Bitter principles of the cucurbitaceae. I.Observations on the chemistry of cucurbitacin a
Enslin, P.R.
Journal of the Science of Food and Agriculture 5(9): 410-416
1954
ISSN/ISBN: 0022-5142
DOI: 10.1002/jsfa.2740050904
Accession: 060925951
PDF emailed within 0-6 h: $19.90
Related References
Snatzke, G., E.Al. 1967: Bitter principles of the Cucurbitaceae. Part XVI. Stereochemistry of cucurbitacin ring A alpha -ketols and their acetates J. chem. Soc, Lond., Sect. C; 10, 972-6Snatzke, G.; Enslin, P.R.; Holzapfel, C.W.; Norton, K.B. 1967: Bitter principles of the cucurbitaceae d xvi stereochemistry of cucurbitacin ring a alpha ketols and their acetates inst circular dichroism Journal of the Chemical Society Section C Organic Chemistry 10: 972-976
Rehm, S.; Enslin, P.R.; Meeuse, A.D.J.; Wessels, J.H. 1957: Bitter principles of the cucurbitaceae. VII.the distribution of bitter principles in this plant family Journal of the Science of Food and Agriculture 8(12): 679-686
Enslin, P.R.; Rehm, S.; Rivett, D.E.A. 1957: Bitter principles of the cucurbitaceae. VI.the isolation and characterization of six new crystalline bitter principles Journal of the Science of Food and Agriculture 8(12): 673-678
Enslin, P.R.; Joubert, F.J.; Rehm, S. 1956: Bitter principles of the cucurbitaceae. III.Elaterase, an Active Enzyme for the Hydrolysis of Bitter Principle Glycosides Journal of the Science of Food and Agriculture 7(10): 646-655
Yamada, Y.H.giwara, K.I.uchi, K. 1977: Structures of arvenin I and II, bitter principles from Anagallis arvensis L. (Primulaceae). new cucurbitacin glucosides Tetrahedron letters: 24 2099-2102
Duncan, G.R.; Levi, D.D.; Pyttel, R. 1968: Bitter principles of the cucurbitaceae: Bryonia dioica Planta Medica 16(2): 224-230
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1968: The role of cucurbitacin Δ23-reductase in the breakdown pathway of toxic bitter principles in Cucurbita maxima Phytochemistry 7(12): 2107-2110
Shimotsuma, M. 1961: Genetical and biochemical studies of the bitter principles of the Cucurbitaceae. Seiken Jiho/Rep. Kihara Inst. biol. Res, 12, 85-90
Schabort, J.C.; Teijema, H.L. 1968: The role of cucurbitacin Delta 23-reductase in the breakdown pathway of toxic bitter principles in Cucurbita maxima Phytochemistry 7: 2107-10
Rehm, S.; Wessels, J.H. 1957: Bitter principles of the cucurbitaceae. VIII.cucurbitacins in seedlingsoccurrence, biochemistry and genetical aspects Journal of the Science of Food and Agriculture 8(12): 687-691
Teijema, H.L. 1968: The role of enz cucurbitacin delta 23 reductase in the breakdown pathway of toxic bitter principles in cucurbita maxima d toxins tri terpenoid glycosides Phytochemistry (oxford): 2107-2110
Yamada, Y.; Hagiwara, K.; Iguchi, K.; Suzuki, S. 1977: Structures of arvenin i and arvenin ii bitter principles from anagallis arvensis primulaceae new cucurbitacin glucosides Tetrahedron Letters 24: 2099-2102
Coertze, A.F. 1977: A new bitter cucumber (Cucumis sativus L.) with a high content of bitter principle (cucurbitacin C) Agroplantae 9(2): 61-66
Coertze, A.F. 1976: A new bitter cucumber (Cucumis sativus L.) with a high bitter principle (cucurbitacin C) content Agroplantae 9(2): 61-65