The Effect of DCMU (3‐(3,4‐dichlorophenyl)‐1,1‐dimethylurea) on Photosynthesis, Glycolate Excretion (‘Photorespiration’) and Amino Acid Metabolism in the Blue‐Green Alga Anacystis

When photosynthesis of the blue‐green alga Anacystis nidulans was measured as 14 CO 2 ‐fixation, the inhibitory effect of DCMU at low concentrations was greatest when mainly Photosystem 1 (PS 1) (excitation at 446 or 687 nm) was operative. At concentrations above 10‐ 6 M the inhibition on 14 CO 2 ‐fixation was greatest when mainly Photosystem 2 (PS 2) was operative (excitation at 619). During excitation of PS 1, the excretion of glycolate was stimulated at low concentrations of DCMU (5 × 10 ‐8 M and lower), while higher concentrations inhibited excretion. All concentrations of DCMU inhibited glycolate excretion when mainly PS 2 was excited. The curves showing the relative effect of DCMU on the two photosystems, measured as PS 1/PS 2, had opposite shapes for 14 CO 2 ‐fixation and glycolate excretion. An increase in 14 CO 2 ‐fixation coincided with a decrease in glycolate excretion and vice versa. It appears that the increased rate of photosynthesis when mainly PS 1 was operative relative to that when mainly PS 2 was excited, increases the consumption of glycolate in an oxidation process associated with the excitation of PS 1, resulting in less excretion of glycolate to the medium. The influence of DCMU inhibition on labelled amino acid pools connected to the glycolate pathway (glycine‐serine) is quite similar to that for 14 CO 2 ‐fixation. At concentrations below 10 ‐6 M DCMU, inhibition of 14 CO 2 ‐ incorporation into the amino acids was greatest when PS 1 was excited, while at the higher concentrations tested, inhibition was greater when PS 2 was excited. We conclude that the metabolism of glycine and serine is closely connected to the rate of photosynthesis.