Effect of the natural algicide, cyanobacterin, on a herbicide-resistant mutant of anacystis nidulans R2

Cyanobacterin, a secondary metabolite produced by the cyanobacterium, Scytonema hofmanni, inhibits the growth of algae and plants. This compound is a potent inhibitor of photosynthetic electron transport and acts at a site in photosystem II (PS II). To further define the site of action of cyanobacterin, the effects of this natural product were investigated in a herbicide-resistant mutant of the cyanobacterium, Anacystis nidulans R2D2-X1. A. nidulans R2D2-X1 was reported to grow and maintain photosynthetic electron transport in the presence of 20 μM 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) and 6.0 μM atrazine. Resistance was attributed to an altered 32 kDa (quinone-binding, QB) protein [6]. In the presence of Hill electron acceptors, K 3Fe(CN) 6 and dichlorophenol-indophenol (DCPIP), spheroplasts of A. nidulans R2D2-X1 were inhibited by cyanobacterin at the same concentration as wild type spheroblasts. Under these same conditions, spheroplasts of the mutant maintained their resistance to DCMU. Similar results were obtained with isolated thylakoid membranes. In contrast, silicomolybdate reduction, which is resistant to DCMU inhibition, was very sensitive to cyanobacterin. We conclude that cyanobacterin inhibits electron transport in PS II at a unique site which is different from that of DCMU.