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231.
用神经生长因子(nervegrowthfactor,NGF)分别处理原代培养的新生大鼠大脑皮质和中脑腹侧部神经元,应用免疫组织化学和原位杂交双重标记方法,观察不同时间NGF处理的神经元表达原癌基因c-junmRNA的情况。结果发现,神经特异性烯醇化酶(neuronspecificenolase,NSE)阳性的大脑皮层神经细胞在NGF处理15分钟即可表达c-junmRNA,2小时达高峰,4小时后开始下降,到8小时后基本消失.未经NGF处理的大鼠大脑皮层神经细胞不表达c-junmRNA;酪氨酸羟化酶(tyrosinehydroxylase,TH)阳性的中脑多巴胺能(Dopaminergic,DA)神经元经NGF处理也不表达c-jun基因。提示NGF与其受体结合可以激活神经细胞快速,短暂的一过性表达c-jun基因,作为第三信使,调节从细胞质膜到核的信号传递,同时也间接证明了新生大鼠大脑皮层神经细胞膜上存在神经生长因子受体(nervegrowthfactorreceptor,NGFR),而中脑DA神经细胞对NGF无应答反应。 相似文献
232.
Ihab A. Abumuhor Paula H. Spencer Jeffrey A. Cohlberg 《Journal of structural biology》1998,123(3):187-198
The pathway of filament assembly from the neuronal intermediate filament α-intermexin was investigated. Optimal assembly occurred in solutions of pH 6.5 to 7 and moderate ionic strength at 37°C. Short filaments formed upon dialysis at 24°C, which elongated further when incubated at 37°C. Soluble forms of α-internexin were characterized by analytical ultracentrifugation and electron microscopy. In 10 mM Tris, pH 8, conditions that favor formation of tetramers and other small oligomers for other intermediate filament proteins, α-internexin formed 10.5 S particles, apparently unit-length half-filaments in the form of rods 10.6 nm in diameter and 68 nm long. Dialysis vs the same buffer with added 10 mM NaCl yielded 16 S rods, probably unit-length filaments, of the same length but 13.0 nm in diameter. At 50 mM NaCl, rods about 13 nm in diameter and heterogeneous in length were observed in electron micrographs, apparently formed from longitudinal annealing of unit-length rods. The results favor a model of assembly in which coiled coil dimers aggregate laterally to form first “unit-length half-filaments” (Herrmann, H., and Aebi, U. (1998)Curr. Opin. Struct. Biol.8, 177–185) and then “unit-length filaments,” which subsequently elongate by annealing. 相似文献
233.
The p75 neurotrophin receptor: effects on neuron survival in vitro and interaction with death domain-containing adaptor proteins 总被引:3,自引:0,他引:3
Nichols A Martinou I Maundrell K Martinou JC 《Apoptosis : an international journal on programmed cell death》1998,3(4):289-294
The p75 neurotrophin receptor (p75NTR) is a death domain (DD) containing receptor of the TNF/FAS(APO-1) family. p75NTR has recently been shown to mediate apoptosis in certain types of neurons as well as in oligodendrocytes. The molecular mechanisms by which p75NTR stimulates apoptosis are still unknown. Here, we have tested whether overexpression of p75NTR could modulate survival of sympathetic neurons cultured in the presence or absence of NGF. Moreover, using the yeast two-hybrid system, we tested whether p75NTR intracellular domain was able to dimerize or interact with known DD-containing proteins including FADD, RIP, RAIDD and TRADD. We found that over-expression of p75NTR had no effect on the survival of sympathetic neurons cultured in the presence of NGF but instead delayed neuronal death following NGF deprivation. These results strongly support the finding that p75NTR is not involved in the apoptosis process induced by NGF deprivation in sympathetic neurons. We also foun d that the intracellular domain of p75NTR failed to associate either with itself or with other known DD-containing proteins. This suggests that the mechanisms by which p75NTR triggers apoptosis in certain cell types are different from those used by other receptors of the TNF/FAS family. 相似文献
234.
A semi-empirical model of methane emission from flooded rice paddy soils 总被引:13,自引:0,他引:13
Reliable regional or global estimates of methane emissions from flooded rice paddy soils depend on an examination of methodologies by which the current high variability in the estimates might be reduced. One potential way to do this is the development of predictive models. With an understanding of the processes of methane production, oxidation and emission, a semi-empirical model, focused on the contributions of rice plants to the processes and also the influence of environmental factors, was developed to predict methane emission from flooded rice fields. A simplified version of the model was also derived to predict methane emission in a more practical manner. In this study, it was hypothesized that methanogenic substrates are primarily derived from rice plants and added organic matter. Rates of methane production in flooded rice soils are determined by the availability of methanogenic substrates and the influence of environmental factors. Rice growth and development control the fraction of methane emitted. The amount of methane transported from the soil to the atmosphere is determined by the rates of production and the emitted fraction. Model validation against observations from single rice growing seasons in Texas, USA demonstrated that the seasonal variation of methane emission is regulated by rice growth and development. A further validation of the model against measurements from irrigated rice paddy soils in various regions of the world, including Italy, China, Indonesia, Philippines and the United States, suggests that methane emission can be predicted from rice net productivity, cultivar character, soil texture and temperature, and organic matter amendments. 相似文献
235.
236.
The disappearance of relict permafrost in boreal north America: Effects on peatland carbon storage and fluxes 总被引:3,自引:0,他引:3
M. R. TURETSKY R. K. WIEDER† D. H. VITT‡ R. J. EVANS§ K. D. SCOTT† 《Global Change Biology》2007,13(9):1922-1934
Boreal peatlands in Canada have harbored relict permafrost since the Little Ice Age due to the strong insulating properties of peat. Ongoing climate change has triggered widespread degradation of localized permafrost in peatlands across continental Canada. Here, we explore the influence of differing permafrost regimes (bogs with no surface permafrost, localized permafrost features with surface permafrost, and internal lawns representing areas of permafrost degradation) on rates of peat accumulation at the southernmost limit of permafrost in continental Canada. Net organic matter accumulation generally was greater in unfrozen bogs and internal lawns than in the permafrost landforms, suggesting that surface permafrost inhibits peat accumulation and that degradation of surface permafrost stimulates net carbon storage in peatlands. To determine whether differences in substrate quality across permafrost regimes control trace gas emissions to the atmosphere, we used a reciprocal transplant study to experimentally evaluate environmental versus substrate controls on carbon emissions from bog, internal lawn, and permafrost peat. Emissions of CO2 were highest from peat incubated in the localized permafrost feature, suggesting that slow organic matter accumulation rates are due, at least in part, to rapid decomposition in surface permafrost peat. Emissions of CH4 were greatest from peat incubated in the internal lawn, regardless of peat type. Localized permafrost features in peatlands represent relict surface permafrost in disequilibrium with the current climate of boreal North America, and therefore are extremely sensitive to ongoing and future climate change. Our results suggest that the loss of surface permafrost in peatlands increases net carbon storage as peat, though in terms of radiative forcing, increased CH4 emissions to the atmosphere will partially or even completely offset this enhanced peatland carbon sink for at least 70 years following permafrost degradation. 相似文献
237.
Endothelin-1 (ET-1) and bradykinin (BK) are endogenous peptides that signal through Gαq/11-protein coupled receptors (GPCRs) to produce nociceptor sensitization and pain. Both peptides activate phospholipase C to stimulate Ca2+ accumulation, diacylglycerol production, and protein kinase C activation and are rapidly desensitized via a G-protein receptor kinase 2-dependent mechanism. However, ET-1 produces a greater response and longer lasting nocifensive behavior than BK in multiple models, indicating a potentially divergent signaling mechanism in primary afferent sensory neurons. Using cultured sensory neurons, we demonstrate significant differences in both Ca2+ influx and Ca2+ release from intracellular stores following ET-1 and BK treatments. As intracellular store depletion may contribute to the regulation of other signaling cascades downstream of GPCRs, we concentrated our investigation on store-operated Ca2+ channels. Using pharmacological approaches, we identified transient receptor potential canonical channel 3 (TRPC3) as a dominant contributor to Ca2+ influx subsequent to ET-1 treatment. On the other hand, BK treatment stimulated Orai1 activation, with only minor input from TRPC3. Taken together, data presented here suggest that ET-1 signaling targets TRPC3, generating a prolonged Ca2+ signal that perpetuates nocifensive responses. In contrast, Orai1 dominates as the downstream target of BK receptor activation and results in transient intracellular Ca2+ increases and abridged nocifensive responses. 相似文献
238.
This paper aimed at assessing and comparing the effects of the inhibitory neurons in the neural network on the neural energy distribution, and the network activities in the absence of the inhibitory neurons to understand the nature of neural energy distribution and neural energy coding. Stimulus, synchronous oscillation has significant difference between neural networks with and without inhibitory neurons, and this difference can be quantitatively evaluated by the characteristic energy distribution. In addition, the synchronous oscillation difference of the neural activity can be quantitatively described by change of the energy distribution if the network parameters are gradually adjusted. Compared with traditional method of correlation coefficient analysis, the quantitative indicators based on nervous energy distribution characteristics are more effective in reflecting the dynamic features of the neural network activities. Meanwhile, this neural coding method from a global perspective of neural activity effectively avoids the current defects of neural encoding and decoding theory and enormous difficulties encountered. Our studies have shown that neural energy coding is a new coding theory with high efficiency and great potential. 相似文献
239.
240.
Jan A Kullmann Ines Wickertsheim Lara Minnerup Mercedes Costell Eckhard Friauf Marco B Rust 《Cell Adhesion & Migration》2015,9(3):247-253
Neuron migration defects are an important aspect of human neuropathies. The underlying molecular mechanisms of such migration defects are largely unknown. Actin dynamics has been recognized as an important determinant of neuronal migration, and we recently found that the actin-binding protein profilin1 is relevant for radial migration of cerebellar granule neurons (CGN). As the exploited brain-specific mutants lacked profilin1 in both neurons and glial cells, it remained unknown whether profilin1 activity in CGN is relevant for CGN migration in vivo. To test this, we capitalized on a transgenic mouse line that expresses a tamoxifen-inducible Cre variant in CGN, but no other cerebellar cell type. In these profilin1 mutants, the cell density was elevated in the molecular layer, and ectopic CGN occurred. Moreover, 5-bromo-2′-deoxyuridine tracing experiments revealed impaired CGN radial migration. Hence, our data demonstrate the cell autonomous role of profilin1 activity in CGN for radial migration. 相似文献