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131.
Weirong Fang Rui Zhang Lan Sha Peng Lv Erxin Shang Dan Han Jie Wei Xiaohan Geng Qichuan Yang Yunman Li 《Journal of neurochemistry》2014,128(5):662-671
The blood–brain barrier (BBB) greatly limits the efficacy of many neuroprotective drugs' delivery to the brain, so improving drug penetration through the BBB has been an important focus of research. Here we report that platelet activating factor (PAF) transiently opened BBB and facilitated neuroprotectant edaravone penetration into the brain. Intravenous infusion with PAF induced a transient BBB opening in rats, reflected by increased Evans blue leakage and mild edema formation, which ceased within 6 h. Furthermore, rat regional cerebral blood flow (rCBF) declined acutely during PAF infusion, but recovered slowly. More importantly, this transient BBB opening significantly increased the penetration of edaravone into the brain, evidenced by increased edaravone concentrations in tissue interstitial fluid collected by microdialysis and analyzed by Ultra‐performance liquid chromatograph combined with a hybrid quadrupole time‐of‐flight mass spectrometer (UPLC‐MS/MS). Similarly, incubation of rat brain microvessel endothelial cells monolayer with 1 μM PAF for 1 h significantly increased monolayer permeability to 125I‐albumin, which recovered 1 h after PAF elimination. However, PAF incubation with rat brain microvessel endothelial cells for 1 h did not cause detectable cytotoxicity, and did not regulate intercellular adhesion molecule‐1, matrix‐metalloproteinase‐9 and P‐glycoprotein expression. In conclusion, PAF could induce transient and reversible BBB opening through abrupt rCBF decline, which significantly improved edaravone penetration into the brain.
132.
Lin Jiahui Chang Qun Dai Xueting Liu Dan Jiang Yuyin Dai Yalei 《Molecular and cellular biochemistry》2019,453(1-2):179-186
Molecular and Cellular Biochemistry - Mycoplasma pneumoniae pneumonia (MPP) is the most common respiratory infection in young children and its incidence has increased worldwide. In this study, high... 相似文献
133.
该文主要探讨了光照时间、光照强度、温度及昼夜温差等保存条件对卓越红花槭(Acer rubrum cv. ‘Somerset’)限制生长保存的影响。结果表明, 在为期182天的保存过程中, 离体材料前期以分化生长为主, 后期以营养生长为主, 并呈现一定的低温适应性。温度对离体材料生长的影响达极显著水平(P<0.01); 光照时间和光照强度影响持久, 二者交互作用达显著水平(P<0.05); 昼夜温差对平均出芽数和生根率都有显著影响。研究表明, 保存效果最好的条件是T3 (25°C, 12小时光照, 62.50 μmol·m -2·s -1)和T7 (25°C, 12小时光照, 31.25 μmol·m -2·s -1)处理组, 但最佳保存条件的选择标准并不唯一, 其核心是保证种质材料的分化能力。 相似文献
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近年来,随着温室气体浓度不断上升,有关CO2浓度升高对植物影响的研究已取得一定进展,但CO2浓度升高对植物光合作用的影响需要从生理生化水平上进一步深入的研究.以沈阳城市森林树种银杏(Ginkgo biloba L.)为研究对象,利用开顶式气室研究连续两个生长季大气CO2浓度升高对银杏光合特性的影响.结果表明,在大气CO2浓度为700μmol·mol-1条件下,与对照相比,第1个生长季CO2处理的银杏叶片净光合速率极显著增加(P<0.01),希尔反应活力极显著增大(P<0.01)、Ca2+/Mg2+-ATP酶活性显著(P<0.05)或极显著增强(P<0.01)、光合产物淀粉的含量极显著增多(P<0.01);第2生长季CO2处理的银杏叶片净光合速率显著增加(P<0.05),希尔反应活力在通气60d时极显著(P<0.01)增大,Ca2+/Mg2+-ATP酶活性在处理30d时显著降低(P<0.05),淀粉含量增多.与第1个生长季相比,第2个生长季CO2处理的银杏叶片净光合速率降低,希尔反应活力减小,Ca2+/Mg2+-ATP酶活性减弱,叶绿素含量增多,淀粉含量减少.试验中出现了光合适应现象. 相似文献
136.
Croke RL Sallum CO Watson E Watt ED Alexandrescu AT 《Protein science : a publication of the Protein Society》2008,17(8):1434-1445
Amide proton NMR signals from the N-terminal domain of monomeric α-synuclein (αS) are lost when the sample temperature is raised from 10°C to 35°C at pH 7.4. Although the temperature-induced effects have been attributed to conformational exchange caused by an increase in α-helix structure, we show that the loss of signals is due to fast amide proton exchange. At low ionic strength, hydrogen exchange rates are faster for the N-terminal segment of αS than for the acidic C-terminal domain. When the salt concentration is raised to 300 mM, exchange rates increase throughout the protein and become similar for the N- and C-terminal domains. This indicates that the enhanced protection of amide protons from the C-terminal domain at low salt is electrostatic in nature. Cα chemical shift data point to <10% residual α-helix structure at 10°C and 35°C. Conformational exchange contributions to R2 are negligible at both temperatures. In contrast to the situation in vitro, the majority of amide protons are observed at 37°C in 1H-15N HSQC spectra of αS encapsulated within living Escherichia coli cells. Our finding that temperature effects on αS NMR spectra can be explained by hydrogen exchange obviates the need to invoke special cellular factors. The retention of signals is likely due to slowed hydrogen exchange caused by the lowered intracellular pH of high-density E. coli cultures. Taken together, our results emphasize that αS remains predominantly unfolded at physiological temperature and pH—an important conclusion for mechanistic models of the association of αS with membranes and fibrils. 相似文献
137.
Peroxisomal peripheral membrane protein YlInp1p is required for peroxisome inheritance and influences the dimorphic transition in the yeast Yarrowia lipolytica 下载免费PDF全文
Eukaryotic cells have evolved molecular mechanisms to ensure the faithful inheritance of organelles by daughter cells in order to maintain the benefits afforded by the compartmentalization of biochemical functions. Little is known about the inheritance of peroxisomes, organelles of lipid metabolism. We have analyzed peroxisome dynamics and inheritance in the dimorphic yeast Yarrowia lipolytica. Most peroxisomes are anchored at the periphery of cells of Y. lipolytica. In vivo video microscopy showed that at cell division, approximately half of the anchored peroxisomes in the mother cell are dislodged individually from their static positions and transported to the bud. Peroxisome motility is dependent on the actin cytoskeleton. YlInp1p is a peripheral peroxisomal membrane protein that affects the partitioning of peroxisomes between mother cell and bud in Y. lipolytica. In cells lacking YlInp1p, most peroxisomes were transferred to the bud, with only a few remaining in the mother cell, while in cells overexpressing YlInp1p, peroxisomes were preferentially retained in the mother cell, resulting in buds nearly devoid of peroxisomes. Our results are consistent with a role for YlInp1p in anchoring peroxisomes in cells. YlInp1p has a role in the dimorphic transition in Y. lipolytica, as cells lacking the YlINP1 gene more readily convert from the yeast to the mycelial form in oleic acid-containing medium, the metabolism of which requires peroxisomal activity, than does the wild-type strain. This study reports the first analysis of organelle inheritance in a true dimorphic yeast and identifies the first protein required for peroxisome inheritance in Y. lipolytica. 相似文献
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140.
Soybean homologs of MPK4 negatively regulate defense responses and positively regulate growth and development 总被引:1,自引:0,他引:1
Liu JZ Horstman HD Braun E Graham MA Zhang C Navarre D Qiu WL Lee Y Nettleton D Hill JH Whitham SA 《Plant physiology》2011,157(3):1363-1378
Mitogen-activated protein kinase (MAPK) cascades play important roles in disease resistance in model plant species such as Arabidopsis (Arabidopsis thaliana) and tobacco (Nicotiana tabacum). However, the importance of MAPK signaling pathways in the disease resistance of crops is still largely uninvestigated. To better understand the role of MAPK signaling pathways in disease resistance in soybean (Glycine max), 13, nine, and 10 genes encoding distinct MAPKs, MAPKKs, and MAPKKKs, respectively, were silenced using virus-induced gene silencing mediated by Bean pod mottle virus. Among the plants silenced for various MAPKs, MAPKKs, and MAPKKKs, those in which GmMAPK4 homologs (GmMPK4s) were silenced displayed strong phenotypes including stunted stature and spontaneous cell death on the leaves and stems, the characteristic hallmarks of activated defense responses. Microarray analysis showed that genes involved in defense responses, such as those in salicylic acid (SA) signaling pathways, were significantly up-regulated in GmMPK4-silenced plants, whereas genes involved in growth and development, such as those in auxin signaling pathways and in cell cycle and proliferation, were significantly down-regulated. As expected, SA and hydrogen peroxide accumulation was significantly increased in GmMPK4-silenced plants. Accordingly, GmMPK4-silenced plants were more resistant to downy mildew and Soybean mosaic virus compared with vector control plants. Using bimolecular fluorescence complementation analysis and in vitro kinase assays, we determined that GmMKK1 and GmMKK2 might function upstream of GmMPK4. Taken together, our results indicate that GmMPK4s negatively regulate SA accumulation and defense response but positively regulate plant growth and development, and their functions are conserved across plant species. 相似文献