[Activation of extracellular peroxidase of wheat roots under the action of xenobiotics].

We studied the influence of xenobiotics of various chemical natures, including N,N'-dicyclohexylcarbodiimide, diethylstilbestrol, and chlorpromazine, on the activity of peroxidase, a redox-enzyme that participates in defense reactions of plants. It was shown that the influence of the studied xenobiotics on severed roots of wheat seedlings caused an increase in the permeability ofplasmalemma for K+ and H+ and stimulated the activity of the extracellular peroxidase that forms the superoxide radical anion. It is assumed that the extracellular peroxidase can initiate the transformation of alien compounds on the cell surface, before their entrance into the cells.

[The influence of plasma membrane ion permeability modulators on superoxide formation and bioelectrical characteristics of wheat root cells].

Changes in superoxide radical formation and bioelectrical characteristics of excised wheat root cells under modification of plasma membrane ion permeability were studied. It was shown that a 2 h treatment of excised roots with valinomycin (Val, 20 microM), N, N'-dicyclohexylcarbodimide (DCCD, 100 microM), gramicidin S (Gr, 20 microM), chlorpromazine (CPZ, 100 microM) caused an increased loss of potassium by cells, lowering of membrane potential (MP) and electrical input resistance (Rin) of the cells. The superoxide formation by excised root cells diminished (under DCCD) or remained at the control level (under Val), which was accompanied by a minor decrease of MP and Rin of the cells, a small increase in potassium loss by excised roots, and in no change of pH of incubation medium. Significant depolarization of plasma membrane, dropping of Rin and essential loss of potassium ions by the cells correlated with a rise in the medium alkalinization and superoxide formation by excised roots (in the presence of Gr, CPZ). Ion channel blocker gadolinium (Gd3+, 200 microM) caused an increase of MP and Rin reduction of potassium loss by cells, and a decrease of pH of the incubation medium, and also enhancement of superoxide formation by excised root cells. It is suggested that upon plasma membrane ion permeability modification the activity of superoxide generating systems depends on the specificity and mechanisms of action of modulators, and is determined by their influence on redox state of plasma membrane as well as by peculiarities of ion transport disturbance.

[Localization of ATPase activity, respiration and ultrastructure of wheat root cells with modulated ion conductivity of plasma membrane]. / Lokalizatsiia ATFaznoi aktivnosti, dykhanie i ul'trastruktura kletok kornei pshenitsy pri moduliatsii urovnia ionnoi provodimosti plazmalemmy.

Changes in the localization of ATPase activity, respiration and ultrastructure of wheat root cells with modulated ion conductivity of plasma membrane were studied. A 2 h treatment of excised root with valinomycin (20 microM), N,N-dicyclohexylcarbodiimid (100 microM), gramicidin S (20 microM) and chlorpromazine (100 microM) caused an increased loss of potassium by cells, a decreased respiration and changes in the localization of ATPase activity and in cell ultrastructure. Differences in the observed changes may be conditioned by different mechanisms of action of the membrane active compounds used. It is concluded that changes in the localization of ATPase activity and ultrastructure may indicate some early specific responses of root cells, whereas the increase in the ion conductivity and decrease in respiration under disruption of ion homeostasis caused by membrane active compounds indicate unspecific responses of cells.

[Changes in lipid composition and respiratory activity of wheat roots treated with inhibitor of phosphoinositide cycle of lithium ions]. / Izmeneniia lipidnogo sostava i dykhatel'noi aktivnosti kornei prorostkov pshenitsy pri deistvii ingibitora fosfoinozitidnogo tsikla ionov litiia.

A study was made of the effect of lithium ions (5 mM LiCl) on the growth and respiration of roots of 2-5 day old wheat seedlings, composition of phospholipids, free fatty acids and sterols, and superoxide radical generation. Significant growth depression was shown in roots treated with lithium, increasing with age of seedlings. The growth of seedlings on a 5 mM LiCl containing medium influenced the lipid composition in roots. In the roots of these seedlings phospholipid contents increased along with a decrease in free fatty acids, and the ratio of sterol/phospholipids, while superoxide radical production was stimulated. Lithium stimulated oxygen consumption of excised roots of 5 day old seedlings. Due to its physical and chemical properties lithium is supposed to be able to disrupt gradients of Ca2+, H+, K+, and to lead to a partial blockade of signal transduction for triggering proliferation via the phosphoinositide cycle. Changes in the lipid composition, increase in the membrane permeability for ions, and respiration of roots of seedlings grown in LiCl-containing medium are presumably associated with growth depression and juvenility of roots.

[Effect of lithium ions on the growth of wheat roots and the role of phosphoinositide cycle in growth regulation]. / Vliianie ionov litiia na rost kornei pshenitsy i rol' fosfoinozitidnogo tsikla v reguliatsii rostovykh protsessov.

The influence of lithium ions (LiCl in concentrations of 0.5, 1.0, and 5.0 mM) on the growth processes of roots of 2-5-day old wheat seedlings was studied. It was shown that the inhibition of the root growth increased with the increase of LiCl concentration and seedling age. The membrane potential of root cells was lower and the loss of K+ by cells was greater when roots were treated with 5 mM LiCl, compared with the control. The growth inhibition by lithium was decreased by univalent ions, partially by potassium at the beginning of growth and completely by sodium throughout the experimental period. The divalent ions calcium and barium decreased the Li(+)-induced inhibition of root growth by reducing the rate of lithium uptake by cells. Myoinositol, controlled by Li-sensitive inositolmonophosphatase, reversed the Li-induced root growth inhibition in 2-day old seedlings, but did not prevent the inhibition during subsequent elongation. It can be concluded that lithium effects on wheat root growth are mediated by a partial blockage of signal transduction for proliferation (via the phosphoinositide cycle), because of calcium deficiency and caused by modification of ion transporting systems of the plasmalemma, and by disturbance of ion gradients, primarily H+ and K+.

[Energy metabolism in wheat roots during modification of cell surface]. / Energeticheskii obmen kornei psenitsy pri modifikatsii kletochnoi poverkhnosti.

A study was made of dynamics of wheat production, intensity of respiration and changes in bioelectric characteristics of exised roots. Response reactions of two wheat varieties were compared in the process of adaptive reactions. The varieties differed in bioelectric characteristics of root cells in intact seedlings grown in CaCl2 and EDTA containing media. Different changes of membrane characteristics of root cells were observed: in soft wheat MP and Rin increased, but in hard wheat these decreased after a 5 h incubation of excised root. The rate of heat production was at the same level in both wheat varieties, but oxygen absorption of the root cells was lower in hard wheat compared with soft wheat. The rate of respiration of excised roots was stable in EDTA-containing medium. The obtained data allow to discuss more in detail the role of Ca(2+)-ions in the regulation of cell functions under formation of adaptive processes as the tissue level.