epoxy acids of Chrysanthemum coronarium and Clarkia elegans seed oils. J. Org. Chem. 25: 218–222. 1960.CrossRefGoogle Scholar
- 8.—, Jr., —, Miwa, T. K., Lohmar, B. L., and Wolff, I. A. Unique fatty acids from Limnanthes douglasii seed oil: The C20- and C22 monoenes. J. Org. Chem. 25: 1770–1774. 1960.CrossRefGoogle Scholar
- 9.Smith C. E., Jr., Koch, Kay F., and Wolff, I. A. Evidence for a new oxygenated fatty acid in the seed oil of Chrysanthemum coronarium. Chem. and Ind. 1959, 259–260.Google Scholar
- 10.—, Jr., —, and —. Isolation of vernolic acid from Vernonia anthelmintica oil. J. Am. Oil Chemists’ Soc. 36: 219–220. 1959.CrossRefGoogle Scholar
- 11.—, Jr., Wilson, T. L., Melvin, E. H., and Wolff, I. A. Dimorphecolic acid — a unique hydroxydienoid fatty acid. J. Am. Chem. Soc. 82: 1417–1421. 1960.CrossRefGoogle Scholar
- 12.VanEtten, C. H., Miller, E. W., and Wolff, I. A. Amino acid composition of twenty-seven selected seed meals. J. Agr. Food Chem. 9: 79–82. 1961.CrossRefGoogle Scholar
- 13.Wall, M. E., Garvin, J. W., Willaman, J. J., Jones, Quentin, and Schubert, Bernice G. Steroidal sapogenins, LX. Survey of plants for steroidal sapogenins and other constituents. J. Pharm. Sci. 50: 1001–1034. 1961.PubMedCrossRefGoogle Scholar
- 14.Wehmer, C. Die Pflanzenstoffe. 2 vols. G. Fischer, Jena, 1929, 1931.Google Scholar
- 15.Wiesner, J. von. Die Rohstoffe des Pflanzenreichs. 2 vols. W. Engelmann, Leipzig, 1927-1928.Google Scholar
- 16.Willaman, J. J., and Schubert, Bernice G. Alkaloid-bearing plants and their contained aklaloids. U. S. Department of Agriculture, Agricultural Eesearch Service, Technical Bulletin 1234, 1961.Google Scholar
- 17.Wilson, T. L., Miwa, T. K., and Smith, C. E., Jr. Cuphea llavea seed oil, a good source of capric acid. J. Am. Oil Chemists’ Soc. 37: 675–676. 1960.CrossRefGoogle Scholar
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© The New York Botanical Garden 1962