Abstract: | The activities of three Calvin cycle enzymes, RuBPc (E.C. 4.1.1.39
EC]
),3PGA phosphokinase (E.C. 2.7.2.3
EC]
) and NADP-G3P dehydrogenase(E.C. 1.2.1.13
EC]
), and the cytoplasmic enzyme PEPc (E.C. 4.1.1.31
EC]
)together with soluble protein and chlorophyll were measuredin extracts from young tomato leaves during acclimation to achange in irradiance. Leaf area and fresh weight were also measuredto show changes due to growth during treatments. Soluble proteinhad doubled on a unit leaf area basis 7 d after transfer from100 µmol quanta m2s1 PAR (low light) to400 µmol quanta m2s1 PAR (high light). Duringthis period the protein/chlorophyll ratio rose from 46to 10, RuBPc activity almost doubled and PEPc almost trebled.Following the reverse transfer from high to low light, solubleprotein decreased by 30% after 7 d and the protein/chlorophyllratio fell from 12 to 56. There was no change in RuBPcactivity 3 d after transfer from high to low light while PEPcactivity decreased by over 30%. There was no decrease in theactivity of 3PGA phosphokinase or NADP-G3P dehydrogenase 1 dafter transfer to low light, but decreases were apparent after3 d. The extracted kinase and dehydrogenase when fully activatedwere able to phosphorylate and reduce 3PGA at more than 25-foldits calculated rate of synthesis in the leaf. The data are discussedin relation to changes in the CO2 exchange of the leaf. Key words: Photosynthetic acclimation, irradiance, tomato leaf, RuBP carboxylase |