The effect of NADP on the subunit structure and activity of spinach chloroplast glyceraldehyde-3-phosphate dehydrogenase

Spinach chloroplast glyceraldehyde phosphate dehydrogenase (d-glyceraldehyde-3-phosphate: NADP oxidoreductase, phosphorylating; EC 1.2.1.13) is an equilibrium mixture of aggregates of a basic protomer (M_r about 145,000) and is active with both NADP and NAD. The enzyme is primarily “tetrameric” (M_r about 600,000), although minor amounts of smaller and larger oligomers are also found. Gel chromatography in buffer containing 30 μm NADP results in depolymerization of the enzyme, mainly to protomers. NAD does not dissociate and counteracts this effect of NADP.The apparent K_m values of the protomers are 7 μm (NADP) and 8 μm (NAD). The aggregates with a M_r > 10⁶ have properties similar to the protomers. The tetramer as first isolated has higher M_m values for NADP (380 μm) and NAD (48 μm), but its apparent affinity for NADP is further decreased by repeated gel filtrations in buffer or by a single one in buffer containing NAD. Such preparations display nonlinear kinetics when NADP is the varied substrate and have a K_m (NADP) of about 1.5–3.3 μm. All these effects are reversible.V values are apparently the same in all enzyme forms and the $\text{V (}\text{NADP}\text{)}\text{V (}\text{NAD}\text{)}$ ratio always approaches 2. Since, however, the enzyme is presumably dissociated by the NADP concentrations required for a “saturating” assay, the significance of V (NADP) seems questionable.