Olga Voronina

Phosphatidic acids (PAs) are a key intermediate in phospholipid biosynthesis, and a central element in numerous signalling pathways. Functions of PAs are related to their fundamental role in molecular interactions within cell membranes modifying membrane bending, budding, fission and fusion. Here we tested the hypothesis that PAs are capable of direct transport of ions across bio-membranes. We have demonstrated that PAs added to the maize plasma membrane vesicles induced ionophore-like transmembrane transport of Ca2+, H+ and Mg2+. PA-induced Ca2+ fluxes increased with an increasing PAs acyl chain unsaturation. For all the PAs analysed, the effect on Ca2+ permeability increased with increasing pH (pH 8.0>pH 7.2>pH 6.0). The PA-induced Ca2+, Mg2+ and H+ permeability was also more pronounced in the endomembrane vesicles as compared with the plasma membrane vesicles. Addition of PA to protoplasts from Arabidopsis thaliana (L.) Heynh. roots constitutively expressing aequorin triggered elevation of the cytosolic Ca2+ activity, indicating that the observed PA-dependent Ca2+ transport occurs in intact plants.

Effects of phosphatidic acid (PA), a product of phospholipase D activity, on Ca2+ and H+ transport were investigated in membrane vesicles obtained from roots and coleoptiles of maize (Zea mays L.). Calcium flows were measured with fluorescent probes indo-1 and chlorotetracycline loaded into the vesicles and added to the incubation medium, respectively. Phosphatidic acid (50–500 μM) was found to induce downhill flow of Ca2+ along the concentration gradient into the plasma membrane vesicles and endomembrane vesicles (tonoplast and endoplasmic reticulum). Protonophorous functions of PA were probed with acridine orange. First, the ionic H+ gradient was created on the tonoplast vesicles by means of H+-ATPase activation with Mg-ATP addition. Then, the vesicles were treated with 25–100 μM PA, which induced the release of protons from tonoplast vesicles and dissipation of the proton gradient. Thus, PA could function as an ionophore and was able to transfer Ca2+ and H+ across plant cell membranes along concentration gradients of these ions. The role of PA in mechanisms of intracellular signaling in plants is discussed.

Expression of ceruloplasmin (Cp)-coding gene in rat and human liver and brain tissues was studied by Northern blot hybridization and by in situ hybridization with cloned species-specific cDNA probes. In rat brain structures, different levels of Cp mRNA were detected, the maximal one was found in cerebellum. The steady-state level of Cp mRNA in rat and human brain was several times lower than in parenchymatous liver cells. The size heterogeneity of Cp mRNA was found. Polyadenylated RNA prepared from human liver contains two equally abundant Cp mRNAs differing in their chain length (3.6 and 4.5 kb) while brain polyadenylated RNA contains a single Cp mRNA (4.5 kb).

In the paper we study the recall efficiency in operators working with visual information: ability to remember geometric shapes and colors. We conducted an experiment in which an operator had to process the visually presented information in short-term memory in order to reproduce it in the future. The results of the experiment showed equal probability of errors when recalling colors and shapes. We also managed to distinguish two groups of geometric shapes in which there is high probability of interference. The first group consists: triangle, four-pointed star, and five-pointed star; the second: circle, rectangle, oval, and square.