A field experiment was conducted during 2007-2008 using complete randomized block design with four replications in order to evaluate the effect of drought stress on agromorphological characters (fresh flower weight, dried
flower yield, shoot weight arid root weight), oil content, oil composition and apigenin content of chamomile. Drought stress had four different levels of soil moisture depletion (30%, 50%, 70% and 90%). Analysis of variance showed that drought stress decreased plant height, flower yield, shoot weight and apigenin content but it had no significant effect on oil content or oil composition. Impacts of drought stress on growth indices were evaluated Z-DEVD-FMK clinical trial as well and the results indicated that plant managed to maintain potential for biomass production under the drought stress. Growth analysis results as well as phytochemical properties of this plant showed that despite decrease in agronomical traits, chamomile could be proposed as a moderate drought resistant medicinal plant with a reasonable performance. (C) 2010 Elsevier Masson SAS. All rights reserved.”
“Properties of nanocomposites composed of fullerene C(60) chemically bonded to Al nanocrystals Emricasan manufacturer are reported. The nanocomposites of Al-C(60) create a class of new material of fulleride of aluminum nanoclusters. New nanostructured and modified by C(60) aluminum-based
material has been sintered from fulleride of aluminum nanoclusters. Key features of this material are creating covalent bonds Al-C(60) and preserving find more C(60) during sintering. Addition of several wt % of C(60) essentially improves (by a factor of 3 to 10, up to 7 GPa) the hardness of initial aluminum. (C) 2010 American Institute of Physics. [doi:10.1063/1.3505757]“
“Here we report a case wherein both donor-specific and third-party, paternal, HLA class II specific antibodies developed following a spontaneous miscarriage resulting in antibody-mediated rejection in a patient who had undergone an orthotopic cardiac transplant six years earlier.”
“We demonstrate theoretically a pathway for electrical control of magnetic properties
of tunable lateral double InAs quantum dots containing two-electrons, subjected to spin-orbit interaction (SOI), vertical electrical and magnetic fields. In the regime of low temperature and weak magnetic field, interplay of interdot tunnel coupling and hybridized magnetoelectric effect induces “”s”"-like behavior of magnetization and a peak of susceptibility which are very sensitive to interdot barrier voltage (V-B) and interdot distance (d). Sweeping V-B and adjusting d not only impact magnetic phase transition, but also switch electronic and magnetic properties from atomic to molecular in nature. Furthermore, SOI broadens the magnetic field interval of paramagnetic phase and changes magnitude of magnetization and susceptibility. (C) 2010 American Institute of Physics.