Quinone accumulation in S-ethyl dipropylthiocarbamate-treated wheat

Abstract

Wheat ( Triticum aestivum L. cv Holley) was grown for 15 days in sand into which S-ethyl dipropylthiocarbamate (EPTC) (0, 15.6, 31.25, 62.5, or 125.0 μg/kg) had been incorporated. Growth was decreased more by EPTC under high light intensity (270 μein/m 2/sec) than under low light (20 μein/m 2/sec) intensity. Wheat grown in the dark did not respond to EPTC at these concentrations. In high light intensity, plastoquinone-9, plastohydroquinone-9, α-tocopheroquinone, and α-tocopherol contents (nanomoles per gram fresh weight) increased as EPTC concentration increased. Similar but less marked results occurred at the low light intensity. Plastohydroquinone-9/plastoquinone and α-tocopherol/α-tocopheroquinone ratios increased at both light intensities as EPTC concentration increased. This indicated an EPTC-induced inhibition of plastohydroquinone and α-tocopherol epoxidation. Chlorophyll a and b and total carotenoid contents increased as EPTC concentration increased in plants grown at high light intensities. Changes in the membrane electron carriers contents per unit of chlorophyll or carotenoid (micrograms per milligram of pigment) occurred. As a tentative hypothesis, it is suggested that transmembrane electron transport systems were inhibited, but growth in size (fresh weight per pot) was inhibited more than was synthesis of the various pigments and quinones. Thus, a separation of growth and metabolic response to EPTC was demonstrated.