Formation of Disulphide Cross-Linked Aggregates of Large Subunit from Higher Plant Ribulose-1, 5-Bisphosphate Carboxylase-Oxygenase

The properties of the large and small subunit polypeptides ofpurified wheat ribulose-1, 5-bisphosphate carboxylase-oxygenase(Rubisco, E.C. 4.1.1.39 [EC] ) were studied. The protein was dissociatedinto subunits by extreme pH or detergent treatment. The separatedsubunits were unable to reassemble into functional holoproteinwhen the starting conditions were restored. Some of the separatedsmall subunit polypeptides retained their ability to form functionalheterologous Rubisco when mixed with large subunits from a cyanobacterialRubisco. The separated large subunits of wheat Rubisco formednon-functional, high-molecular-weight aggregates. Treatmentwith both sodium dodecyl sulphate and thiol reductant was necessaryto disrupt the aggregated structures, which indicates that thelarge subunits had been cross-linked by disulphide bridges.Since added thiol reductant did not prevent aggregation of theseparated subunits during attempted reconstitution, oxidationof the sulphydryl groups apparently took place on contact facessheltered by the secondary and tertiary structures of the polypeptides.High concentration of large subunits or freezing and thawingof the solution stimulated the formation of disulphide cross-linksbetween the large subunits. The presence of small subunits didnot prevent aggregation of large subunits. The results suggestthat large subunits have a tendency to cross-link with disulphidebridges thus preventing proper assembly with small subunits. Key words: Rubisco, aggregates of large subunit, disulphide cross-linkage, assembly of Rubisco     

Photosynthetic and Photorespiratory Enzymes in Widely Divergent Plant Species with Special Reference to the Moss Ceratodon purpureus: Properties of Ribulose Bisphosphate Carboxylase/ Oxygenase, Phosphoenolpyruvate Carboxylase and Glycolate Oxidase

Rintamäki, E. and Aro, E.-M. 1985. Photosynthetic and photorespiratoryenzymes in widely divergent plant species with special referenceto the moss Ceratodon purpureus: Properties of ribulose bisphosphatecarboxylase/oxygenase, phosphoenolpyruvate carboxylase and glycolateoxidase.—J. exp. Bot. 36: 1677–1684. Km(CO₂) values and maximal velocities of ribulose bisphosphatecarboxylase/oxygenase (E.C. 4.1.1.39 [EC] ) were determined for sixplant species growing in the wild, consisting of a moss, a fernand four angiosperms. The maximum velocities of the RuBP carboxylasesvaried from 0.13 to 0.;62 µmol CO₂ fixed min^–1 mg^–1soluble protein and the Km(CO₂) values from 15 to 22 mmol m^–3CO₂. The highest Km(CO₂) values found were for the moss, Ceratodonpurpureus, and the grass, Deschampsia flexuosa. These plantsalso had the highest ratios of the activities of RuBP carboxylaseto RuBP oxygenase. Glycolate oxidase (E.C. 1.1.3.1 [EC] ) activitieswere slightly lower in D.flexuosa, but not in C. purpureus,than for typical C₃ species. Phosphoenolpyruvate carboxylase(E.C. 4.1.1.31 [EC] ) was not involved in the photosynthetic carboxylationby these two plants. However, another grass, Phragmites australis,was intermediate in PEP carboxylase activity between C₃ andC₄ plants The properties of RuBP carboxylase/oxygenase are discussedin relation to the activities of PEP carboxylase and glycolateoxidase and to the internal CO₂ concentration. Key words: RuBP carboxylase, oxygenase, Km(CO₂), moss