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Three one-dimensional (1D) chain polymers (1D-9HAC, 1D-Cd-9AC, and 1D-Cd-9AC-HBIM) that exhibit different intermolecular interactions and stacking patterns have been designed and synthesized. Only 1D-Cd-9AC-HBIM with rigid (anion) and flexible (cation) units alternately arranged exhibits mechanochromic luminescence, which can be recovered through rapid solvent treatment or a self-recovery process.Selenium-biofortified crops are a quality functional food resource because of their anti-tumor and anti-cancer properties. In the present study, the conjugates of selenium-biofortified soybean protein and polyphenols were prepared and evaluated by alkali-induced synthesis and in vitro antioxidant tests. Moreover, the antioxidant mechanisms of protecting mice skin damaged by UV-B were studied. The results showed that the antioxidant activity of the conjugate between 7S globulin from selenium-enriched soybean (Se-7S) and EGCG (Se-7S-EGCG) was significantly higher (P less then 0.05) than that of Se-7S-GA. Structural characterizations implied that the polymerization of polyphenols with amino acid residues occurred. Se-7S-EGCG inhibited the apoptosis of epidermal cells induced by UV-B. The overexpression of phosphorylated proteins in the MAPK signaling pathway, the activation of related inflammatory factors, and the boost in the MMPs were reversed by Se-7S-EGCG. Overall, this research provides a theoretical and experimental basis for the application of protein and polyphenol conjugates in food and medicine fields.Here, (1 - x)BiFe0.98(Zn0.5Hf0.5)0.02O3-xBaTiO3 + 1 mol% MnO2 (x = 0.225, 0.250, 0.265, 0.275, 0.285, and 0.300) (BFZH-xBT) ceramics were synthesized using a traditional ceramic sintering technique. A morphotropic phase boundary (MPB) consisting of rhombohedral (R) and tetragonal (T) phases was formed in the BFZH-xBT ceramics when x = 0.285. The suitable content of BT was conducive to enlarge the particle size, improve ferroelectric and piezoelectric properties, and reduce the leakage current density. For the optimal component at x = 0.285, we observed the largest grain size, a lowest leakage current density value of ∼1.93 × 10-5 A cm-2, minimum content of oxygen vacancies, high temperature of 478 °C and the highest piezoelectric coefficient (d33) of 130 pC N-1.The photodeposition method is useful for the preparation of metal-loaded photocatalysts, by which the metal precursors are adsorbed on the photocatalyst surface and reduced by photoexcited electrons to typically form metallic nanoparticles. In the present study, the photodeposition process of Pt nanoparticles was investigated on anatase and rutile TiO2 photocatalysts. It was found that on the anatase surface, only some of the Pt4+ precursors were first adsorbed in an adsorption equilibrium and reduced to form a smaller number of initial metal species; then, they functioned as electron receivers to reduce the remaining precursors on their metallic surfaces and become larger particles. In contrast, the rutile surface can adsorb most of the precursors and quickly reduce them upon photoirradiation to form nanoparticles, giving a larger number of small nanoparticles. As a result, the Pt-loaded rutile photocatalyst exhibited higher activity in hydrogen evolution from an aqueous methanol solution than the Pt-loaded anatase photocatalyst.Since the discovery that Greenlandic Innuits had a lower risk of developing cardiovascular diseases (CVD) due to their diet of fish and as a consequence high polyunsaturated fatty acids (PUFA) intake, scientific interest in the therapeutic value of n-3 PUFA such as eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) has grown. It is well-accepted that fish consumption is associated with the prevention of inflammation and CVD. As a result, fish oil supplements and nutraceuticals are widely consumed. Conversely, recent meta-analyses have cast doubt over the benefits n-3 PUFA due to heterogenous outcomes of numerous randomized controlled trials. However, the majority of clinical studies conducted have used n-3 PUFA supplements in their neutral forms as free fatty acids or bound to triacylglycerides (TAG) or ethyl esters. Current research indicates that n-3 PUFA bound to polar lipids (PL) such as phospholipids seem to exert differential bioavailability and biological effects upon consumption in contrast to neutral forms of n-3 PUFA. In this review, we discuss the promising health benefits of marine PL rich in n-3 PUFA that seem to go beyond those of neutral n-3 PUFA. However, further intensive research is required to discern the full extent of the biological activities of marine n-3 PL and their potential use in functional foods and nutraceuticals.Light-weight metallic aero-sponges are highly desirable for electronics, energy storage, catalysis and environmental remediation. Although several fabrication methods have been developed, the mechanical strength and the structural fatigue resistance of the metallic aero-sponges remain unsatisfactory. Loofah sponge is known for its mechanical strength and grease absorption due to its highly ordered hierarchical laminae-trestle-laminae (L-T-L) microstructure. Inspired by this structure-function relationship, we engineered a highly ordered L-T-L structured copper aero-sponge by unidirectional freeze-casting of copper nanowires (CuNWs) and polyvinyl alcohols (PVA). Selleckchem Adavosertib By this approach, water-to-ice crystallization shaped the building blocks into vertically distributed microchannels and horizontally arranged hollow pores. The copper aero-sponge exhibits anisotropic mechanical elasticity with a maximum tolerable compressive stress of 57 kPa, sustainable resilience at a strain of 75% and structure-induced hydrophobicity with a water contact angle more than 130°. The elasticity and hydrophobicity of the copper aero-sponge are also superior to those of the mimicked loofah sponge and copper aero-sponge with disordered pore structure made by the conventional freeze-casting. This work can be extended to manufacture novel bioinspired aero-sponges/aero-gels with hierarchical ordered microstructures.The contribution of intersystem crossing (ISC) in the C(3P) + SiH4 reaction that leads to products formation in the singlet electronic state is investigated using a direct dynamics trajectory surface hopping (TSH) method with Tully's fewest switches algorithm. Interestingly, in contrast to the O(3P) + SiH4 reaction with no ISC effect, for the title reaction we observed ∼7% product formation through ISC despite weak spin-orbit coupling interactions (less than 25 cm-1) between the ground singlet and triplet states. This is presumably because of the topological differences in the potential energy surfaces of the two reactions at the entrance channel. The O(3P) + SiH4 reaction follows either an addition reaction (with shallow attractive potential and a late singlet-triplet crossing) or a direct abstraction pathway with singlet-triplet crossing at near or after the top of the barrier making ISC ineffective. On the other hand, an insertion mechanism is exclusively followed by the C(3P) + SiH4 reaction with no entrance barrier to the reaction in the triplet state. The triplet insertion complex initially formed (3H3SiCH) can go to the singlet state through ISC due to the fact that the triplet-singlet crossing is accessed several times during the course of the reaction. Our computed overall product angular distributions for H and H2 elimination channels are found to be broad and flat or nearly isotropic in nature indicating the formation of stable intermediate complexes, which corroborates the most recent crossed molecular-beam study.We present a novel structure for topologically protected propagation of mechanical waves in a continuous, elastic membrane using an analog of the quantum valley Hall effect. Our system involves a thin, continuous graphene monolayer lying on a pre-patterned substrate, and as such, it can be employed across multiple length scales ranging from the nano to macroscales. This enables it to support topologically-protected waves at frequencies that can be tuned from the kHz to GHz range by either selective pre-tensioning of the overlaying membrane, or by increasing the lattice parameter of the underlying substrate. We show through numerical simulations that this continuous system is robust against imperfections, is immune to backscattering losses, and supports topologically-protected wave propagation along all available paths and angles. We demonstrate the ability to support topologically-protected interface modes using monolayer graphene, which does not intrinsically support topologically non-trivial elastic waves.The efficacy of antidepressant therapy is frequently limited by challenges related to the potential to reach the brain. The development of new strategies to deliver more antidepressants to the brain so as to bypass the blood-brain barrier (BBB) is beneficial for the treatment of nervous system diseases, especially depression. Here, we have reported an unconventional strategy by the intranasal delivery of berberine with an in situ thermoresponsive hydrogel as the holder in the nasal cavity to improve its antidepressant-like activity. A berberine/hydroxylpropyl-β-cyclodextrin (HP-β-CD) inclusion complex was first prepared to improve the solubility of berberine and loaded into a thermoresponsive hydrogel system of poloxamers. A radioactive tracer of 125I-labeled berberine was used to investigate brain targeting. Liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS) was performed to study the pharmacokinetic change in the hippocampus. Monoamine neurotransmitters were analyzed in a reserpine-induc strategy with a lower dosage than traditional oral drugs for the treatment of depression.Macrophage glycosylation is essential to initiate the host-immune defense but may also be targeted by pathogens to promote infection. Indeed, the alteration of the cell-surface glycosylation status may affect the binding of lectins involved in cell activation and adhesion. Herein, we demonstrate that infection by M. bovis BCG induces the remodeling of the N-glycomes of both human primary blood monocyte-derived macrophages (MDM) and macrophage-cell line THP1. MALDI-MS based N-glycomic analysis established that mycobacterial infection induced increased synthesis of biantennary and multifucosylated complex type N-glycans. In contrast, infection of macrophages by M. bovis BCG did not modify the glycosphingolipids composition of macrophages. Further nano-LC-MSn glycotope-centric analysis of total N-glycans demonstrated that the increased fucosylation was due to an increased expression of the Lex (Galβ1-4[Fucα1-3]GlcNAc) epitope, also known as stage-specific embryonic antigen-1. Modification of the surface expression of Lex was further confirmed in both MDM and THP-1 cells by FACS analysis using an α1,3-linked fucose specific lectin. Activation with the mycobacterial lipopeptide Pam3Lp19, an agonist of toll-like receptor 2, did not modify the overall fucosylation pattern, which suggests that the infection process is required to modify surface glycosylation. These results pave the way toward the understanding of infection-triggered cell-surface remodeling of macrophages.

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