[The effect of prolonged flow aspiration drainage of laparotomy wounds of oncological coloproctologic patients on cytological parameters of wound secretion].

In oncologic coloproctologic patients the comparative cytological analysis of wound secretion in healing midline laparotomy wounds was implemented. The wounds were taken in common way (layer-by-layer tightly) and with prolonged flow aspiration drainage of subcutaneous cellular tissue. It is proved that application of prolonged flow aspiration drainage effects positively on regeneration process and objectively reflects more benevolent course of healing of laparotomy wounds. In the end, this mode decreases number of festering from 7.3% in control group to 1.6% in main group (p < 0.05).

Role of Structure-Based Changes due to Somatic Mutation in Highly Homologous DNA-Binding and DNA-Hydrolyzing Autoantibodies Exemplified by A23P Substitution in the VH Domain.

Anti-DNA autoantibodies are responsible for tissue injury in lupus. A subset of DNA-specific antibodies capable of DNA cleavage can be even more harmful after entering the living cells by destroying nuclear DNA. Origins of anti-DNA autoantibodies are not fully understood, and the mechanism of induction of DNA-cleaving activity remains speculative. The autoantibody BV04-01 derived from lupus-prone mouse is the only DNA-hydrolyzing immunoglobulin with known 3D structure. Identification and analysis of antibodies homologous to BV04-01 may help to understand molecular bases and origins of DNA-cleaving activity of autoantibodies. BLAST search identified murine anti-DNA autoantibody MRL-4 with sequences of variable region genes highly homologous to those of autoantibody BV04-01. Despite significant homology to BV04-01, not only MRL-4 had no DNA-cleaving activity, but also reversion of its unusual P23 mutation to the germline alanine resulted in a dramatic loss of affinity to DNA. Contrary to this effect, transfer of the P23 mutation to the BV04-01 has resulted in a significant drop in DNA binding and almost complete loss of catalytic activity. In the present paper we analyzed the properties of two homologous autoantibodies and mutants thereof and discussed the implications of unusual somatic mutations for the development of autoantibodies with DNA-binding and DNA-hydrolyzing activity.

[The dds20+ gene controls a novel Rad51Sp-dependent pathway of recombinational repair in Schizosaccharomyces pombe].

Repair of DNA double-strand break (DSB) is an evolutionary conserved Rad51-mediated mechanism. In yeasts, Rad51 paralogs, Saccharomyces cerevisiae Rad55-Rad57 and Schizosaccharomyces pombe Rhp55-Rhp57 are mediators of the nucleoprotein RadS1 filament formation. As shown in this work, a novel RAD51Sp-dependent pathway of DSB repair acts in S. pombe parallel to the pathway mediated by Rad51 paralogs. A new gene dds20+ that controls this pathway was identified. The overexpression of dds20+ partially suppresses defects of mutant rhp55delta in DNA repair. Cells of dds20delta manifest hypersensitivity to a variety of genotoxins. Epistatic analysis revealed that dds20+ is a gene of the recombinational repair group. The role of Dds20 in repair of spontaneous damages occurring in the process of replication and mating-type switching remains unclear. The results obtained suggest that Dds20 has functions beyond the mitotic S phase. The Dds20 protein physically interacts with Rhp51 (Rad51Sp). Dds20 is assumed to operate at early recombinational stages and to play a specific role in the Rad51 protein filament assembly differing from that of Rad51 paralogs.

Changes in apoplastic pH and membrane potential in leaves in relation to stomatal responses to CO2, malate, abscisic acid or interruption of water supply.

Low CO2 concentrations open CO2-sensitive stomata whereas elevated CO2 levels close them. This CO2 response is maintained in the dark. To elucidate mechanisms underlying the dark CO2 response we introduced pH- and potential-sensitive dyes into the apoplast of leaves. After mounting excised leaves in a gas-exchange chamber, changes in extracellular proton concentration and transmembrane potential differences as well as transpiration and respiration were simultaneously monitored. Upon an increase in CO2 concentration transient changes in apoplastic pH (occasionally brief acidification, but always followed by alkalinization) and in membrane potential (brief hyperpolarization followed by depolarization) accompanied stomatal closure. Alkalinization and depolarization were also observed when leaves were challenged with abscisic acid or when water flow was interrupted. During stomatal opening in response to CO2-free air the apoplastic pH increased while the membrane potential initially depolarized before it transiently hyperpolarized. To examine whether changes in apoplastic malate concentrations represent a closing signal for stomata, malate was fed into the transpiration stream. Although malate caused apoplastic alkalinization and membrane depolarization reminiscent of the effects observed with CO2 and abscisic acid, this dicarboxylate closed the stomata only partially and less effectively than CO2. Apoplastic alkalinization was also observed and stomata closed partially when KCl was fed to the leaves. Respiration increased on feeding of malate or KCl, or while abscisic acid closed the stomate. From these results we conclude that CO2 signals modulate the activity of plasma-membrane ion channels and of plasmalemma H+-ATPases during changes in stomatal aperture. Responses to potassium malate and KCl are not restricted to guard cells and neighbouring cells.

pH regulation in apoplastic and cytoplasmic cell compartments of leaves.

The regulation of pH in the apoplast, cytosol and chloroplasts of intact leaves was studied by means of fluorescent pH indicators and as a response of photosynthesis to acid stress. The apoplastic pH increased under anaerobiosis. Aeration reversed this effect. Apoplastic responses to CO2, HCl or NH3 differed considerably. Whereas HCl and ammonia caused rapid acidification or alkalinization, the return to initial pH values was slow after cessation of fumigation. Addition of CO2 either did not produce the acidification expected on the basis of known apoplastic buffering or even caused some alkalinization. Removal of CO2 shifted the apoplastic pH into the alkaline range before the pH returned to initial steady-state levels. In the presence of vanadate, the alkaline shift was absent and the apoplastic pH returned slowly to the initial level when CO2 was removed from the atmosphere. In contrast to the response of the apoplast, anaerobiosis acidified the cytosol or, in some species, had little effect on its pH. Acidification was rapidly reversed upon re-admission of oxygen. The CO2-dependent pH changes were very fast in the cytosol. Considerable alkalinization was observed after removal of CO2 under aerobic, but not under anaerobic conditions. Rates of the re-entry of protons into the cytosol during recovery from CO2 stress increased in the presence of oxygen with the length of previous exposure to high CO2. Effective pH regulation in the chloroplasts was indicated by the recovery of photosynthesis after the transient inhibition of photosynthetic electron flow when CO2 was increased from 0.038% to 16% in air. As photosynthesis became inhibited under high CO2, reduction of the electron transport chain increased transiently. The time required for recovery of photosynthesis from inhibition during persistent CO2 stress was similar to the time required for establishing steady-state pH values in the cytosol under acid stress. The high capacity of leaf cells for the rapid re-attainment of pH homeostasis in the apoplast and the cytoplasm under acid or alkaline stress suggested the rapid activation or deactivation of membrane-localised proton-transporting enzymes and corresponding ion channel regulation for co-transport of anions or counter-transport of cations together with proton fluxes. Acidification of the cytoplasm appeared to activate energy-dependent proton export primarily into the vacuoles whereas apoplastic alkalinization resulted in the pumping of protons into the apoplast. Proton export rates from the cytosol into the apoplast after anaerobiosis were about 100 nmol (m2 leaf area)(-1) s(-1) or less. Proton export under acid stress into the vacuole was about 1200 nmol m(-2) s(-1). The kinetics of pH responses to the addition or withdrawal of CO2 indicated the presence of carbonic anhydrase in the cytosol, but not in the apoplast.

pH and buffer capacities of apoplastic and cytoplasmic cell compartments in leaves.

After opening the stomata in CO(2)-free air, darkened leaves of several plant species were titrated with CO(2) at concentrations between 1 and 16%, in air in order to reversibly decrease cellular pH values and to calculate buffer capacities from pH changes and bicarbonate accumulation using both gas-exchange and fluorescence methods for analysis. After equilibration with CO(2) for times ranging between 4.4 and 300 s, fast CO(2) release from bicarbonate indicated catalysis by highly active carbonic anhydrase. Its time constant was below 2.5 s. Additional CO(2) was released with time constants of about 5, 15 and approximately 300 s. With CO(2) as the acidifying agent, calculated buffer capacities depend on assumptions regarding initial pH in the absence of an acid load. At an initial stroma pH of 7.7, the stromal buffer capacity was about 20 mM pH-unit(-1 )in darkened spinach leaves. At an initial pH of 7.5 it would be only 12 mM pH-unit(-1), i.e. not higher than expected solely on the basis of known stromal concentrations of phosphate and phosphate esters, disregarding the contribution of other solutes. At a concentration of 16%, CO(2) reduced the stromal pH by about 1 pH unit. Buffering of the cytosol was measured by the CO(2)-dependent quenching of the fluorescence of pyranine which was fed to spinach leaves via the petiole. Brief exposures to high CO(2) minimized interference by effective cytosolic pH regulation. Cytosolic buffering appeared to be similar to or only somewhat higher than chloroplast buffering if the initial cytosolic pH was assumed to be 7.25, which is in accord with published cytosolic pH values. The difference from chloroplast pH values indicates the existence of a pH gradient across the chloroplast envelope even in darkened leaves. Apoplastic buffering was weak as measured by the CO(2)-dependent quenching of dextran-conjugated fluorescein isothiocyanate which was infiltrated together with sodium vanadate into potato leaves. In the absence of vanadate, the kinetics of apoplastic fluorescence quenching were more complex than in its presence, indicating fast apoplastic pH regulation which strongly interfered with the determination of apoplastic buffering capacities. At an apoplastic pH of 6.1 in potato leaves, apoplastic buffering as determined by CO(2) titration with and without added buffer was somewhat below 4 mM pH-unit(-1). Thus the apoplastic and cytosolic pH responses to additions of CO(2 )indicated that the observed cytoplasmic pH regulation under acid stress involves pumping of protons from the cytosol into the vacuole of leaf cells, but not into the apoplast.

A new recombinational DNA repair gene from Schizosaccharomyces pombe with homology to Escherichia coli RecA.

A new DNA repair gene from Schizosaccharomyces pombe with homology to RecA was identified and characterized. Comparative analysis showed highest similarity to Saccharomyces cerevisiae Rad55p. rhp55(+) (rad homologue pombe 55) encodes a predicted 350-amino-acid protein with an M(r) of 38,000. The rhp55Delta mutant was highly sensitive to methyl methanesulfonate (MMS), ionizing radiation (IR), and, to a lesser degree, UV. These phenotypes were enhanced at low temperatures, similar to deletions in the S. cerevisiae RAD55 and RAD57 genes. Many rhp55Delta cells were elongated with aberrant nuclei and an increased DNA content. The rhp55 mutant showed minor deficiencies in meiotic intra- and intergenic recombination. Sporulation efficiency and spore viability were significantly reduced. Double-mutant analysis showed that rhp55(+) acts in one DNA repair pathway with rhp51(+) and rhp54(+), homologs of the budding yeast RAD51 and RAD54 genes, respectively. However, rhp55(+) is in a different epistasis group for repair of UV-, MMS-, or gamma-ray-induced DNA damage than is rad22(+), a putative RAD52 homolog of fission yeast. The structural and functional similarity suggests that rhp55(+) is a homolog of the S. cerevisiae RAD55 gene and we propose that the functional diversification of RecA-like genes in budding yeast is evolutionarily conserved.

[Antibodies against Escherichia coli RecA protein reveal two nuclear proteins in bovine spermatocytes which interact with synaptonemal complex structures of meiotic chromosomes of various eukaryotic organisms]. / Antitela k RecA-belku Escherichia coli vyiavliaiut dva iadernykh belka v spermatotsitakh byka, kotorye vzaimodeistvuiut so strukturami sinaptonemnogo kompleksa meioticheskikh khromosom riada éukarioticheskikh organizmov.

Three RecA-like proteins were detected in bovine meiotic cells using antibodies against Escherichia coli RecA protein. After isolation and purification of these RecA-like proteins their molecular weights appeared to be equal to 37, 70 and 130 kD. The 37 kD protein accompanies all the stages of spermatogenesis up to the stage of mature spermatozoa. The 70 kD protein is detectable only in nuclei of cells at the stage of prophase I of meiotic division. These RecA-like proteins are involved in the formation of structural elements of the synaptonemal complex (SC) and are detected in the SC composition in meiotic cells not only of mammals but also of plants and insects, which suggests the evolutionary conservative character of these proteins.

[Comparison of the effectiveness of oil and water solutions of alpha-tocopherol as radiation protection agent]. / Porivnialna efektyvnict maslianoi ta vodorozchynnoi form a-tokoferolu iak radioprotektoriv.

The change in alpha-tocopherol content (as an index of the antioxidative organism system mobilization) in the brain, liver, muscles and heart of rats prior to and after total gamma-irradiation with lethal dose has been studied. Prior to the irradiation alpha-tocopheryl-acetate (oil solution), alpha-tocopheryl-phosphate dipotassium salt (water solution), gammaphos (prepared WR 2721, water solution) were introduced into rats. It is shown that water-soluble form of vitamin E is more effective than gammaphos and much more efficient than oil form of alpha-tocopherol.

[Effectiveness of various pharmaceutical forms of alfa-tocopherol]. / Doslidzhennia efektyvnosti riznykh likarskykh form alfa-tokoferolu.

The content of alpha-tocopherol in brain, liver, heart and muscle of Wistar rats has been studied. The water-soluble form of alpha-tocopherol: alpha-tocopheryl-phosphate dipotassium is more effective than the oil-soluble form: alpha-tocopheryl-acetate.

[External respiration and gas exchange in space flights]. / Vneshnee dykhanie i gazoobmen v kosmicheskikh poletakh.

This is an overview of investigations performed in actual and simulated flights to study the effects of microgravity and acceleration, space cabin and space suit artificial atmosphere on the respiratory function. The conceptual prediction of the effects that the space environment produces on the respiratory system suggests the following changes in respiration, gas exchange, and acid-base equilibrium: respiration biomechanics; gas diffusion and ventilation-perfusion ratios in the lungs; regulation of respiration and function of respiratory muscles; lung hydration and blood filling; respiratory changes in acid-base equilibrium and blood gases. Besides, the combined effect of microgravity, acceleration, low barometric pressure and modified gas composition may cause lung atelectases and concomitant disorders in pulmonary ventilation and gas exchange. These changes may have an adverse effect on the health condition and physical work capacity.

[The effect of various rec-mutations on the frequency of the Tn917 transposition in Bacillus subtilis cells]. / Vliianie razlichnykh rec-mutatsii na chastotu transpozitsii Tn917 v kletkakh Bacillus subtilis.

The effect of 11 rec-genes on the transposition frequency of Tn917 has been studied. Transposition frequencies in RecP, RecF15, RecB3 mutants differed from the ones in the control strains. The collection of mitomycin-sensitive mutants has been tested for transposition proficiency. The mms315 mutation decreasing the transposition frequency possess the properties of the rec mutation too.

[Use of the thermoinducible temperate phage Phi 105cts139 for cloning in Bacillus subtilis]. / Ispol'zovanie termoindutsibel'nogo umerennogo faga phi 105cts139 dlia klonirovaniia v Bacillus subtilis.

The gene for alpha-amylase from Bacillus amyloliquefaciens having a foreign promoter providing gene expression in logarithmic growth phase and the cat gene of plasmid pC194 (AC fragment) were inserted into thermoinducible prophage phi 105 cts139. Possibility of amylolytic activity enhancement was studied after thermoinduction. When AC fragment and random PstI restricts of phage DNA were ligated and used to transform Bacillus subtilis 1A289 (phi 105 cts139) the Amy+ CmR transformants were obtained having the different levels of increased amylolytic activity (maximum--26 fold). Numerous phages without insert found in induced lysates suggest that insertions were unstable and (or) the clones were double lysogens for hybrid and original type phages. Stable insertion of AC fragment replacing the PstI-H-fragment of phage DNA revealed that all Amy+ CmR transformants were double lysogens. Inducibility depended on the insertion orientation.

[Integration and expression of the human dihydrofolate reductase gene in the Bacillus subtilis chromosome]. / Integratsiia i ékspressiia gena digidrofolatreduktazy cheloveka v khromosome Bacillus subtilis.

Integration of functionally active human dihydrofolate reductase (hDHFR) gene into the Bacillus subtilis chromosome was performed. The clones obtained contained 1 to 7 copies of hDHFR gene per chromosome equivalent and were resistant to trimethoprim. In cell lysates of such clones a protein with the molecular mass of hDHFR was detected. The hDHFR gene was stably maintained in all clones having this gene integrated into the bacterial chromosome, when grown under non-selective conditions.

Various means of integration of the expressible human dihydrofolate reductase gene into the Bacillus subtilis genome.

Integration of expressible DNA corresponding to the human dihydrofolate reductase (hDHFR) gene into the Bacillus subtilis genome has been achieved in different ways. The clones obtained contained one to seven copies of this gene per genome equivalent and were resistant to trimethoprim. Clones produce a new protein coded by the integrated hDHFR gene. In all clones, the integrated DNA was stably maintained even under nonselective growth conditions.

[Excision process of integrated plasmid pBD12 from the Bacillus subtilis chromosome]. / Izuchenie protsessa ékstsizii integrirovannoi plazmidy pBD12 iz khromosomy Bacillus subtilis.

We studied the behavior of pBD12 plasmid integrated into Bacillus subtilis chromosome via homologous recombination. One copy of the plasmid was integrated into the chromosome, it conferred resistance to low concentrations of antibiotics. Clones with enhanced resistance bearing autonomous plasmid DNAs appeared with a frequency 10(-6) in rec+ but not in recE strain with the integrated plasmid. By restriction and hybridization analysis of some excised plasmids, the sites of excision were determined, chromosomal location of pBD12 plasmid was found to be at the terminal fragment of prophage DNA, so that the att site of phi 105 phage is supposed to be situated on the EcoRI fragment of phage DNA.