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Bonner Bekker posted an update 6 months, 1 week ago
The purpose of this paper was to explore the therapeutic effect and underlying mechanism of Tremella fuciformis polysaccharides (TFP) on ulcerative colitis (UC) based on dextran sodium sulfate (DSS)-induced mice UC model and lipopolysaccharide (LPS)-stimulated Caco-2 cells model. The results firstly indicated that TFP can significantly alleviate the symptoms and signs of the DSS-induced mice UC model, which manifests as improvement of body weight loss, increase of colon length, decrease of colon thickness and reduction of intestinal permeability. Then, results from histopathological and electron microscope analysis further implied that TFP could dramatically reduce inflammatory cells infiltration and restore intestinal epithelial barrier integrity. In addition, the experiments of LPS-stimulated Caco-2 cells model in vitro also further confirmed that TFP could markedly inhibit the expressions of pro-inflammatory cytokines and increase related genes or proteins expressions of intestinal barrier and mucus barrier. Taken together, these data suggested that TFP has a significant therapeutic effect on DSS-induced UC model, and its mechanisms are closely linked to the inhibition of inflammation and the restoration of intestinal barrier and mucus barrier function. These beneficial effects may make TFP a promising drug to be used in alleviating UC.Macromolecular crowding can have significant consequences on the structure and dynamics of a protein. The size and shape of a co-solute molecule and the nature of protein contribute significantly in macromolecular crowding, which results in different outcomes in similar conditions. The structure of apo-myoglobin (apo-Mb) both in the absence and presence of denaturants (GdmCl and urea) was investigated in crowded conditions at pH 7.0, with a comparable size of crowders (~70 kDa) but of different shapes (ficoll and dextran) at various concentrations using spectroscopic techniques like absorption and circular dichroism to monitor changes in secondary and tertiary structure, respectively. The crowders in the absence of denaturants showed structural stabilization of the tertiary structure while no significant change in the secondary structure was observed. The effect of crowders on the stability of the protein was also investigated using probes such as Δε291 and θ222 using chemical denaturants. The analysis of chemical-induced denaturation curves showed that both the crowders stabilize apo-Mb by increasing the values of the midpoint of transition (Cm) and change in free energy in the absence of denaturant (∆GD°), and it was observed that dextran 70 shows more stabilization than ficoll 70 under similar conditions. In this study apo-Mb showed stabilization under crowded conditions, which is a deviation from earlier work from our group where holo form of the same protein was destabilized. This study emphasizes that volume exclusion is a dominant force in a simple protein while soft interactions may play important role in the proteins that are possessing prosthetic group. Hence, the effect of crowders is protein-dependent, and excluded volume plays a great role in the stabilization of apo-Mb, which does not interact with the crowders.Renewable resources including polycarbohydrates, lignin, proteins, and polyacids are the intrinsically valuable class of materials that are naturally available in great quantities. Their utilization as green additives and reinforcing bio-fillers, in substitution of environmentally perilous petroleum-based fillers, for developing high-performance green rubber blends and composites is presently a highly tempting option. Blending of these renewable materials with elastomers is not straight-forward and research needs to exploit the high functionality of carbohydrates and other natural materials as proper physicochemical interactions are essential. Correlating and understanding the structural properties of lignin, carbohydrates, polyacids, and other biopolymers, before their incorporation in elastomers, is a potential approach towards the development of green elastomers for value-added applications. Promising properties i.e., biodegradability, biocompatibility, morphological characteristics, high mechanical properties, thermal stability, sustainability, and various other characteristics along with recent advancements in the development of green elastomers are reviewed in this paper. Structures, viability, interactions, properties, and use of most common natural polycarbohydrates (chitosan and starch), lignin, and proteins (collagen and gelatin) for elastomer modification are extensively reviewed. Challenges in commercialization, applications, and future perspectives of green elastomers are also discussed. https://www.selleckchem.com/products/gdc-0032.html Sustainability analysis of green elastomers is accomplished to elaborate their cost-effectiveness and environmental friendliness.In this study, a novel polysaccharide fraction from Ocimum album seed was extracted and then purified by Cellulose DEAE-52 and Sephadex G-200 anion exchange chromatography. The structural, physicochemical and antioxidant properties of the main polysaccharide fraction (OAP-1A) were evaluated. The purified polysaccharide contained 94.3% carbohydrate, 3.56% moisture and 2.14% ash and result of gel permeation chromatography (GPC) showed average molecular weight of 593 kDa. The results of high-performance liquid chromatography (HPLC) showed that OAP-1A was a neutral hetero-polysaccharide composed of mannose (35.7%), glucose (33.32%), galactose (19.6%) and rhamnose (11.38%). In addition, GC-MS data, nuclear magnetic resonance (NMR) spectrum and Fourier transform infrared (FT-IR) analysis revealed that the backbone of OAP-1A consists of →3)-β-D-Manp-(1→, →3,4)-β-D-Manp-(1→, →3,6)-β-D-Manp-(1→, →3)-α-D-Glcp-(1→, →6)-β-D-Galp-(1→, →4)-α-L-Rhap-(1→ and α-D-Glcp-(1→. X-ray diffraction (XRD) analysis showed semi-crystalline structure in OAP-1A. Differential scanning colorimeter (DSC) and thermo-gravimetry analysis (TGA) indicated that OAP-1A had relatively high thermal stability. Moreover, OAP-1A showed strong scavenging activity against 2,2-diphenyl-1-picrylhydrazyl (DPPH) radicals.
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