The idea of spatial confinement has gained widespread interest in myriad applications. Especially, the confined short hydrogen-bond (SHB) network could afford an attractive opportunity to enable proton transfer in a nearly barrierless manner, but its practical implementation has been challenging. Herein, we report a SHB network confined on the surface of ionic covalent organic framework (COF) membranes decorated by densely and uniformly distributed hydrophilic ligands. Combined experimental and theoretical evidences have pointed to the confinement of water molecules allocated to each ligand, achieving the local enrichment of hydronium ions and the concomitant formation of SHBs in water-hydronium domains. These overlapped water-hydronium domains create an interconnected SHB network, which yields an unprecedented ultrahigh proton conductivity of 1389 mS cm−1 at 90 °C, 100% relative humidity.
Fabricating covalent organic frameworks (COFs) membranes with tight structure,w hich can fully utilizew elldefined framework structure and thus achieve superior conduction performance,r emains ag rand challenge.H erein, through molecular precursor engineering of COFs,wereported the fabrication of tight COFs membrane with the everreported highest hydroxide ion conductivity over 200 mS cm À1 at 80 8 8C, 100 %RH. Six quaternary ammonium-functionalized COFs were synthesized by assembling functional hydrazides and different aldehyde precursors.I na no rganic-aqueous reaction system, the impact of the aldehyde precursors with different size, electrophilicity and hydrophilicity on the reaction-diffusion process for fabricating COFs membranes was elucidated. Particularly,m ore hydrophilic aldehydes were prone to push the reaction zone from the interface region to the aqueous phase of the reaction system, the tight membranes were thus fabricated via phase-transfer polymerization process, conferring around 4-8 times the anion conductivity over the loose membranes via interfacial polymerization process.
BackgroundClinical evidence indicates that late acute renal failure (ARF) predicts high mortality in severely burned patients but the pathophysiology of late ARF remains undefined. This study was designed to test the hypothesis that sustained reactive oxygen species (ROS) induced late ARF in a severely burned rat model and to investigate the signaling mechanisms involved.Materials and MethodsRats were exposed to 100°C bath for 15 s to induce severe burn injury (40% of total body surface area). Renal function, ROS generation, tubular necrosis and apoptosis, and phosphorylation of MAPK and Akt were measured during 72 hours after burn.ResultsRenal function as assessed by serum creatinine and blood urea nitrogen deteriorated significantly at 3 h after burn, alleviated at 6 h but worsened at 48 h and 72 h, indicating a late ARF was induced. Apoptotic cells and cleavage caspase-3 in the kidney went up slowly and turned into significant at 48 h and 72 h. Tubular cell ROS production shot up at 6 h and continuously rose during the 72-h experiment. Scavenging ROS with tempol markedly attenuated tubular apoptosis and renal dysfunction at 72 h after burn. Interestingly, renal p38 MAPK phosphorylation elevated in a time dependent manner whereas Akt phosphorylation increased during the first 24 h but decreased at 48 h after burn. The p38 MAPK specific inhibitor SB203580 alleviated whereas Akt inhibitor exacerbated burn-induced tubular apoptosis and renal dysfunction. Furthermore, tempol treatment exerted a duplex regulation through inhibiting p38 MAPK phosphorylation but further increasing Akt phosphorylation at 72 h postburn.ConclusionsThese results demonstrate that sustained renal ROS overproduction induces continuous tubular cell apoptosis and thus a late ARF at 72 h after burn in severely burned rats, which may result from ROS-mediated activation of p38 MAPK but a late inhibition of Akt phosphorylation.
Fabricating three-dimensional (3D) covalent organic framework (COF) membranes is in infancy stage. Here, we report the fabrication of free-standing uniform 3D COF membrane, COF-300 membrane, with interconnected nanochannels using interfacial...
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ABSTRACT:Human CYP2A13 is believed to be important in the metabolic activation of tobacco-specific nitrosamines in the respiratory tract; therefore, genetic polymorphisms of the CYP2A13 gene may be associated with interindividual differences in the risks of tobaccorelated tumorigenesis. Our earlier studies identified a frequent single nucleotide polymorphism in CYP2A13 exon 5, Arg257Cys, which led to an approximate 50% decrease in metabolic activities. In the present study, three additional coding region mutations (Arg25Gln, Arg101Stop, and Asp158Glu) and several mutations in the introns and flanking regions were identified in a Chinese patient population. Of particular interest is the Arg101Stop mutation, which was due to a C > T change in exon 2. Thus, individuals homozygous for this nonsense mutation would not have a functional CYP2A13 protein and, therefore, might have reduced sensitivity to xenobiotic toxicity resulting from CYP2A13-mediated metabolic activation in the respiratory tract. The frequencies of the coding region mutations were further examined using random samples of white, black, Hispanic, and Asian newborns from New York. The frequency of the Arg25Gln mutation in Asian newborns (9.6%) was very similar to that found in the Chinese population (10.9%). On the other hand, the Arg101Stop mutation was not detected in 136 newborn samples examined (23 white, 21 black, 19 Hispanic, and 73 Asian), suggesting that this mutation may be unique for the Chinese patient population. Haplotype analysis indicated that the Arg25Gln and Arg257Cys mutations are parts of a common haplotype. However, an additional haplotype that consists of the 25Gln but not the 257Cys allele was also identified.
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