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Cycloate,an inhibitor of fatty acid elongase,modulates the metabolism of very‐long‐side‐chain alkylresorcinols in rye seedlings
Authors:Elzbieta G Magnucka  Yoshikatsu Suzuki  Stanislaw J Pietr  Arkadiusz Kozubek  Robert Zarnowski
Affiliation:1. Agricultural Microbiology Lab, Department of Plant Protection, Wroc?aw University of Environmental and Life Sciences, Grunwaldzka 53, 50‐375 Wroc?aw, Poland;2. Polymer Chemistry Lab, RIKEN (Institute of Physical and Chemical Research), Hirosawa 2‐1, Wako‐shi, Saitama 351‐0198, Japan;3. Lipids and Liposomes Lab, University of Wroc?aw, Przybyszewskiego 63/77, 51‐148 Wroc?aw, Poland;4. Department of Biology, University of Texas‐Pan American, Edinburg, TX, USA
Abstract:
BACKGROUND: Cycloate inhibits the biosynthesis of very‐long‐chain fatty acids, the essential constituents of plant waxes and suberin. Fatty acids also serve as precursors of aliphatic carbon chains in resorcinolic lipids, which play a fundamental role in the plant defence system against fungal pathogens. In this study, the effect of cycloate on the biosynthesis of 5‐n‐alkylresorcinols in rye seedlings (Secale cereale L.) grown under various light and thermal conditions was examined. RESULTS: The content of alkylresorcinols biosynthesised in rye was generally increased by the herbicide in both green and etiolated plants. The presence of cycloate also affected patterns of alkylresorcinol homologues in plants grown at 15 and 22 °C; very‐long‐side‐chain compounds were less abundant, whereas both short‐chain saturated and unsaturated homologues were generally accumulated. No cycloate‐related effects caused by homologue pattern modifications were observed at elevated temperature. CONCLUSION: This study extends present understanding of the mode of action of thiocarbamate herbicides. Cycloate markedly affected the biosynthesis of very‐long‐side‐chain resorcinolic lipids in rye seedlings, confirming the existence of parallels in both fatty acid and alkylresorcinol biosynthetic pathways. The observed cycloate‐driven accumulation of 5‐n‐alkylresorcinols may improve the resistance of cereals to infections caused by microbial pathogens. Copyright © 2009 Society of Chemical Industry
Keywords:5‐n‐alkylresorcinols  cycloate  herbicide  Secale cereale
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