Development and use of chlorotetracycline fluorescence as a measurement assay of chloroplast envelope-bound mg.

Experiments were conducted to develop chlorotetracycline (CTC) fluorescence as an assay of Mg(2+) bound to the envelope of the intact chloroplast. This assay technique has been widely used to measure envelope associated divalent cations in animal cell and subcellular systems, but has not been used with chloroplasts. Chloroplast envelope-associated Mg(2+) was altered by pretreatment with Mg(2+) and divalent cation chelating agents and by additions of Mg(2+) to the CTC assay medium. Results indicated that for a given chloroplast preparation, relative changes in envelope-associated Mg(2+) can be effectively monitored with CTC fluorescence. It was concluded that the limitations of this assay system are: (a) chlorophyll strongly quenches CTC fluorescence signal, so a constant chlorophyll concentration must be maintained, (b) measurements must be made quickly, and (c) use of the technique to compare different chloroplast preparations may not be valid. Studies with (28)Mg(2+) confirmed our interpretation of the fluorescence results, and also suggested that the chloroplast envelope is fairly impermeable to Mg(2+). It was concluded that changes in Mg(2+) associated with the chloroplast due to incubation of plastids in solutions containing up to 5 millimolar Mg(2+) may be exclusively due to increased envelope-associated Mg(2+). The CTC assay was used in experiments to demonstrate that increases in chloroplast envelope-associated Mg(2+) inhibit photosynthetic capacity. This inhibition can be partially overcome by the presence of K(+) in the photosynthetic reaction media.