Abstract
AbstractThe influence of sodium azide on open‐chain and flavine mononucleotide mediated cyclic photophosphorylation in isolated spinach chloroplasts was investigated under anaerobic conditions. Open chain phosphorylation was completely inhibited with DCMU both in the presence and absence of sodium azide in the experimental medium. Flavine mononucleotide mediated photophosphorylation was only slightly inhibited by DCMU in the absence of sodium azide but inhibited in two steps by increasing amounts of DCMU when sodium azide was present in the medium. The first step can be explained as being mainly an effect of DCMU on an open chain electron transport, with water and H2O2 as electron donors and with flavine mononucleotide — kept in an oxidized state by sodium azide — as the electron acceptor. The second step, as well as the comparatively insensitivity to DCMU in the absence of sodium azide, depends on cyclic photophosphorylation mediated by flavine mononucleotide.
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