Activity of NADP-dependent glyceraldehyde-phosphate dehydrogenase and phosphoenolpyruvate carboxylase in wheat leaves under water stress

The activities of NADP: glyceraldehyde-phosphate dehydrogenase (GAPDH), an enzyme complex comprising of phosphoglycerate kinase (EC 2.7.2.3) and glyceraldehyde-phosphate dehydrogenase (EC 1.2.1.13), and phosphoenolpyruvate carboxylase (PEPK; EC 4.1.1.31) in seedlings and leaves of wheat (Triticum aestivum L.) plants of the cultivars Mironovskaya 808 and Lutescens 758 have been compared under conditions of normal water supply, water deficiency, and subsequent rehydration. GAPDH activity, which determines the carbohydrate route of photosynthetic metabolism at the initial stages, is decreased by water stress to a greater extent than that of PEPK, on the activity of which non-carbohydrate metabolic pathways depend. Pretreatment of seedlings and mature plants with natural (6-benzylaminopurine) and synthetic (tidiazuron, kartolin-2, and kartolin-4) cytokinins attenuates the loss of enzyme activities during drought and facilitates their recovery within the period of rehydration; both effects are underlain by augmentation of reparation processes. The relative intensification of non-carbohydrate pathways of photosynthetic metabolism, observed under conditions of water deficiency, is accompanied by an increase in the osmotic pressure of cell sap. Possible mechanisms of this protector effect of cytokinin preparations are discussed.     

Effect of cytokinin preparations on the pools of pigments and proteins of wheat cultivars differing in their tolerance to water stress

Contents of chlorophylls, carotenoids, soluble leaf proteins, and the key enzyme of carbon metabolism--ribulose bisphosphate carboxylase/oxygenase (RuBisCO; EC 4.1.1.39)--in young seedlings and adult leaves of the wheat Triticum aestivum L. cultivars Mironovskaya 808 and Lyutestsens 758, contrasting in their water stress tolerances, were compared under conditions of normal available water supply, water deficiency, and subsequent rehydration. It was discovered that compounds displaying a cytokinin activity (6-benzylaminopurine, thidiazuron, cartolin-2, and cartolin-4) reduced the decreases in contents of chlorophylls, carotenoids, soluble leaf proteins, and RuBisCO progressing with development of water stress. These compounds with cytokinin activity also accelerated restoration of the compounds studied to their initial concentrations during rehydration. The cartolin preparations caused a maximal protective effect. Water stress had a more pronounced negative effect on cultivar Lyutestsens 758. Dehydration resulted in a more extensive destruction of seedlings compared to leaves of adult plants.     

Point mutation in the <Emphasis Type="Italic">Virbrio cholerae</Emphasis> O139 <Emphasis Type="Italic">cef</Emphasis> (CHO cell elongating factor) gene alters the substrate specificity of its product

Sequencing of the cef (CHO cell elongating factor) gene of Vibrio cholerae serogroup O139 revealed one nucleotide substitution (T to C at nucleotide 2015) as compared to cef of classical V. cholerae O1 and two substitutions (GT to AC at nucleotides 2014–2015) as compared to cef of V. cholerae O1 El Tor. A comparative bioinformatic analysis showed that the substitution determines a threonine residue in position 672 of the Cef protein, while this position is occupied by an isoleucine residue in the classical strains and a valine residue in the El Tor strains. The latter two amino acids are hydrophobic, while threonine is hydrophilic, having a polar R group. The nonsynonymous substitution affects the predicted secondary and, probably, tertiary structures of the Cef-O139 protein and explained our previous finding that the protein fails to degrade tributyrin, while retaining the tweenase activity spectrum and all other characteristics. It cannot be excluded that the inability of Cef-O139 to cleave triglycerides, along with other genetic specifics, contribute to the fact that the O139 serogroup has been supplanted from a dominating position in etiology of cholera by the El Tor biotype. The nucleotide sequence of the V. cholerae O139 cef gene and the deduced amino acid sequence of its product are reported for the first time and were deposited in GenBank under accession nos. JF499787 and AEC04822.1, respectively.     

Functional Specifics of the MutL Protein of the DNA Mismatch Repair System in Different Organisms

Russian Journal of Bioorganic Chemistry - A DNA mismatch repair (MMR) system is found in all living organisms. MMR dysfunction at any step of DNA repair leads to an accumulation of mutations in the...     

The genome polymorphism of Vibrio cholerae ctxAB(-) strains, containing the proximal part of the CTX element

The comparative analysis of the hybridization patterns of DNA restricts for 20 V. cholerae, groups 01 and non-01 (non-0139), containing the incomplete CTX element (ctxAB-) was carried out with the use of probes, complementary to the genes of the proximal part of the virulence cassettle and flanking its RS1 sequences. This group was found to be heterogeneous both in the number of copies of "truncated" CTX prophage and their localizations in the genome, as well as in the position of the sites of restriction endonucleases HindlII and BglII. Among 17 clinically noncholerigenic isolates, 5 etiologically dangerous clones were found, each of them characterized by the definite time and place of isolation. At least one of them proved to be the causative agent of the local outbreak of diarrheal diseases in Uzbekistan.     

The determination of the optimal conditions for the production of a number of pathogenicity factors in Vibrio cholerae

Conditions for the cultivation of V. cholerae of different sero- and biovars on tryptone medium, ensuring the maximum production of cholera toxin (CT), dermonecrotic factor (DNF), hemorrhagic factor (HF) and new cholera toxin (NCT) have been determined. The lack of coincidence in the optimum conditions ensuring the maximum production of CT, DNF and HF has been established, which may be indicative of different nature of these toxic substances. NCT, produced by vct- strains, is similar to CN in biological activity as determined in the skin permeability test and in the conditions of accumulation in tryptone medium.     

Protective role of kartolin-4 in soil drought in wheat plants

Parameters of photosynthesis, heat-resistance, and osmotic pressure of cell exudate of leaves of the drought-sensitive cultivar Lyutestsens 758 of wheat, Triticum aestivum, were studied under conditions of normal water supply, soil drought, and subsequent rehydration. The plants preliminarily treated with kartolin-4 were compared to untreated plants. Kartolin-4, a preparation with cytokininlike activity, partially prevented the drought-induced inhibition of the photosynthetic assimilation of carbon dioxide and carboxylation activities of ribulose-1,5-bisphosphate carboxylase/oxygenase (EC 4.1.1.39), the key enzyme of carbon metabolism in plants. Upon a subsequent rehydration, kartolin-4 stimulated the reparation reactions and facilitated rapid recovery of normal photosynthetic activity. Kartolin-4 also increased plant resistance to overheating and water deficiency.     

Role of coryneform bacteria in the degradation of ordram in a reservoir

The object of the work was to study the role of coryneform microorganisms in the degradation of residues of ordram, a thiocarbamate herbicide. Only rhodococci were found to play an essential role in the process among these bacteria. Rhodococci actively oxidized the herbicide if its concentration was several milligrams per litre though its high concentrations (over 100 mg/l) inhibited the growth of the bacteria. This group of microorganisms, together with bacilli and certain cocci, belongs to the most active part of saprophytic microflora which transforms the molecule of the original herbicide yielding keto and hydroxy derivatives, sulfoxide, products of S-dealkylation and cleavage of the hexamethyleneimine ring. The incidence of rhodococci remains at a high level if the appropriate cosubstrates are added. In the conditions of rice check plots, rhodococci can play an essential role in the degradation of the herbicide.     

A protector effect of cytokinin preparations on the photosynthetic apparatus of wheat plants under water deficiency conditions

The protective effects of the cytokinin 6-benzylaminopurine and the compounds thidiazuron and kartolin, displaying a cytokinin activity, on the photosynthetic apparatus of young seedlings and leaves of adult plants of two wheat (Triticum aestivum L.) cultivars, Mironovskaya 808 (more drought tolerant) and Lutescens 758 (less tolerant to water stress), were compared on the background of an increasing water deficiency. At the stages of drought and subsequent rehydration, cartolin preparations were the most efficient protectors, enhancing a less pronounced decrease in the intensity of photosynthesis, carboxylating activity of the key enzyme of carbon metabolism--ribulose bisphosphate carboxylase/oxygenase (EC 4.1.1.39)-and the activity of NADP-glyceraldehyde phosphate dehydrogenase--the enzyme complex comprising phosphoglycerate kinase (EC 2.7.2.3) and glyceraldehyde phosphate dehydrogenase (EC 1.2.1.13). This effect also included an increase in the leaf specific density and plant productivity. The negative influence of water stress on the photosynthetic apparatus was more pronounced in a less tolerant cultivar Lutescens 758 and in the seedlings as compared with the adult plants.