Sucrose-phosphate synthase is regulated via metabolites and protein phosphorylation in potato tubers,in a manner analogous to the enzyme in leaves

(i) Sucrose-phosphate synthase (SPS) was purified 40-fold from stored potato (Solanum tuberosum L.) tubers to a final specific activity of 33–70 nkat·(mg protein)^–1 via batch elution from diethylaminoethyl (DEAE)-sephacel, polyethylene glycol (PEG) precipitation and Mono Q anion-exchange chromatography. (ii) Immunoblotting revealed a major and a minor band with molecular weights of 124.8 kDa and 133.5 kDa, respectively. Both bands were also present in extracts prepared in boiling SDS to exclude proteolysis. No smaller polypeptides were seen, except when the preparations were incubated before application on a polyacrylamide gel. (iii) The enzyme preparation was activated by glucose-6-phosphate and inhibited by inorganic phosphate. Both effectors had a large effect on the K _m (fructose-6-phosphate) and the K _m (uridine-5-diphosphoglucose) with phosphate acting antagonistically to glucose-6-phosphate. (iv) Preincubation of potato slices with low concentrations of okadaic acid or microcystin resulted in a three- to fourfold decrease in the activity of SPS when the tissue was subsequently extracted and assayed. The decrease was especially marked when the assay contained low concentrations of substrates and glucose-6-phosphate, and inorganic phosphate was included. Preincubation with mannose or in high osmoticum resulted in an increase of SPS activity. (v) Analogous changes were observed in germinating Ricinus communis L. seedlings. After preincubation of the cotyledons in glucose, high SPS activity could be measured, whereas okadaic acid, omission of glucose, or addition of phosphate or sucrose led to a large decrease of SPS activity in the selective assay. (vi) It is argued that SPS from non-photosynthetic tissues is regulated by metabolites and by protein phosphorylation in an analogous manner to the leaf enzyme.Abbreviations Fru6P fructose-6-phosphate - Glc6P glucose-6-phosphate - Pi inorganic phosphate - PGI phosphoglucose isomerase - PP2A phosphoprotein phosphatase 2A - PEG polyethyleneglycol - SPS sucrose-phosphate synthase - UDPGlc uridine-5-diphosphoglucose This work was supported by the Deutsche Forschungsgemeinschaft, the BMFT and Sandoz AG, Basel, Switzerland. We are grateful to Prof. E. Beck (Pflanzenphysiologie, Bayreuth, Germany) for providing us with laboratory facilities, and to Dr. U. Sonnewald (Institut für Genbiologische Forschung, Berlin, Germany) for many discussions and providing us with unpublished data.