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61.
SsrA is a tmRNA involved in tagging polypeptides on stalled ribosomes. The resulting fusion proteins are then degraded. We purified endogenous SsrA-tagged proteins by means of a genetically engineered SsrA and identified some of them. Analysis of the proteins suggested that they are tagged at their C-terminal extremities. One of them, ribokinase, is expressed from a messenger with a poorly efficient stop codon, leading to translational recoding events. A change in the ribokinase coding sequence from a weak to a strong translational stop sequence (UGAc to UAAu) annihilated SsrA tagging. Translational termination by UGA recruits the translational release factor (RF) 2. We observed that SsrA tagging of ribokinase was inversely correlated with RF2 activity, revealing a dynamic competition between translational termination and SsrA tagging. 相似文献
62.
It has been known for some time that DNA double-strand breaks (DSBs) initiate homologous recombination during meiosis. Two recent studies show that the fate of a single DSB in yeast is strongly influenced by the presence of other breaks in the genome, hinting that cell-wide or chromosome-regional mechanisms control the outcome of DSB repair. 相似文献
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Crumbs interacts with moesin and beta(Heavy)-spectrin in the apical membrane skeleton of Drosophila 总被引:1,自引:0,他引:1
Médina E Williams J Klipfell E Zarnescu D Thomas G Le Bivic A 《The Journal of cell biology》2002,158(5):941-951
The apical transmembrane protein Crumbs is necessary for both cell polarization and the assembly of the zonula adherens (ZA) in Drosophila epithelia. The apical spectrin-based membrane skeleton (SBMS) is a protein network that is essential for epithelial morphogenesis and ZA integrity, and exhibits close colocalization with Crumbs and the ZA in fly epithelia. These observations suggest that Crumbs may stabilize the ZA by recruiting the SBMS to the junctional region. Consistent with this hypothesis, we report that Crumbs is necessary for the organization of the apical SBMS in embryos and Schneider 2 cells, whereas the localization of Crumbs is not affected in karst mutants that eliminate the apical SBMS. Our data indicate that it is specifically the 4.1 protein/ezrin/radixin/moesin (FERM) domain binding consensus, and in particular, an arginine at position 7 in the cytoplasmic tail of Crumbs that is essential to efficiently recruit both the apical SBMS and the FERM domain protein, DMoesin. Crumbs, Discs lost, betaHeavy-spectrin, and DMoesin are all coimmunoprecipitated from embryos, confirming the existence of a multimolecular complex. We propose that Crumbs stabilizes the apical SBMS via DMoesin and actin, leading to reinforcement of the ZA and effectively coupling epithelial morphogenesis and cell polarity. 相似文献
65.
Emmanuelle?Jacquot-Plumey Jean-Pierre?Caussanel Silvio?Gianinazzi Diederik?Van?Tuinen Vivienne?Gianinazzi-PearsonEmail author 《Folia Geobotanica》2003,38(2):167-176
Applying sewage sludges to agricultural land is a widespread practice because of the sludges’ agronomic value as a source
of plant nutrients and organic matter. Nevertheless, sludges often contain micropollutants that can constitute a menace for
health and the environment. Arbuscular mycorrhizal fungi are sensitive to sewage sludges that have been spiked, or not, with
metallic trace elements (MTE). Here we have investigated if MTE in sewage sludges could be responsible for effects on mycorrhizal
development betweenGlomus mosseae andMedicago truncatula. The impact of a dehydrated or composted urban sewage sludge spiked or not with MTE, was tested on spore germination and
root colonization byG. mosseae. The sewage sludges depressed both the presymbiotic andin planta stages of development of the mycorrhizal fungus. This negative effect was more related to the metallic pollutant contents
of the sludges than to the presence of antagonistic microorganisms or phosphorus. 相似文献
66.
Relationships between the brain and the immune system 总被引:1,自引:0,他引:1
The concept that the brain can modulate activity the immune system stems from the theory of stress. Recent advances in the study of the inter-relationships between the central nervous system and the immune system have demonstrated a vast network of communication pathways between the two systems. Lymphoid organs are innervated by branches of the autonomic nervous system. Accessory immune cells and lymphocytes have membrane receptors for most neurotransmitters and neuropeptides. These receptors are functional, and their activation leads to changes in immune functions, including cell proliferation, chimiotactism and specific immune responses. Brain lesions and stressors can induce a number of changes in the functioning of the immune system. All these changes are not necessarily mediated by the neuroendocrine system. They can also be dependent on autonomic nerve function. The communication pathways that link the brain to the immune system are normally activated by signals from the immune system, and they serve to regulate immune responses. These signals originate from accessory immune cells such as monocytes and macrophages and they are represented mainly by proinflammatory cytokines. Proinflammatory cytokines produced at the periphery act on the brain via two major pathways: (1) a humoral pathway allowing pathogen specific molecular patterns to act on Toll-like receptors in those brain areas that are devoid of a functional blood-brain barrier, the so-called circumventricular areas; (2) a neural pathway, represented by the afferent nerves that innervate the bodily site of infection and injury. In both cases, peripherally produced cytokines induce the expression of brain cytokines that are produced by resident macrophages and microglial cells. These locally produced cytokines diffuse throughout the brain parenchyma to act on target brain areas so as to organise the central components of the host response to infection (fever, neuroendocrine activation, and sickness behavior). 相似文献
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After cessation of lactation, the mammary gland undergoes involution, which is characterized by a massive epithelial cell death and proteolytic degradation of the extracellular matrix. Whereas the expression patterns and also the function of TGF-beta isoforms during mammary gland branching morphogenesis and lactation are well understood, their expression during postlactational involution and therefore a possible role in this process is poorly known. In this study we show that TGF-beta3 expression is dramatically induced (>fivefold) during mouse mammary gland involution when compared to that of virgin mouse, reaching a maximal expression level at day 4 after weaning. In contrast, other TGF-beta isoforms do not display significant increase in expression during involution (TGF-beta1, 1.3-fold and TGF-beta2, <1.5-fold) when compared to that of virgin or lactating mice. During mammary gland involution, TGF-beta3 is expressed in the epithelial layer and particularly in myoepithelial cells. A comparison of the kinetics of TGF-beta3 expression to that of programmed cell death and degradation of the basement membrane suggests that TGF-beta3 functions in the remodeling events of the extracellular matrix during the second stage of involution. 相似文献
70.
Emmanuelle M. Blanc Annadora J. Bruce-Keller Mark P. Mattson 《Journal of neurochemistry》1998,70(3):958-970
Abstract: We investigated the effect of uncoupling astrocytic gap junctions on neuronal vulnerability to oxidative injury in embryonic rat hippocampal cell cultures. Mixed cultures (neurons growing on an astrocyte monolayer) treated with 18-α-glycyrrhetinic acid (GA), an uncoupler of gap junctions, showed markedly enhanced generation of intracellular peroxides (2,7-dichlorofluorescein fluorescence), impairment of mitochondrial function [(dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide reduction], and cell death (lactate dehydrogenase release) following exposure to oxidative insults (FeSO4 and 4-hydroxynonenal). GA alone had little or no effect on basal levels of peroxides, mitochondrial function, or neuronal survival. Intercellular dye transfer analyses revealed extensive astrocyte-astrocyte coupling but no astrocyte-neuron or neuron-neuron coupling in the mixed cultures. Studies of pure astrocyte cultures and microscope analyses of neurons in mixed cultures showed that the increased oxidative stress and cell death in GA-treated cultures occurred only in neurons and not in astrocytes. Antioxidants (propyl gallate and glutathione) blocked the death of neurons exposed to FeSO4/GA. Elevations of neuronal intracellular calcium levels ([Ca2+]i) induced by FeSO4 were enhanced in neurons in mixed cultures exposed to GA. Removal of extracellular Ca2+ and the L-type Ca2+ channel blocker nimodipine prevented impairment of mitochondrial function and cell death induced by FeSO4 and GA, whereas glutamate receptor antagonists were ineffective. Finally, GA exacerbated kainate- and FeSO4-induced injury to pyramidal neurons in organotypic hippocampal slice cultures. The data suggest that interastrocytic gap junctional communication decreases neuronal vulnerability to oxidative injury by a mechanism involving stabilization of cellular calcium homeostasis and dissipation of oxidative stress. 相似文献