The effect of salicylic acid on barley response to water deficit

The effect of a moderate (PEG −0.75 MPa) and severe (PEG −1.5 MPa) water deficit on SA content in leaves and roots as well as the effect of pre-treatment with SA on reaction to water stress were evaluated in two barley genotypes — the modern cv. Maresi and a wild form of Hordeum spontaneum. Water deficit increased SA content in roots, whereas SA content in leaves did not change. The level of SA in the roots of control plants was about twofold higher in ‘Maresi’ than in H. spontaneum. After 6 hours of a moderate stress the level of SA increased about twofold in H. spontaneum and about two and a half-fold in ‘Maresi’. Under severe stress conditions the level of SA increased about twofold in the both genotypes, but not before 24 hrs of the stress. Plant treatment with SA before stress reduced a damaging action of water deficit on cell membrane in leaves. A protective effect was more noticeable in H. spontaneum than in ‘Maresi’. SA treatment increased ABA content in the leaves of the studied genotypes. An increase of proline level was observed only in H. spontaneum. The obtained results suggest that ABA and proline can contribute to the development of antistress reactions induced by SA.     

Quantifying the biologically possible range of steady-state soil and surface climates with climate model simulations

The terrestrial biosphere shapes the exchange fluxes of energy and mass at the land surface. The diversity of plant form and functioning can potentially result in a wide variety of possible climatic conditions at the land surface and in the soil, which in turn feed back to more or less suitable conditions for terrestrial productivity. Here, I use sensitivity simulations to vegetation form and functioning with a global climate model to quantify this possible range of steady-states (“PROSS”) of the surface energy-and mass balances. The surface energy-and water balances over land are associated with substantial sensitivity to vegetation parameters, with precipitation varying by more than a factor of 2, and evapotranspiration by a factor of 5. This range in biologically possible climatic conditions is associated with drastically different levels of vegetation productivity. Optimum conditions for maximum productivity are close to the simulated climate of present-day conditions. These results suggest the conclusions that (a) climate does not determine vegetation form and function, but merely constrains it, and (b) the emergent climatic conditions at the land surface seem to be close to optimal for the functioning of the terrestrial biosphere.     

An estimation of Canadian population exposure to cosmic rays from air travel

Based on air travel statistics in 1984, it was estimated that less than 4 % of the population dose from cosmic ray exposure would result from air travel. In the present study, cosmic ray doses were calculated for more than 3,000 flights departing from more than 200 Canadian airports using actual flight profiles. Based on currently available air travel statistics, the annual per capita effective dose from air transportation is estimated to be 32 μSv for Canadians, about 10 % of the average cosmic ray dose received at ground level (310 μSv per year).     

β-galactosyl-pyrrolidinyl diazeniumdiolate: an efficient tool to investigate nitric oxide functions on promoting cell death

Nitric oxide (NO) is an active free radical gas that plays crucial roles in a broad range of biological processes. Extremely short half-life makes it difficult to use NO directly in research. It has been suggested that different concentrations of NO may lead to quite opposite results on cytotoxicity. However, the net effect of intracellular NO on tumor cell death has been controversial, partly because it is hard to precisely control the amount of NO generated exclusively within the target cells. Therefore, we have developed a cell-specific NO donor, β-galactosyl-pyrrolidinyl diazeniumdiolate (β-Gal-NONOate), in hopes of simulating the actual effects of intracellularly derived NO on the patterns of cell death as well as investigating its underlying mechanisms. In this study, by using three different tumor cell models, we showed that β-Gal-NONOate could steadily transport NO into the target cells with similar delivery efficiencies and exerted a determinative effect on cell death. In addition, β-Gal-NONOate-derived intracellular NO could provoke both apoptosis and necrosis in a concentration-dependent manner. While lower NO concentration primarily induced apoptosis, higher NO concentration mainly triggered necrosis. Moreover, the intrinsic apoptotic pathway, characterized by rapid Ca²⁺ overload and subsequent mitochondrial damage, was the collective mechanism responsible for the apoptotic death in all the three tumor cell lines. Taken together, since this cell-specifically derived NO is cheap to use and easy to quantify, β-Gal-NONOate might be used as a novel and ideal tool to standardize intracellular NO generation and evaluate its net effects in different cellular and experimental settings in the coming future.     

The endoplasmic reticulum stress induced by highly expressed OsrAAT reduces seed size via pre-mature programmed cell death

The high accumulation of a recombinant protein in rice endosperm causes endoplasmic reticulum (ER) stress and in turn dramatically affects endogenous storage protein expression, protein body morphology and seed phenotype. To elucidate the molecular mechanisms underlying these changes in transgenic rice seeds, we analyzed the expression profiles of endogenous storage proteins, ER stress-related and programmed cell death (PCD)-related genes in transgenic lines with different levels of Oryza sativa recombinant alpha antitrypsin (OsrAAT) expression. The results indicated that OsrAAT expression induced the ER stress and that the strength of the ER stress was dependent on OsrAAT expression levels. It in turn induced upregulation of the expression of the ER stress response genes and downregulation of the expression of the endogenous storage protein genes in rice endosperm. Further experiments showed that the ER stress response upregulated the expression of PCD-related genes to disturb the rice endosperm development and induced pre-mature PCD. As consequence, it resulted in decrease of grain weight and size. The mechanisms for the detriment seed phenotype in transgenic lines with high accumulation of the recombinant protein were elucidated.     

Duration of sucrose preculture is critical for shoot regrowth of in vitro-grown apple shoot-tips cryopreserved by encapsulation-dehydration

A simple and efficient cryopreservation protocol using encapsulation-dehydration was established for in vitro-grown shoot-tips of apple ‘Gala’ (Malus × domestica Borkh.). Shoot-tips, of 2.0 mm in length and with 5–6 leaf primordia, excised from 4-week-old shoot stock cultures, without cold-hardening, were encapsulated into beads, each being about 5 mm in diameter and containing a single shoot-tip. The beads were precultured on MS medium containing 0.5 M sucrose for 7 days. The precultured beads were dehydrated by air-drying to reduce the water content of the beads to about 22–20 % in 5–7 h, followed by a direct immersion in liquid nitrogen for 1 h. Frozen shoot-tips were re-warmed in a water bath at 38 °C for 2 min and post-cultured on a recovery medium for shoot regrowth. This protocol was successfully applied to four Malus species and one hybrid, among which M. micromalus and M. robusta are wild species native to China. The highest and lowest shoot regeneration rates were found in ‘Gala’ (75 %) and ‘Wangshanhong’ (36 %), with a mean shoot regrowth rate of 61 % attained for the seven Malus genotypes tested. Histological studies revealed that shoots could be regenerated in cryopreserved shoot-tips only when many cells in the leaf primordia and most of the cells in the apical dome survived following cryopreservation. Morphologies of the regenerated plantlets were identical to those from the in vitro stock cultures. Therefore, the encapsulation-dehydration procedure developed in the present study should provide a technical support for setting-up Malus cryo-banking in China.