Die Wirkung von Actinomycin D auf die phytochromabhängigen Veränderungen des RNS-Gehaltes im Senfkeimling (Sinapis alba L.)

Abstract

Actinomycin D (10 μg/ml) cancels completely the phytochrome-mediated RNA net synthesis in the cotyledons of the mustard seedling whereas RNA net synthesis in the cotyledons of the dark-grown seedling is only partially inhibited (Fig. 1). — In the hypocotyl Actinomycin D of the same concentration lowers the RNA contents in the light (i.e. far-red)-grown seedling as well as in the dark-grown seedling down to the same level (Fig. 2). In the presence of Actinomycin D phytochrome has no significant influence on the RNA contents neither in the cotyledons nor in the hypocotyl (Fig. 1,2). The data support the view that P₇₃₀, the active phytochrome, acts through differential gene activation in the cotyledons and predominantly through differential gene repression in the hypocotyl (cf. Mohr, 1966; Schopfer, 1967a, b). —The data further support the conception that “active” genes (as defined by Mohr, 1966 and Schopfer, 1967a, b) are much less sensitive towards Actinomycin D than “potentially active” and “repressible” genes (cf. Schopfer, 1967a; Mohr and Bienger, 1967).