A New Approach to the Study of Bound Residues in Plants; Incorporation of Tritium-Labeled 3-Phenoxybenzoic Acid into Cell Wall Components of Cypress
「INTRODUCTION」 To evaluate the bioavailability of a pesticide incorporated into plant cell walls as bound residues, 1) it is necessary to know the binding mechanism of pesticide with plant macromolecules, i.e., lignin, hemicellulose and cellulose. Despite a number of reviews1-5) on the features of p...
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| Published in | Journal of Pesticide Science Vol. 27; no. 2; pp. 136 - 140 |
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| Main Author | |
| Format | Journal Article |
| Language | Japanese |
| Published |
Pesticide Science Society of Japan
2002
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1348-589X 1349-0923 |
| DOI | 10.1584/jpestics.27.136 |
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| Abstract | 「INTRODUCTION」 To evaluate the bioavailability of a pesticide incorporated into plant cell walls as bound residues, 1) it is necessary to know the binding mechanism of pesticide with plant macromolecules, i.e., lignin, hemicellulose and cellulose. Despite a number of reviews1-5) on the features of pesticides as bound residues, their existing form in plants is still not well understood. Typically, bound residues have been analyzed by treating macerated whole plants with various solvent systems to demolish the macromolecules and solubilising the bound residues. However, interpretation of the results was sometimes extremely confusing because macerated plant contains various types of cells. Furthermore, the ability of a solvent to reach the place where bound residues exists can vary, having a tremendous impact on the accuracy of selectivity when solubilising the target macromolecule. Bound residues have also been studied using plant cell cultures. 6) However, such an approach does not consider the pesticide incorporated into secondary cell walls. |
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| AbstractList | 「INTRODUCTION」 To evaluate the bioavailability of a pesticide incorporated into plant cell walls as bound residues, 1) it is necessary to know the binding mechanism of pesticide with plant macromolecules, i.e., lignin, hemicellulose and cellulose. Despite a number of reviews1-5) on the features of pesticides as bound residues, their existing form in plants is still not well understood. Typically, bound residues have been analyzed by treating macerated whole plants with various solvent systems to demolish the macromolecules and solubilising the bound residues. However, interpretation of the results was sometimes extremely confusing because macerated plant contains various types of cells. Furthermore, the ability of a solvent to reach the place where bound residues exists can vary, having a tremendous impact on the accuracy of selectivity when solubilising the target macromolecule. Bound residues have also been studied using plant cell cultures. 6) However, such an approach does not consider the pesticide incorporated into secondary cell walls. |
| Author | FUJISAWA, Takuo |
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| DOI | 10.1584/jpestics.27.136 |
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| References | 8) N. Mikami, Y. Baba, T. Katagi & J. Miyamoto: J. Agric. Food Chem. 33, 980 (1985 1) M. W. Skidmore, G. D. Paulson, H. A. Kuiper, B. Ohlin & S. Reynolds: Pure Appl. Chem. 70, 1423 (1998 12) H. Kushida, M. Fujita & H. Harada: J. Electron Microsc. 28, 53 (1979 6) F. M. G. Laurent & R. Scalla: Pestic. Sci. 55, 3 (1999 3) J. B. Pillmoor & T. R. Roberts: “Progress in Pesticide Biochemistry and Toxicology,” ed. by D. H. Hutson & T. R. Roberts, John Wiley & Sons Ltd., Chichester, U. K., Vol. 4, p. 85, 1985 14) J. E. More, T. R. Roberts & A. N. Wright: Pestic. Biochem. Physiol. 9, 268 (1978 2) R. Huber & S. Otto: “Pesticide Chemistry,” ed. by J. Miyamoto & P. C. Kearney, Pergamon Press, Oxford, U. K., Vol. 3, p. 357, 1983 9) P. W. Lee, S. M. Stearns & W. R. Powell: J. Agric. Food Chem. 36, 189 (1988 15) N. Mikami, N. Wakabayashi, H. Yamada & J. Miyamoto: Pestic. Sci. 15, 531 (1984 5) F. Laurent & R. Scalla: J. Agric. Food Chem. 48, 4389 (2000 16) K. T. v. d. Trenck, D. Hunkler & H. Jr. Sandermann: Z. Naturforsch. 36c, 714 (1981 4) N. P. Agnihotri & A. K. Barooah: J. Sci. Ind. Res. 53, 850 (1994 7) S. U. Karn, L. Z. Zhang & M. H. Akhtar: J. Agric. Food Chem. 32, 1141 (1984 13) H. Harada: “Mokuzai Kagaku,” ed. by N. Migita, H. Yonezawa & M. Kondo, Kyoritu Shuppan Ltd., Tokyo, Japan, Vol. 1, p. 1, 1968 (in Japanese 17) B. M. Lange, N. Hertkorn & H. Jr. Sandermann: Environ. Sci. Technol. 32, 2113 (1998 10) K. Takabe, M. Fujita, H. Harada & H. Saiki: Mokuzai Gakkaishi 27, 249 (1981) (in Japanese 11) K. Takabe & H. Harada: Mokuzai Gakkaishi 32, 763 (1986 |
| References_xml | – reference: 17) B. M. Lange, N. Hertkorn & H. Jr. Sandermann: Environ. Sci. Technol. 32, 2113 (1998) – reference: 16) K. T. v. d. Trenck, D. Hunkler & H. Jr. Sandermann: Z. Naturforsch. 36c, 714 (1981) – reference: 5) F. Laurent & R. Scalla: J. Agric. Food Chem. 48, 4389 (2000) – reference: 3) J. B. Pillmoor & T. R. Roberts: “Progress in Pesticide Biochemistry and Toxicology,” ed. by D. H. Hutson & T. R. Roberts, John Wiley & Sons Ltd., Chichester, U. K., Vol. 4, p. 85, 1985 – reference: 13) H. Harada: “Mokuzai Kagaku,” ed. by N. Migita, H. Yonezawa & M. Kondo, Kyoritu Shuppan Ltd., Tokyo, Japan, Vol. 1, p. 1, 1968 (in Japanese) – reference: 14) J. E. More, T. R. Roberts & A. N. Wright: Pestic. Biochem. Physiol. 9, 268 (1978) – reference: 9) P. W. Lee, S. M. Stearns & W. R. Powell: J. Agric. Food Chem. 36, 189 (1988) – reference: 7) S. U. Karn, L. Z. Zhang & M. H. Akhtar: J. Agric. Food Chem. 32, 1141 (1984) – reference: 8) N. Mikami, Y. Baba, T. Katagi & J. Miyamoto: J. Agric. Food Chem. 33, 980 (1985) – reference: 2) R. Huber & S. Otto: “Pesticide Chemistry,” ed. by J. Miyamoto & P. C. Kearney, Pergamon Press, Oxford, U. K., Vol. 3, p. 357, 1983 – reference: 10) K. Takabe, M. Fujita, H. Harada & H. Saiki: Mokuzai Gakkaishi 27, 249 (1981) (in Japanese) – reference: 1) M. W. Skidmore, G. D. Paulson, H. A. Kuiper, B. Ohlin & S. Reynolds: Pure Appl. Chem. 70, 1423 (1998) – reference: 4) N. P. Agnihotri & A. K. Barooah: J. Sci. Ind. Res. 53, 850 (1994) – reference: 15) N. Mikami, N. Wakabayashi, H. Yamada & J. Miyamoto: Pestic. Sci. 15, 531 (1984) – reference: 12) H. Kushida, M. Fujita & H. Harada: J. Electron Microsc. 28, 53 (1979) – reference: 6) F. M. G. Laurent & R. Scalla: Pestic. Sci. 55, 3 (1999) – reference: 11) K. Takabe & H. Harada: Mokuzai Gakkaishi 32, 763 (1986) |
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| Title | A New Approach to the Study of Bound Residues in Plants; Incorporation of Tritium-Labeled 3-Phenoxybenzoic Acid into Cell Wall Components of Cypress |
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