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901.
Du G Fischer BE Voss KO Becker G Taucher-Scholz G Kraft G Thiel G 《Radiation research》2008,170(3):316-326
Du, G., Fischer, B. E., Voss, K.-O., Becker, G., Taucher-Scholz, G., Kraft, G. and Thiel, G. The Absence of an Early Calcium Response to Heavy-Ion Radiation in Mammalian Cells. Radiat. Res. 170, 316-326 (2008).Intracellular calcium is an important second messenger that regulates many cell functions. Recent studies have shown that calcium ions can also regulate the cellular responses to ionizing radiation. However, previous data are restricted to cells treated with low-LET radiations (X rays, gamma rays and beta particles). In this work, we investigated the calcium levels in cells exposed to heavy-ion radiation of high LET. The experiments were performed at the single ion hit facility of the GSI heavy-ion microprobe. Using a built-in online calcium imaging system, the intracellular calcium concentrations were examined in HeLa cells and human foreskin fibroblast AG1522-D cells before and after irradiation with 4.8 MeV/nucleon carbon or argon ions. Although the experiment was sensitive enough to detect the calcium response to other known stimuli, no response to heavy-ion radiation was found in these two cell types. We also found that heavy-ion radiation has no impact on calcium oscillation induced by hypoxia stress in fibroblast cells. 相似文献
902.
Bernd Schneider Jonathan Gershenzon Gerson Graser Dirk Hölscher Bettina Schmitt 《Phytochemistry Reviews》2003,2(1-2):31-43
For several decades isotope labelling techniques have been the indispensable tools used to unravel pathways of secondary product biosynthesis. NMR spectroscopy, together with mass spectrometry, is the most effective measuring technique used in the analysis of metabolites enriched with stable isotopes. 2H and 13C are the NMR-detectable nuclides which have been most frequently employed in plant secondary metabolite synthesis. Examples from the biosynthesis of phenylpropanoids, phenylphenalenones, and glucosinolates are used when discussing some aspects of one-dimensional NMR analysis of metabolites selectively labelled with 2H and 13C. Besides direct NMR detection of 13C-enriched metabolites, special emphasis is placed on indirect detection of 13C and 2H, especially by HPLC-1H NMR coupling, to analyse the isotopomer pattern of compounds in low concentration. The examples discussed in this paper were obtained from studies with Anigozanthos preissii (root cultures) (Haemodoraceae) and Eruca sativa (Brassicaceae). 相似文献
903.
The outstanding mechanical toughness of silk fibers is thought to be caused by embedded crystalline units acting as cross links of silk proteins in the fiber. Here, we examine the robustness of these highly ordered β-sheet structures by molecular dynamics simulations and finite element analysis. Structural parameters and stress-strain relationships of four different models, from spider and Bombyx mori silk peptides, in antiparallel and parallel arrangement, were determined and found to be in good agreement with x-ray diffraction data. Rupture forces exceed those of any previously examined globular protein many times over, with spider silk (poly-alanine) slightly outperforming Bombyx mori silk ((Gly-Ala)n). All-atom force distribution analysis reveals both intrasheet hydrogen-bonding and intersheet side-chain interactions to contribute to stability to similar extent. In combination with finite element analysis of simplified β-sheet skeletons, we could ascribe the distinct force distribution pattern of the antiparallel and parallel silk crystalline units to the difference in hydrogen-bond geometry, featuring an in-line or zigzag arrangement, respectively. Hydrogen-bond strength was higher in antiparallel models, and ultimately resulted in higher stiffness of the crystal, compensating the effect of the mechanically disadvantageous in-line hydrogen-bond geometry. Atomistic and coarse-grained force distribution patterns can thus explain differences in mechanical response of silk crystals, opening up the road to predict full fiber mechanics. 相似文献
904.
Wen Zhou Heinz‐Bernd Schüttler Zhiqian Hao Ying Xu 《Biotechnology and bioengineering》2009,104(2):261-274
We develop a general framework for a realistic rate equation modeling of cellulose hydrolysis using non‐complexed cellulase. Our proposed formalism, for the first time, takes into account explicitly the time evolution of the random substrate morphology resulting from the hydrolytic cellulose chain fragmentation and solubilization. This is achieved by integrating novel geometrical concepts to quantitatively capture the time‐dependent random morphology, together with the enzymatic chain fragmentation, into a coupled morphology‐plus‐kinetics rate equation approach. In addition, an innovative site number representation, based on tracking available numbers of β(1,4) glucosidic bonds, of different “site” types, exposed to attacks by different enzyme types, is presented. This site number representation results in an ordinary differential equation (ODE) system, with a substantially reduced ODE system size, compared to earlier chain fragmentation kinetics approaches. This formalism enables us to quantitatively simulate both the hydrolytically evolving random substrate morphology and the profound, and heretofore neglected, morphology effects on the hydrolysis kinetics. By incorporating the evolving morphology on an equal footing with the hydrolytic chain fragmentation, our formalism provides a framework for the realistic modeling of the entire solubilization process, beyond the short‐time limit and through near‐complete hydrolytic conversion. As part I of two companion papers, the present paper focuses on the development of the general modelling formalism. Results and testable experimental predictions from detailed numerical simulations are presented in part II. Biotechnol. Bioeng. 2009; 104: 261–274 © 2009 Wiley Periodicals, Inc. 相似文献
905.
Modelling the dynamics of the electron transport rate measured by PAM fluorimetry during Rapid Light Curve experiments 总被引:1,自引:0,他引:1
We propose a dynamic model specifically designed to simulate changes in the photosynthetic electron transport rate, which
is calculated from fluorescence measurements when plants are exposed, for a short time, to a series of increasing photon flux
densities. This model simulates the dynamics of the effective yield of photochemical energy conversion from the maximum and
natural chlorophyll fluorescence yields, taking into account a cumulative effect of successive irradiations on photosystems.
To estimate a characteristic time of this effect on photosystems, two series of experiments were performed on two benthic
diatom culture concentrations. For each concentration, two different series of irradiations were applied. Simplified formulations
of the model were established based on the observed fluorescence curves. The simplified versions of the model streamlined
the parameters estimation procedure. For the most simplified version of the model (only 4 parameters) the order of magnitude
of the characteristic time of the residual effect of irradiation was about 38 s (within a confidence interval between 20 and
252 s). The model and an appropriate calibration procedure may be used to assess the physiological condition of plants experiencing
short time-scale irradiance changes in experimental or field conditions. 相似文献
906.
Bernd Heimrich Daniel-Alexander Hesse Yuan-Ju Wu Sonja Schmid Martin Schwemmle 《Cell and tissue research》2009,338(2):179-190
Granule cells are major targets of entorhinal afferents terminating in a laminar fashion in the outer molecular layer of the
dentate gyrus. Since Borna disease virus (BDV) infection of newborn rats causes a progressive loss of granule cells in the
dentate gyrus, entorhinal fibres become disjoined from their main targets. We have investigated the extent to which entorhinal
axons react to this loss of granule cells. Unexpectedly, anterograde DiI tracing has shown a prominent layered termination
of the entorhinal projection, despite an almost complete loss of granule cells at 9 weeks after infection. Combined light-
and electron-microscopic analysis of dendrites at the outer molecular layer of the dentate gyrus at 6 and 9 weeks post-infection
has revealed a transient increase in the synaptic density of calbindin-positive granule cells and parvalbuminergic neurons
after 6 weeks. In contrast, synaptic density reaches values similar to those of uninfected controls 9 weeks post-infection.
These findings indicate that, after BDV infection, synaptic reorganization processes occur at peripheral dendrites of the
remaining granule cells and parvalbuminergic neurons, including the unexpected persistence of entorhinal axons in the absence
of their main targets. 相似文献
907.
908.
Amann M Friedrich M Lutterbuese P Vieser E Lorenczewski G Petersen L Brischwein K Kufer P Kischel R Baeuerle PA Schlereth B 《Cancer immunology, immunotherapy : CII》2009,58(1):95-109
MuS110 is a BiTE antibody bispecific for murine EpCAM (CD326) and murine CD3. A recent study has shown that muS110 has significant
anti tumor activity at well-tolerated doses as low as 5 μg/kg in orthotopic breast and lung cancer models (Amann et al. in
Cancer Res 68:143–151, 2008). Here, we have explored the safety profile of muS110 at higher doses. Escalation to 50 μg/kg muS110 caused in mice transient
loss of body weight, and transient piloerection, hypomotility, hypothermia and diarrhoea. These clinical signs coincided with
serum peaks of TNF-α, IL-6, IL-2, IFN-γ and IL-4, and an increase of surface markers for T cell activation. Because activation
of T cells in response to BiTE antibodies is typically dependent on target cells, we analyzed mouse blood for the presence
of EpCAM+ cells. Various mouse strains presented with a subpopulation of 2–3% EpCAM+ blood cells, mostly B and T lymphocytes, which was not detected in human blood samples. In vitro experiments in which the
number of EpCAM+ cells in blood samples was either reduced or increased suggested that both T cell activation and cytokine release in response
to muS110 was dependent on the number of target-expressing cells. In support for a role of EpCAM+ lymphocytes in the observed side effects, reduction of EpCAM+ blood cells in mice via a low-dose pre treatment with muS110 dramatically increased the tolerability of animals up to at
least 500 μg/kg of the BiTE antibody. This high tolerability to muS110 occurred in the presence of non-compromised T cells.
No damage to EpCAM+ epithelial tissues was evident from histopathological examination of animals daily injected with 100 μg/kg muS110 for 28 days.
In summary, these observations suggest that side effects of muS110 in mice were largely caused by an acute T cell activation
that was triggered by a subpopulation of EpCAM+ lymphocytes. Because humans have extremely low numbers of EpCAM+ cells in blood, this toxicity of an EpCAM-specific BiTE may be specific for mice.
M. Amann and M. Friedrich contributed equally to this work. 相似文献
909.
910.