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41.
Identification and characterisation of a novel splice variant of the human CB1 receptor 总被引:4,自引:0,他引:4
Ryberg E Vu HK Larsson N Groblewski T Hjorth S Elebring T Sjögren S Greasley PJ 《FEBS letters》2005,579(1):259-264
Cannabinoid ligands are implicated in many physiological processes and to date two receptors have been identified. However, a growing body of evidence exists that suggests the presence of additional receptors. Whilst cloning the previously described hCB1a, we have identified a novel variant that we call hCB1b. Characterising these two splice variants demonstrates that they have a unique pharmacological profile and that their RNA's are expressed at low levels in a variety of tissues. 相似文献
42.
Methods have been adapted to measure the specific activity of UTP in cells in monolayer culture. In HeLa cells labelled with [3H]uridine and treated with aflatoxin B1 there was reduced radioactivity in crude acid extracts, but the toxin did not affect the radioactive incorporation into UTP. Using cells in which the UTP was pre-labelled, the subsequent addition of aflatoxin B1 inhibited UTP incorporation into RNA. Accordingly aflatoxin B1 did not inhibit the uptake of uridine or the latter's conversion to UTP but inhibited the incorporation of UTP into RNA. 相似文献
43.
SIRT2 reduces actin polymerization and cell migration through deacetylation and degradation of HSP90
Jung Sun Min Jin Chul Kim Ji Ae Kim Inho Kang Jeong Keun Ahn 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》2018,1865(9):1230-1238
SIRT2, a member of the class III histone deacetylase family, has been identified as a tumor suppressor, which is associated with various cellular processes including metabolism and proliferation. However, the effects of SIRT2 on cancer cell migration caused by cytoskeletal rearrangement remain uncertain. Here we show that SIRT2 inhibits cell motility by suppressing actin polymerization. SIRT2 regulates actin dynamics through HSP90 destabilization and subsequent repression of LIM kinase (LIMK) 1/cofilin pathway. SIRT2 directly interacts with HSP90 and regulates its acetylation and ubiquitination. In addition, the deacetylase activity of SIRT2 is required for the regulation of actin polymerization and the ubiquitin-mediated proteasomal degradation of HSP90 induced by SIRT2. 相似文献
44.
Trapping and Redistribution of Hydrophobic Sulfur Sols in Graphene–Polyethyleneimine Networks for Stable Li–S Cathodes
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The lithium–sulfur battery is a promising next‐generation rechargeable battery system which promises to be less expensive and potentially fivefold more energy dense than current Li‐ion technologies. This can only be achieved by improving the sulfur utilization in thick, high areal loading cathodes while minimizing capacity fading to realize high practical energy densities and long cycle‐life. This study reports a simple method to fabricate a high capacity, high loading cathode with one of the highest cycle‐stabilities reported. It is demonstrated that sulfur sols formed by crashing dissolved elemental sulfur into water are trapped between graphene oxide sheets when flocculated with polyethyleneimine. Low temperature, hydrothermal treatment produces a conductive, partially covalent composite exhibiting outstanding cycle‐stability. Using this method, sulfur can be uniformly distributed at fractions as high as 75.7 wt%. Electrodes with high areal sulfur loadings (up to ≈5.4 mg cm?2), prepared using these composites, lead to projected high cell level practical energy densities of 400 Wh kg?1. The electrodes demonstrate negligible capacity loss over 250 cycles at 0.15 C and only 0.028% capacity loss per cycle over 810 cycles at 0.75 C. Eventual capacity fading is found to be linked to degradation of lithium‐metal anode suggesting that the cathode material remains stable over even more extended cycling. 相似文献
45.
Mingyu Gan Yingqi Wang Fei Wang Jie Tan Yuheng Pei Jianhua Wang Martin M. F. Choi Wei Bian 《Luminescence》2024,39(2):e4689
A new type of polyethyleneimine-protected copper nanoclusters (PEI-CuNCs) is favorably developed by a one-pot method under mild conditions. The obtained PEI-CuNCs is characterized by X-ray diffraction, X-ray photoelectron spectroscopy, transmission electron microscopy, Fourier-transform infrared (FTIR) spectroscopy and other techniques. It is worth noting that the proposed PEI-CuNCs demonstrate a selective response to chromium(VI) over other competitive species. Fluorescence quenching of PEI-CuNCs is determined to be chromium(VI) concentrations dependence with a low limit of detection of 8.9 nM. What is more, the as-developed PEI-CuNCs is further employed in building a detection platform for portable recognition of chromium(VI) in real samples with good accuracy. These findings may offer a distinctive strategy for the development of methods for analyzing and monitoring chromium(VI) and expand their application in real sample monitoring. 相似文献
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Jacint G. Sanchez Konstantin M.J. Sparrer Cindy Chiang Rebecca A. Reis Jessica J. Chiang Matthew A. Zurenski Yueping Wan Michaela U. Gack Owen Pornillos 《Journal of molecular biology》2018,430(24):5280-5293
TRIM25 is a multi-domain, RING-type E3 ubiquitin ligase of the tripartite motif family that has important roles in multiple RNA-dependent processes. In particular, TRIM25 functions as an effector of RIG-I and ZAP, which are innate immune sensors that recognize viral RNA and induce ubiquitin-dependent anti-viral response mechanisms. TRIM25 is reported to also bind RNA, but the molecular details of this interaction or its relevance to anti-viral defense have not been elucidated. Here, we characterize the RNA-binding activity of TRIM25 and find that the protein binds both single-stranded and double-stranded RNA. Multiple regions of TRIM25 contribute to this functionality, including the C-terminal SPRY domain and a lysine-rich motif in the linker segment connecting the SPRY and coiled-coil domains. RNA binding modulates TRIM25's ubiquitination activity in vitro, its localization in cells, and its anti-viral activity. Taken together with other studies, our results indicate that RNA binding by TRIM25 has at least three important functional consequences: by enhancing ubiquitination activity, either through allosteric effects or through clustering of multiple TRIM25 molecules; by modulating the multi-domain structure of the TRIM25 dimer, and thereby structural coupling of the SPRY and RBCC elements during the ubiquitination reaction; and by facilitating subcellular localization of the E3 ligase during virus infection. 相似文献
48.
The kinetics of Coprinus cinereus peroxidase-catalyzed 1-naphthol, 2-naphthol, and 4-hydroxybiphenyl oxidation was investigated. The initial rates of the naphthols' and 4-hydroxybiphenyl oxidations were linearly dependent on enzyme concentration. The rates depended on substrate concentration and saturated at concentrations above 100 microM of hydrogen peroxide, 25-50 microM of naphthols, and 10 microM of 4-hydroxybiphenyl. At the peroxide concentration 100 microM calculated K(m) and the maximal rate (V(max)) were 74.7 microM and 0.53 microM/sec or 175 microM and 2.0 microM/sec for 1- or 2-naphthol, respectively, and 29.68 microM and 0.42 microM/sec for 4-hydroxybiphenyl. Kinetic measurements of exhaustive naphthol and 4-hydroxybiphenyl oxidation showed that peroxidase is inactivated during the oxidation of the substrates. Different factors and additives, water soluble polymers and albumins (PEG, PEI, PL, BSA, HSA), influenced the initial naphthols and 4-hydroxybiphenyl oxidation rates, peroxidase inactivation rates, and the degree of the substrate conversion. Addition of albumin increased turnover number of naphthols oxidation 1.5-4 times. Light scattering increase was observed when peroxidase-catalyzed oxidation reaction was investigated and suggested that insoluble particles were formed during the process. The addition of polymers, change of concentration and ionic strength of the solution as well as the number of other factors influenced the observed light scattering. The number of particles formed during peroxidase-catalyzed naphthols' and 4-hydroxybiphenyl oxidation and their distribution according to size in the interval 2.5-300 microm were detected by particle counting in solutions. 相似文献
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A new approach to optimization of mixtures for the condensation and introduction of plasmid DNA into eukaryotic cells is proposed, which is based on the formation of ternary interpolyelectrolyte complexes (IPEC) DNA/polycation/polyanion. Polyethyleneimine (PEI) with M30–40 kDa as polycation and polyacrylic acid (PA) with M20 kDa or its grafted copolymer with polyethyleneglycol (PEG) as polyanion were used, and ternary complexes with various ratios of the components were prepared. The PA–PEG incorporation into a ternary complex (by itself or as a 1 : 1 mixture with PA) was shown to confer the solubility onto complexes in a wide range of DNA/PEI ratios. Incorporation of even minute amounts of PA–PEG (as a 1 : 9 mixture with PA), while not completely preventing the aggregation of ternary IPEC, drastically changed their sorption characteristics. Using a -galactosidase-encoding plasmid, efficiencies of transfection of the CHO-AA8 and 293 cells for different IPEC and DNA/lipofectin complex were compared. The maximum efficiency was exhibited by ternary complex DNA/PEI/polyanion where a 1 : 1 mixture of PA and PA–PEG was used as polyanion. Possible reasons for this effect and further ways of optimization of mixtures for expression of plasmid DNA in the context of the new approach are discussed. 相似文献