Determination of the Inorganic Pyrophosphate Level and Its Subcellular Localization in Chara corallina

Abstract

In order to determine the concentration of pyrophosphate (PPi) and its subcellular distribution in Chara corallina, a new method to concentrate PPi from cell extracts was developed. PPi was extracted and concentrated as Ca2P2O7 under alkaline conditions. The amount of PPi in the precipitate was measured using an enzyme system containing pyrophosphate:fructose-6-phosphate 1-phosphotransferase (EC 2.7.1.90) coupled to NADH oxidation in the presence of [ethylene-bis(oxyethylenenitrilo)]tetraacetic acid. The subcellular localization of PPi and inorganic phosphate (Pi) was studied using the intracellular perfusion technique. The relative volumes of the cytoplasm (6.4%) and the vacuole (93.6%) were determined by perfusing Lucifer Yellow CH into the vacuole and by assuming that the Lucifer Yellow CH dead space represented the cytoplasmic volume. The volume of the chloroplast layer was determined microscopically, and it was found that it occupied 10% of the Chara cytoplasm. PPi was present predominantly in the cytosol at a level of 193 microM, while it existed in the vacuole at a level of only 2.20 microM and less than 1 microM in chloroplasts. By contrast, Pi was distributed almost equally in the cytosol (12.0 mM), chloroplasts (16.2 mM), and the vacuole (6.70 mM). The electrochemical potential gradient across the tonoplast for H+ (delta mu H+ = -11.6 to -18.0 KJ/mol) was nearly equal to the free energy release from the hydrolysis of PPi in cytoplasm (delta Gpp = -18.9 KJ/mol), indicating that the H+-translocating inorganic pyrophosphatase can work as a H+ pump in C. corallina.