פרסומים

Abstract Oxidative stress is generated in plants because of inequalities in the rate of reactive oxygen species (ROS) generation and scavenging. The subcellular redox state under various stress conditions was assessed using the redox reporter roGFP2 targeted to chloroplastic, mitochondrial, peroxisomal and cytosolic compartments. In parallel, the vitality of the plant was measured by ion leakage. Our results revealed that during certain physiological stress conditions the changes in roGFP2 oxidation are comparable to application of high concentrations of exogenous H2O2. Under each stress, particular organelles were affected. Conditions of extended dark stress, or application of elicitor, impacted chiefly on the status of peroxisomal redox state. In contrast, conditions of drought or high light altered the status of mitochondrial or chloroplast redox state, respectively. Amalgamation of the results from diverse environmental stresses shows cases of organelle autonomy as well as multi-organelle oxidative change. Importantly, organelle-specific oxidation under several stresses proceeded cell death as measured by ion leakage, suggesting early roGFP oxidation as predictive of cell death. The measurement of redox state in multiple compartments enables one to look at redox state connectivity between organelles in relation to oxidative stress as well as assign a redox fingerprint to various types of stress conditions.

The effect of different conformations and substitutions on the photoisomerization of a retinal protonated Schiff base model is investigated by nonadiabatic molecular dynamics simulations. Three groups of retinal analogues are studied: (i) conformational isomers, (ii) methyl-substituted retinals, and (iii) C11-C12 bond locked retinals. In total 259 trajectories are calculated in the gas phase starting from different initial conditions. The effect on bond selectivity, the directionality of the isomerization, excited-state lifetime, and product distribution is derived from the ensemble of trajectories. Among the group of four isomers (9-, 11-, 13-cis, and all-trans) the 11-cis analogue is the most selective in terms of isomerizing double bond, while the other three produce a mixture of isomers. However, there is no preference for isomerization directionality and the product formation for the 11-cis isomer. In the group of analogues with different methylation patterns, it is found that a methyl group at position C10 can introduce unidirectionality. This methyl group also speeds the photoisomerization. In case of the analogue that is demethylated at the positions C10 and C13, all trajectories isomerize successfully from cis to trans conformation. The three C11-C12 bond locked retinals are found to have very different properties, which depend on the number of methylene units bridging this bond. The five-membered ring imposes a too-large restriction; hence, all trajectories remain on the excited state in the simulation time of 300 fs. The seven-membered ring is more flexible with preference for isomerization of the C9-C10 bond. Interestingly, the eight-membered ring leads to the fastest isomerization time and full directionality of C11-C12 bond isomerization. The trends observed in these simulations can help to understand whether the effects are intrinsic to the chromophore or are induced by the protein environment, by comparing to the trends from experiment. Furthermore, the derived understanding can support design of molecular motors to achieve high product yield and unidirectionality. © 2016 American Chemical Society.

In this chapter, we evaluate and analyse the outcomes of agrarian reform in the post-Soviet Russian Federation. The reform has led to a clear change in the agrarian system in Russia, but not all the population, especially not all rural people, have come out as winners. The observed increase in agricultural labour productivity has been accompanied by shedding of labour in agriculture and increasing rural unemployment; the higher productivity of livestock has been accompanied by herd contraction; improved input efficiency has been accompanied by reduction of input use; improved financial stability of agricultural producers has been accompanied by more frequent bankruptcies; and increase of total support to agriculture has been accompanied by reduced efficiency of the support. So far, Russia has not reached the pre-reform production level, and food self-sufficiency is below 90%. A new middle class has not emerged in rural areas: most rural people are the new ‘proletariat’; they earn their livelihoods as hired workers and many of them have lost their land. We observe that agricultural production is increasingly concentrated in large vertically integrated structures with a multiplicity of agricultural subsidiaries and structures that are without analogues in developed economies. The evaluation of Russia’s reform requires a multi-faceted analysis of the entire range of outcomes, accounting for all effects including the adverse impacts. It is only in this way that we can draw valid conclusions from experience and develop recommendations for the future. © Springer International Publishing Switzerland 2017.

Cellular senescence is thought to contribute to age-associated deterioration of tissue physiology. The senescence effector p16(Ink4a) is expressed in pancreatic beta cells during aging and limits their proliferative potential; however, its effects on beta cell function are poorly characterized. We found that beta cell-specific activation of p16(Ink4a) in transgenic mice enhances glucose-stimulated insulin secretion (GSIS). In mice with diabetes, this leads to improved glucose homeostasis, providing an unexpected functional benefit. Expression of p16(Ink4a) in beta cells induces hallmarks of senescence--including cell enlargement, and greater glucose uptake and mitochondrial activity--which promote increased insulin secretion. GSIS increases during the normal aging of mice and is driven by elevated p16(Ink4a) activity. We found that islets from human adults contain p16(Ink4a)-expressing senescent beta cells and that senescence induced by p16(Ink4a) in a human beta cell line increases insulin secretion in a manner dependent, in part, on the activity of the mechanistic target of rapamycin (mTOR) and the peroxisome proliferator-activated receptor (PPAR)-gamma proteins. Our findings reveal a novel role for p16(Ink4a) and cellular senescence in promoting insulin secretion by beta cells and in regulating normal functional tissue maturation with age.

Kinetic studies on the stability of the pain killer paracetamol in Al-Quds activated sludge demonstrated that paracetamol underwent biodegradation within less than one month to furnish p-aminophenol in high yields. Characterizations of bacteria contained in Al-Quds sludge were accomplished. It was found that Pseudomonas aeruginosa is the bacterium most responsible for the biodegradation of paracetamol to p-aminophenol and hydroquinone. Batch adsorptions of paracetamol and its biodegradation product (p-aminophenol) by activated charcoal and a composite micelle (octadecyltrimethylammonium)–clay (montmorillonite) were determined at 25°C. Adsorption was adequately described by a Langmuir isotherm, and indicated better efficiency of removal by the micelle–clay complex. The ability of bench top reverse osmosis (RO) plant as well as advanced membrane pilot plant to remove paracetamol was also studied at different water matrixes to test the effect of organic matter composition. The results showed that at least 90% rejection was obtained by both plants. In addition, removal of paracetamol from RO brine was investigated by using photocatalytic processes; optimal conditions were found to be acidic or basic pH, in which paracetamol degraded in less than 5 min. Toxicity studies indicated that the effluent and brine were not toxic except for using extra low energy membrane which displayed a half maximal inhibitory concentration (IC-50) value of 80%. © 2016 Taylor & Francis.

Current parameter estimation techniques rely on photodetectors which have a low efficiency and thus are based on gathering averaged statistics. Recently it was claimed that perfect photodetction will change the nature of sensing algorithms and will increase the sensing efficiency beyond the immediate effect of a higher collection efficiency. In this paper we bring up the observation that perfect photodetection implies Heisenberg scaling (1T) for parameter estimations. We analyze a specific example in detail.

This review discusses various parameters that influence and control the organo-metal halide perovskite crystallization process. The effect of the perovskite morphology on the photovoltaic performance is a critical factor. Moreover, it has a dramatic effect on the stability of the perovskite, which has significant importance for later use of the organo-metal perovskite in assorted applications. In this review, we brought together several research investigations that describe the main parameters that significantly influence perovskite crystallization, for example, the annealing process, the precursor solvent, anti-solvent treatment, and additives to the iteite solutions.mechanisms. Control over morphology is a key parameter to understand this attractive material; morphology control will be an additional step throughout its commercialization process. The review is divided to four parts, presenting various parameters influencing perovskite crystallization and morphology. Section 2 discusses the effect of the annealing process; Section 3 describes the precursor solvent, presenting the possible solvents being used in the deposition process; Section 4 presents the anti-solvent treatment and its effect on the cell properties; and Section 5 discusses additives that can be added to the perovskite solution before deposition.