Development of sugar beet leaves: contents of hormones, localization of abscisic acid, and the level of products of photosynthesis.

The level of hormones in the tissues of sugar beet leaves of different age in parallel with their growth and metabolic activity was assayed; the latter was analyzed, measuring the contents of sugars and N-containing compounds, and the activities of Rubisco and proteases. The highest auxin and ABA concentration was detected in the actively growing upper leaf, while high level of cytokinins was maintained in the middle and upper leaves characterized by intensive photosynthesis. Leaf senescence being manifested in decline of chlorophyll content, decrease of photosynthesis and activation of proteolysis was accompanied by a decline in concentration of cytokinins.

Study of cytokinin transport from shoots to roots of wheat plants is informed by a novel method of differential localization of free cytokinin bases or their ribosylated forms by means of their specific fixation.

The aim of the present report was to demonstrate how a novel approach for immunohistochemical localization of cytokinins in the leaf and particularly in the phloem may complement to the study of their long-distance transport. Different procedures of fixation were used to conjugate either cytokinin bases or their ribosides to proteins of cytoplasm to enable visualization and differential localization of these cytokinins in the leaf cells of wheat plants. In parallel to immunolocalization of cytokinins in the leaf cells, we immunoassayed distribution of free bases of cytokinins, their nucleotides and ribosides between roots and shoots of wheat plants as well as their presence in phloem sap after incubation of leaves in a solution supplemented with either trans-zeatin or isopentenyladenine.

Rapid changes in root HvPIP2;2 aquaporins abundance and ABA concentration are required to enhance root hydraulic conductivity and maintain leaf water potential in response to increased evaporative demand.

To address the involvement of abscisic acid (ABA) in regulating transpiration and root hydraulic conductivity (LpRoot) and their relative importance for maintaining leaf hydration, the ABA-deficient barley mutant Az34 and its parental wild-type (WT) genotype (cv. Steptoe) were grown in hydroponics and exposed to changes in atmospheric vapour pressure deficit (VPD) imposed by air warming. WT plants were capable of maintaining leaf water potential (ψL) that was likely due to increased LpRoot enabling higher water flow from the roots, which increased in response to air warming.

Dependence of growth inhibiting action of increased planting density on capacity of lettuce plants to synthesize ABA.

Inhibition of lettuce plant growth under increased planting density was accompanied by accumulation of abscisic acid (ABA) in the shoots of competing plants. To check causal relationship between these responses we studied the effect of decreased synthesis of ABA on growth indexes and hormonal balance of lettuce plants under elevated density of their planting (one (single) or three (competing) plants per pot). Herbicide fluridone was used to inhibit ABA synthesis.

Exogenous application of abscisic acid (ABA) increases root and cell hydraulic conductivity and abundance of some aquaporin isoforms in the ABA-deficient barley mutant Az34.

Background and Aims Regulation of water channel aquaporins (AQPs) provides another mechanism by which abscisic acid (ABA) may influence water flow through plants. To the best of our knowledge, no studies have addressed the changes in ABA levels, the abundance of AQPs and root cell hydraulic conductivity (LpCell) in the same tissues. Thus, we followed the mechanisms by which ABA affects root hydraulics in an ABA-deficient barley mutant Az34 and its parental line 'Steptoe'.

[Effects of local induction of ipt-gene in roots on cytokinins content in leaf cells tobacco plants].

Identification of cytokinins in differentiated leaf cells has received little attention. We have carried out immunohistochemical localization of cytokinins in leaves of transgenic tobacco plants in which the level of increased due to induced in their roots the expression of ipt-gene controlling cytokinin synthesis. Immuno-labeling of cytokinins with the help of antibodies raised against zeatin riboside was characteristic of mesophyll cells.

Common and specific responses to availability of mineral nutrients and water.

Changes in resource (mineral nutrients and water) availability, due to their heterogeneous distribution in space and time, affect plant development. Plants need to sense these changes to optimize growth and biomass allocation by integrating root and shoot growth. Since a limited supply of water or nutrients can elicit similar physiological responses (the relative activation of root growth at the expense of shoot growth), similar underlying mechanisms may affect perception and acquisition of either nutrients or water.

Cytokinin producing bacteria stimulate amino acid deposition by wheat roots.

Phytohormone production is one mechanism by which rhizobacteria can stimulate plant growth, but it is not clear whether the bacteria gain from this mechanism. The hypothesis that microbial-derived cytokinin phytohormones stimulate root exudation of amino acids was tested. The rhizosphere of wheat plants was drenched with the synthetic cytokinin trans-zeatin or inoculated with Bacillus subtilis IB-22 (which produces zeatin type cytokinins) or B.

Accumulation of cytokinins in roots and their export to the shoots of durum wheat plants treated with the protonophore carbonyl cyanide m-chlorophenylhydrazone (CCCP).

Cytokinin flow from roots to shoots can serve as a long-distance signal important for root-to-shoot communication. In the past, changes in cytokinin flow from roots to shoots have been mainly attributed to changes in the rate of synthesis or breakdown in the roots. The present research tested the possibility that active uptake of cytokinin by root cells may also influence its export to shoots.

[Cytokinin content and immunolocalization in wheat primary root cells].

Immunohystochemical localization of cytokinins in cells of different root zones of wheat plants showed intensive immunostaining of zeatin in the apical root zone and its subsequent decline with the increase in the distance from the root tip. More intensive labeling of metaxylem and parenchyma cells of the root central cylinder was observed on the sections of the zone where root hairs appeared. Above this zone the decline in immunostaining of the cells of the central cylinder was paralleled by the signs if finalization of differentiation of the xylem vessels shown by lignin deposition.

Effect on shoot water relations, and cytokinin and abscisic acid levels of inducing expression of a gene coding for isopentenyltransferase in roots of transgenic tobacco plants.

Heat shock (HS) at 40 degrees C was given to the root system of Nicotiana tabacum wild type (WT) and to HSIPT transgenic plants transformed with the bacterial cytokinin biosynthesis gene isopentenyltransferase (ipt) cloned behind the heat shock 70 promoter from Drosophila melanogaster. HS increased cytokinin concentrations in roots and leaves of transgenic plants. The effect was smaller in WT plants and restricted to upper leaves.

ABA mediation of shoot cytokinin oxidase activity: assessing its impacts on cytokinin status and biomass allocation of nutrient-deprived durum wheat.

Although nutrient deprivation alters the concentrations of several plant hormones, the role of each in decreasing shoot-to-root ratio is not clear. A 10-fold dilution of the nutrient concentration supplied to hydroponically-grown 7-day-old durum wheat (Triticum turgidum L. ssp.

[ABA accumulation and distribution during the leaf tissues shows its role stomatal conductance regulation under short-term salinity].

The regulative role of ABA in the rapid plant stomatal reactions in response to salinity was investigated. The influence of the short-term salinity on the overall ABA accumulation and its distribution within the mature leaf (revealed by immunohystochemical technique) and stomatal conductance of barley (Hordeum vulgare L.) were determined.

The effect of root cooling on hormone content, leaf conductance and root hydraulic conductivity of durum wheat seedlings (Triticum durum L.).

Root cooling of 7-day-old wheat seedlings decreased root hydraulic conductivity causing a gradual loss of relative water content during 45 min (RWC). Subsequently (in 60 min), RWC became partially restored due to a decrease in transpiration linked to lower stomatal conductivity. The decrease in stomatal conductivity cannot be attributed to ABA-induced stomatal closure, since no increase in ABA content in the leaves or in the concentration in xylem sap or delivery of ABA from roots was found.

Effect of partial root excision on transpiration, root hydraulic conductance and leaf growth in wheat seedlings.

Removal of four out of five roots did not lower transpiration and stomatal conductivity of wheat (Triticum durum Desf.) seedlings. Water content of mature expanded leaf lamina remained constant at control levels.

Effect of partial root excision on shoot water relations.

Removing 4 out of 5 serminal roots from 7-day-old wheat seedlings arrested leaf elongation for 1.5 h. This effect can be explained by an initial decrease in foliar water content resulting from the smaller root surface area available for water uptake.

[Effect of high air temperature on abscisic acid and cytokinins contents as well as water balance in wheat seedlings].

The contents of cytokinins and abscisic acid in the shoots and roots of 8-day wheat seedlings were studied by enzyme immunoassay in conditions of heating from 24 to 35 degrees C and after returning to the initial conditions. Two peaks of abscisic acid content in the aerial plant organs accompanied by decreased content of active cytokinin (zeatin) were observed at the beginning and at the end of heating. We propose that antiphase changes in zeatin and abscisic acid concentrations should enhance the same effects, for example, stomatal closure.

[Early diagnostics of hemorrhagic fever with renal syndrome on the basis of the use of Pumala virus recombinant nucleocapsid protein].

Pumala virus recombinant nucleocapsid protein was used for the early diagnosis of haemorrhagic fever with renal syndrome. Specific IgM in the sera of patients could be determined by the IEA technique as early as on days 2-3 from the onset of the disease. The diagnostic effectiveness of the test-system was 95% and its specificity was 98%.

[Hemodialysis in the treatment of severe poisoning with acetic acid].

The study of the effects of hemodialysis on the course and outcomes of severe acetic acid (AA) poisoning has shown that use of hemodialysis leads to a significant reduction of lethality (from 78.2 to 46.9%), lethality in acute renal failure (by 20%), of the number of patients who died of exotoxic shock within 24 hours after the poisoning (from 71 to 60%).

[Study of cytokinins produced by rhizospheric microorganisms].

A high-molecular-weight complex of a polysaccharide and biologically active cytokinins was found in the culture liquid of rhizosphere microorganisms of the genus Bacillus. Enzyme immunoassay and thin-layer chromatography showed that zeatin riboside and a hormone nucleotide were the main cytokinins observed. Components of this complex were linked by a noncovalent bond.

[Development of an immunoenzyme test system for the quantitative demonstration of influenza virus hemagglutinin in biological specimens].

A test system for the detection and quantitation of influenza virus hemagglutinin (HA) in biological specimens by solid-phase enzyme immunoassay (SPEIA) is described. The test system implies sequential adsorption on polystyrene base of anti-HA guinea pig gammaglobulins, detectable HA-containing antigen, monospecific anti-HA rabbit serum, and peroxidase antirabbit conjugate. Adsorption of the HA-containing antigen is run in the presence of a high concentration of nonionic detergent.

[Isolation of the internal proteins of the influenza virus by preparative polyacrylamide gel electrophoresis for obtaining monospecific antisera].

The principal possibility of isolation of internal proteins (M and NP) of influenza type A (H1N1 and H3N2) and B viruses by SDS-PAG preparative electrophoresis and preparation of monospecific antisera to these proteins was demonstrated. The resulting preparations may be used for testing the biological objects by enzymeimmunoassay.

[Isolation of preparative amounts of influenza virus hemagglutinin by an affinity chromatographic method].

The use of affinity column sepharose-tyrosine-sulfanilic acid permits one to obtain preparative amounts of pure hemagglutinin of the types H1, H2, H3 from the total amount of surface glycoproteins solubilized by octylglycoside from antigenically different strains of influenza A virus. The yield of hemagglutinin ranges from 30% to 84% depending on the virus strain.