| Abstract: | The influence of two DNA gyrase inhibitors, nalidixic acid andnovobiocin, on DNA synthesis in isolated pea chloroplasts wasexamined. Novobiocin at 1–5 mol m–3 markedly lowered3H]thymidine incorporation into DNA (30–95% inhibition);while less effective, nalidixic acid at similar concentrationsalso diminished incorporation (25–35% inhibition). Theinhibition of chloroplast DNA (ctDNA) biosynthesis by nalidixicacid and novobiocin was confirmed by autoradiography and densitometry.These data are consistent with the view that chloroplasts containa DNA gyrase-like enzyme which is necessary for DNA replication.Despite this, interpretation of the results is not straightforward,as both nalidixic acid and novobiocin also inhibited photosyntheticactivity. Each substance (at millimolar levels) reduced ferricyanide-dependentO2 evolution in isolated chloroplasts. However, at lower concentrations(0.05–0.3 mol m–3) they slightly enhanced photosyntheticelectron flow; thus, these compounds may act as uncouplers ofphotophosphorylation as well as inhibitors of electron transport.Nalidixic acid and novobiocin at relatively low (0.1 mol m–3)concentrations also strongly reduced CO2-dependent O2 evolution(an index of CO2 photo-assimilation) in isolated plastids. Thus,caution must be exercised in assessing results from studiesin which nalidixic acid and novobiocin are used with whole plants,cells, protoplasts or isolated chloroplasts. Key words: Chloroplast, DNA replication, novobiocin, nalidixic acid, DNA gyrase |
