The role of respiration during adaptation of the freshwater cyanobacterium Synechococcus 6311 to salinity.

Growth of the freshwater cyanobacterium Synechococcus 6311 under saline conditions stimulated respiration tenfold during the first 24 h, while growth and photosynthesis were inhibited. The elevated respiration rate was seen under both light and dark conditions, was uncoupler and cyanide sensitive, and did not decrease upon salt removal. Membrane preparations from salt-grown cells exhibited a tenfold increase in cytochrome oxidase activity, while electron transfer rates from NADPH to cytochrome c only increased threefold. Cytochrome oxidase activities were correlated with levels of EPR detectable Cu2+ in the salt and control membranes. Sodium-driven proton (antiproter) gradients in salt-grown cells were sensitive to cyanide but not dicyclohexylcarbodiimide, indicating the direct role of respiratory electron transport in maintaining low intracellular sodium levels.