Effect of 4-Thiouridine on Photosystems of a Higher Plant

Abstract

Effect of 4-thiouridine, which was proved to inhibit selectively and “light-reversibly” the synthesis of chloroplast ribosomal RNAs in radish cotyledons, on the photo-induced development of photosystem I, II and a complete electron transport chain was investigated with plastids obtained from 4-thiouridine treated dark-grown radish cotyledons after various times of development in the light. It was demonstrated that the 4-thioridine treated chloroplasts showed a higher activity of photoreduction than the control untreated chloroplasts in every system on a chlorophyll basis during the development after 24 hr illumination. This specific activity decreased in both chloroplasts, as the chloroplasts matured with the time of illumination. The activity per g of fresh cotyledons treated with 4-thiouridine, especially in the early stage of development, was lower than that of ones untreated with the drug because total chlorophyll content was poor, but the activity of the former was enhanced with the increase of total chlorophyll content upon illumination while the activity of the latter decreased on 24hr illumination. Moreover, Hill reaction measurements showed that 4-thiouridine treated chloroplasts were saturated at lower light intensity than untreated ones inspite of the same content of chlorophyll in both the chloroplasts: photoreduction of NADP⁺ was saturated at 3000 lux for the former and at 5000 lux for the latter. Based upon these results, specific development of the chloroplast is discussed.