The Level of Stromal ATP Regulates Translation of the D1 Protein in Isolated Chloroplasts

The synthesis of the D1 subunit of the reaction center of photosystemII is light-dependent in isolated chloroplasts. The mechanismof the regulation by light was analyzed using spinach chloroplasts.The light-regulated synthesis of the D1 protein was preventedby the addition of atrazine and the dependence on the concentrationof atrazine of the inhibition was practically identical withthat of the inhibition of photosynthetic electron transportin photosystem II, as measured by the photoreduction of 2,6-dichlorophenolindophenol. Inhibitors of photosynthetic phosphorylation, suchas phloridzin, nigericin and carbonyl cyanide m-chlorophenylhydrazone,also inhibited the light-dependent synthesis of the D1 protein.Determination of the levels of ATP in chloroplasts and the ratesof synthesis of D1 protein under the various degrees of inhibitioncaused by these reagents suggested that the level of ATP inthe soluble, stromal fraction can control the synthesis of theD1 protein. The level of stromal ATP in chloroplasts was furthermanipulated, either by modulating the intensity of actinic lightor by the addition of metabolites, such as glycerate, whichwas used to decrease the level of ATP in the light, and dihydroxyacetonephosphate/oxaloacetate, which was used to raise the level ofATP in the dark. The results definitely support the hypothesisthat the light-induced level of ATP is an essential determinantin the regulation of the synthesis of the D1 protein in isolatedchloroplasts. (Received July 25, 1991; Accepted October 22, 1991)