Metabolic Detoxification of Phenmedipham in Leaf Tissue of Tolerant and Susceptible Species

Author:

Davies H. Maelor,Merydith Alexis,Mende-Mueller Liane,Aapola Alpo

Abstract

Phenmedipham metabolism in leaf tissue of sugarbeet (tolerant) and rapeseed (sensitive) was compared. Sugarbeet leaf discs metabolized phenmedipham much more rapidly than rapeseed leaf discs, forming two metabolites of relatively low polarity. The less polar of these (metabolite 21) was a precursor to the other (metabolite 11), and its properties indicate derivation from phenmedipham by a single hydroxylation and monoglycosylation. Synthetic N-hydroxyphenmedipham was converted by both species into a compound that cochromatographs with metabolite 21. Purified metabolite 21 was much less inhibitory to light-driven oxygen evolution by isolated thylakoids of both species than was phenmedipham. Hydroxylation/glycosylation without prior carbamate hydrolysis appears to be a major factor in the tolerance of sugarbeet to phenmedipham.

Publisher

Cambridge University Press (CUP)

Subject

Plant Science,Agronomy and Crop Science

Reference31 articles.

1. Abbreviations: TLC, thin-layer chromatography; HPLC, high-pressure liquid chromatography; MS, mass spectrometry; MES, 2-(N-morpholino)ethanesulfonic acid; HEPES, N-2-hydroxyethylpiperazine-N′-2-ethanesulfonic acid; m/z, mass/charge ratio; LSS, liquid scintillation spectrometry; PPFD, photosynthetic photon flux density.

2. Phenmedipham and N-hydroxyphenmedipham were synthesized by Kemira Oy, Espoo Res. Ctr., P.O. Box 44, SF-02271, Espoo, Finland.

3. Ursachen der Unempfindlichkeit von Beta vulgaris L. gegenüber Pyrazon, Phenmedipham und Benzthiazuron

4. Aufnahmegeschwindigkeit, metabolismus und verlagerung von phenmedipham bei vershieden empfindlichen pflanzen;Kassebeer;Z. Pflanzenkr. Pflanzenschutz,1971

5. Tween 80.

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