INFLUENCE OF IRON LIMITATION AND NITROGEN SOURCE ON GROWTH AND SIDEROPHORE PRODUCTION BY CYANOBACTERIA

Abstract

To characterize the mobilization and uptake of iron by cyanobacteria, 14 species were screened for ability to scavenge iron in a competitive system. The cyanobacteria exhibited a range of growth responses to iron limitation which could be separated into three groups, and a representative species from each group was chosen for further study. Effects of iron-limitation on growth and siderophore production of Anacystis nidulans R2, Anabaena variabilis ATCC 29413, and Plectonema boryanum UTEX 581 were determined. Both A. nidulans R2 and A. variabilis showed a reduced rate of growth with decreased available iron concentration (PFe 17–19). Growth rates increased with further reduction in the level of available iron (pFe 20 to pFe 21). The increase in growth rate occurred at the same available iron concentration as the initiation of extracellular siderophore production. In contrast, the growth of P. boryanum decreased with decreasing available iron levels. No siderophore production was detected from P. boryanum cultures. The growth kinetics of siderophore-producing species differ from traditional nutrient-limited growth kinetics and clearly reflect the presence of a high affinity, siderophore-mediated iron transport system in A. nidulans R2 and A. variabilis. Iron-limited growth kinetics more similar to traditional nutrient-limited growth kinetics were found in P. boryanum. The available nitrogen source influenced amount of siderophore produced and concentration of available iron which induced siderophore production. Siderophores were produced at high iron concentrations (pFe 18) when A. variablilis cultures were grown in the absence of combined nitrogen source. When nitrate was supplied to the culture, iron concentrations had to be reduced to pFe 20 before siderophores were produced. Cells grown on nitrogen also produced greater than two times the amount of siderophore compared with nitrate grown cells. This may be indicative of an increased demand for iron by nitrogen fixing A. variabilis Cultures.