Metabolism Characteristics of Acifluorfen Tolerant in Somaclones of Eastern Black Nightshade (Solanum ptycanthum Dun.) |
Yu, Chang-Yeon
(Division of Bio-resources Technology, Kangwon Natl. Univ.)
Li, Cheng Hao (Forestry Genetics & Breeding Lab., College of Forestry, Northeast Forestry Univ.) Lee, Dong-Wook (Division of Bio-resources Technology, Kangwon Natl. Univ.) Lim, Jung-Dae (Division of Bio-resources Technology, Kangwon Natl. Univ.) Kim, Jae-Kwang (Division of Bio-resources Technology, Kangwon Natl. Univ.) |
1 |
Photoreceptors and respiratory election flow involvement in the activity of acifluorfenmethyl and LS82-556 on nonchlorophyllous soybean cells
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2 |
Chlorophyll synthesis in green cucumber cotyledon tissues
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3 |
Generaion of resistance to the diphenyl ether herbicide, oxyfluorfen, via expression of the Bacillus subtilis protoporphyrinogen oxidase gene in transgenic tobacco plant
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4 |
Dominant expression of a gene amplification related herbicide resistance in Medicago cell hybrids
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5 |
Cellular localization of protoporphyrinogen-dxidizing activities of etiolated barley Hordeum vulgare L. leaves: relationship to mechanism of action of protoporphyrinogen oxidase-inhibiting herbicides
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6 |
Protoporphyrinogen IX-oxidazing activities involved in the mode of action of peroxidizing herbicides
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7 |
Relationship of leaf surface characteristics to acifluorfen tolerance in tomato (Lycopersicon esculentum) and related species
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8 |
Penetration, translocation, and metabolism of acifluorfen in soybean (Glycine max), common ragweed (Ambrosia artemisifotia), and common cocklebur (Xanthium pensylvanicum)
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9 |
Genetic engineering of herbicide resistance in higher plants
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10 |
Physiological basis for differential sensitivities of plant species to protoporphyrinogen inhibiting herbicides
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11 |
Metabolism of diclofopmethyl in susceptible and resistant biotypes of Lotium rigidum
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12 |
Increased 5-enolpyruvylshikimic acid 3-phosphate synthase activity in a glyphosate-tolerant variant strain of tomato cells
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13 |
An in vitro system for selection and characterization of acifluorfen-tolerant Solanaceous plants
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14 |
Selectivity of diphenyl ether herbicides between tomato (Lycopersicon esculentum) and eastern black nightshade (Solanum ptycanthum)
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15 |
Lack of crossresistance of paraquat-resistant hairy fleabane (Conyza bonariensis) to other toxic oxygen generators indicates enzymatic protection is not the resistance mechanism
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16 |
Inhibition of plant protoporphyrinogen oxidase by the herbicide acifluorfen-methyl
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17 |
The bleaching effect of the diphenyl ether herbicide oxyfluorfen
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18 |
Herbicide resistance in weeds and crops;Managing Rsistance to Agrochemicals
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19 |
Selection of tobacco cell lines resistant to photobleaching herbicides
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20 |
Molecular basis of photobleashing herbicide resistance in tobacco
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21 |
Cloning and characterization of pIastidal and mitochondrial isoform of tobacco protoporphyrinogen IX oxidase
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Overexpression of plastidic protoporphyrinogen IX oxidase leads to resistance to the diphenylether herbicide acifluorfen
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23 |
Oxygen toxicity, oxygen radicals, transition metals and disease
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24 |
The generation of singlet oxygen (<TEX>$^1O_2$</TEX>) by the nitrodiphenyl ether herbicide oxyfluorfen is independent of photosynthesis
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25 |
Absorption, translocation, and metabolism of acifluorfen and lactofen in pitted morningglory (Ipomoea lacunosa) and ivyleaf morningglory (Ipomoea hederacea)
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26 |
Significance and distribution of herbicide resistance
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27 |
Herbicide-resistant alfalfa cells: an example of gene amplification in plants
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28 |
Metabolism of substituted diphenylether herbicides in plants. 1. Enzymatic cleavage of fluorodiphen in peas
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29 |
Acifluorfen metabolism in soybean: Diphenyl ether bond cleavage and the formation of homoglutathione, cystein, and glucose conjugate
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30 |
Mechanisms of paraquat resistance
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31 |
Tomato (Lycopresicon esculenturn) and eastern black nightshade (Solanum ptycanthum) tolerance to acifluorfen
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32 |
Ascorbic acid in the illuminated chloroplast;Ascorbic acid: chemistry, metabolism, and uses
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