SO Duke scite author profile

SO Duke

2Publications

116Citation Statements Received

112Citation Statements Given

How they've been cited

133

113

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Affiliations

Agricultural Research Service, United States Department of Agriculture, Institute of Applied Biochemistry

Publications

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Isolation and Identification of Mosquito Bite Deterrent Terpenoids from Leaves of American (Callicarpa americana) and Japanese (Callicarpa japonica) Beautyberry

et al. 2005

J. Agric. Food Chem.

102

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Essential oil extracts from Callicarpa americana and Callicarpa japonica were investigated. Bioassay-guided fractionation of C. americana extracts using the yellow fever mosquito, Aedes aegypti, led to the isolation of alpha-humulene, humulene epoxide II, and intermedeol and a newly isolated terpenoid (callicarpenal). Similar work involving C. japonica resulted in the isolation of an additional compound, spathulenol, as well as the four compounds isolated from C. americana. Structure elucidation was performed on all isolated compounds using a combination of gas chromatography-mass spectrometry-electron ionization, high-resolution liquid chromatography-MS-electrospray ionization, and one- and two-dimensional NMR experiments. Heretofore, 13,14,15,16-tetranorclerodane, callicarpenal, has never been identified from natural sources. Complete (1)H and (13)C NMR assignment data are provided for this compound. In bite deterrent studies, spathulenol, intermedeol, and callicarpenal showed significant repellent activity against A. aegypti and Anopheles stephensi.

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Protoporphyrinogen Oxidase as the Optimal Herbicide Site in the Porphyrin Pathway

Duke

Ub²,

et al. 1994

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Herbicide discovery efforts have yielded a large number of excellent herbicides that target the porphyrin pathway. Protoporphyrinogen oxidase (Protox) is the only molecular site inhibited by the commercially available members of this herbicide class. We hypothesize that this site of action is much better for herbicidal activity than other sites of the porphyrin pathway because of the location of herbicide-susceptible Protox within the cell (the plastid envelope and the mitochondrion), the existence of a herbicide-resistant form of the enzyme in the plasma membrane (which rapidly causes accumulation of protoporphyrin IX when plastid Protox is inhibited), and two chemical features of the substrate (its relatively low lipophilicity and its non-planar macrocycle). Although enzymes of the porphyrin pathway beyond Protox can be inhibited to cause the accumulation of phytotoxic levels of porphyrins, these sites do not share the unique properties of Protox. As a result, the number of active analogues that effectively inhibit these enzymes in vivo is much smaller than for Protox, and the amount of herbicide needed for effective herbicidal action is relatively higher.Thousands of herbicides have been patented that apparently exert their phytotoxicity through induced accumulation of phototoxic porphyrins (I, 2). All of those for which the molecular site of action is known are inhibitors of protoporphyrinogen oxidase (Protox), the last enzyme common to the synthesis of both chlorophyll and heme in green plants (J, 3-8). Theoretically, inhibition of any enzyme of the porphyrin pathway ( Figure 1; see Figure 1 of Chapter 1 for structures of intermediates) past porphobilinogen deaminase (uroporphyrinogen III cosynthase) would result in the accumulation of a photodynamic porphyrin. Sites in the 0097-6156/94/0559-0191$08.00/0

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SO Duke

Isolation and Identification of Mosquito Bite Deterrent Terpenoids from Leaves of American (Callicarpa americana) and Japanese (Callicarpa japonica) Beautyberry

Protoporphyrinogen Oxidase as the Optimal Herbicide Site in the Porphyrin Pathway

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