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67% retention after 200 cycles at 1 C). Even at 5 C, a high discharge capacity of 150.8 mA h g-1 can be obtained. In addition, this work provides a feasible and effective approach to controllable synthesis of stable structures and high-performance oxide electrode materials for LIBs.Peripheral nerve repair and functional recovery depend on the rate of nerve regeneration and the quality of target reinnervation. It is important to fully understand the cellular and molecular basis underlying the specificity of peripheral nerve regeneration, which means achieving corresponding correct pathfinding and accurate target reinnervation for regrowing motor and sensory axons. In this study, a quantitative proteomic technique, based on isobaric tags for relative and absolute quantitation (iTRAQ), was used to profile the protein expression pattern between single motor and sensory nerves at 14 days after peripheral nerve transection. Among a total of 1259 proteins identified, 176 proteins showed the differential expressions between injured motor and sensory nerves. Quantitative RT-PCR and western blot analysis were applied to validate the proteomic data on representative differentially expressed proteins. Functional categorization indicated that differentially expressed proteins were linked to a diverse array of molecular functions, including axonogenesis, response to axon injury, tissue remodeling, axon ensheathment, cell proliferation and adhesion, vesicle-mediated transport, response to oxidative stress, internal signal cascade, and macromolecular complex assembly, which might play an essential role in peripheral motor and sensory nerve regeneration. Overall, we hope that the proteomic database obtained in this study could serve as a solid foundation for the comprehensive investigation of differentially expressed proteins between injured motor and sensory nerves and for the mechanism elucidation of the specificity of peripheral nerve regeneration. Data are available via ProteomeXchange with identifier PXD022097.Because of its quantitative character and capability for high-throughput screening, 1H nuclear magnetic resonance (NMR) spectroscopy is used extensively in the profiling of biofluids such as urine and blood plasma. However, the narrow frequency bandwidth of 1H NMR spectroscopy leads to a severe overlap of the spectra of components present in the complex mixtures such as biofluids. Therefore, 1H NMR-based metabolomics analysis is focused on targeted studies related to concentrations of the small number of metabolites. Here, we propose a library-based approach to quantify proportions of overlapping metabolites from 1H NMR mixture spectra. The method boils down to the linear non-negative least squares (NNLS) problem, whereas proportions of the pure components contained in the library stand for the unknowns. The method is validated on an estimation of the proportions of (i) the 78 pure spectra, presumably related to type 2 diabetes mellitus (T2DM), from their synthetic linear mixture; (ii) metabolites present in 62 1H NMR spectra of urine of subjects with T2DM and 62 1H NMR spectra of urine of control subjects. In both cases, the in-house library of 210 pure component 1H NMR spectra represented the design matrix in the related NNLS problem. The proposed method pinpoints 63 metabolites that in a statistically significant way discriminate the T2DM group from the control group and 46 metabolites discriminating control from the T2DM group. For several T2DM-discriminative metabolites, we prove their presence by independent analytical determination or by pointing out the corresponding findings in the published literature.Cellulose nanocrystals (CNCs) are unique and promising natural nanomaterials that can be extracted from native cellulose fibers by acid hydrolysis. In this study, we developed chemically modified CNC derivatives by covalent tethering of PEGylated biotin and perylenediimide (PDI)-based near-infrared organic dye and evaluated their suitability for labeling and imaging of different cell lines including J774A.1 macrophages, NIH-3T3 fibroblasts, HeLa adenocarcinoma cells, and primary murine dendritic cells. PDI-labeled CNCs showed a superior photostability compared to similar commercially available dyes under long periods of constant and high-intensity illumination. All CNC derivatives displayed excellent cytocompatibility toward all cell types and efficiently labeled cells in a dose-dependent manner. Moreover, CNCs were effectively internalized and localized in the cytoplasm around perinuclear areas. Thus, our findings demonstrate the suitability of these new CNC derivatives for labeling, imaging, and long-time tracking of a variety of cell lines and primary cells.Tauopathies refer to a group of neurodegenerative disorders caused by the accumulation of insoluble hyperphosphorylated Tau protein in the brain. The inhibition and interruption of Tau aggregation are considered important strategies to ameliorate the neurodegenerative process. Previous work has shown that hexapeptide 306VQIVYK311 (PHF6) located in the repeat domain 3 of Tau protein drives Tau aggregation and itself forms a β-sheet structure similar to those of Tau-oligomers and neurofibrillary tangles (NFTs). In this study, a mirror image phage display technology was used to screen protease-resistant and low-immunogenic d-enantiomeric peptides for their capacity to inhibit Tau aggregation. Following the preparation of d-enantiomeric PHF6 fibrils and M13 phage peptide library biopanning, 7 sets of high specificity peptides were obtained. Through ELISA and competition inhibition assays, we chose a highly specific peptide p-NH with the sequence N-I-T-M-N-S-R-R-R-R-N-H. The molecular docking results showed that p-NH interacted with PHF6 fibrils mainly through van der Waals forces and hydrogen bonding and could inhibit PHF6 aggregation in a d-configuration and concentration-dependent manner. BLU667 In vitro, p-NH prohibited the formation of PHF6 fibrils and was able to enter into mouse neuroblastoma N2a cells (N2a cells) to inhibit Tau hyperphosphorylation and aggregation. Intranasal administration of p-NH reduced NFTs and improved the cognitive ability of TauP301S transgenic mice. These findings represent a straightforward methodology to find therapeutic peptides with potential applications in tauopathies.

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