Notes

[Impact from the Medical Staff Strengthening Act on noninvasive surgical treatment exemplified by right-sided hemicolectomy coming from a financial perspective].
It seems quite necessary for obtaining effective substances from natural products against the diabetic nephropathic (DN) with the presently clinical problems of accompanying side-effects and lowing life qualities. This work aimed to characterize the primary structure of Coprinus comatus mycelium polysaccharides (CMP) and investigate the abilities against DN in streptozotocin induced mice models. The results indicated that CMP could improve insulin resistance and energy metabolism, and significantly suppress dysfunction on kidney and relieve the renal oxidative stress and inflammation in DN mice. Besides, the western blot results suggested that CMP reversed renal injury by modulating the PTEN/PI3K/Akt and Wnt-1/β-catenin pathways. The structure analysis indicated the typical characterizations with the major monosaccharide-compositions of galactose, α-pyranose configuration and proper molecular weights of 495.8 kDa possibly contributed to the anti-diabetic nephropathic effects of CMP. The results suggested that polysaccharides form C. comatus could be used as functional foods/drugs on preventing diabetic nephropathy.A water-soluble β-glucan from fruiting body of Hericium erinaceus was obtained after water extraction, purification and fractionation. Analyses of monosaccharide composition, molecular weight and linkage mode demonstrated that it is a β-glucan with 1→3 and 1→6 linkage modes and a molecular weight of 13.3 kDa. An endo-1,6-β-d-glucanase was used to digest the β-glucan and the digested products over time were analyzed with a HPAEC-PAD-MS platform. The linkage mode of each glycosidic bond in the digested oligosaccharides were confirmed with MS/MS. At the end of digestion, enzyme resistant oligosaccharides were observed as several 1→6 linked glucoses with one or two 1→3 linked glucose residues. All these domains are more like constructional pieces from a branch-on-branch glucan, in which multiple 1→6 linked glucan chains are hooked through one or two 1→3 linked glucose residues. Averagely, there is a 1→3 linkage per six 1→6 linked glucoses in this branch-on-branch β-glucan.In this study, a surface modification strategy using natural biopolymers on titanium is proposed to improve bone healing and promote rapid and successful osseointegration of orthopedic implants. Titania nanotubes were fabricated via an anodization process and the surfaces were further modified with polyelectrolyte multilayers (PEMs) based on Tanfloc (a cationic tannin derivative) and glycosaminoglycans (heparin and hyaluronic acid). Scanning electron microscopy (SEM), water contact angle measurements, and X-ray photoelectron spectroscopy were used to characterize the surfaces. Adipose-derived stem cells (ADSCs) were seeded on the surfaces, and the cell viability, adhesion, and proliferation were investigated. Osteogenesis was induced and osteogenic differentiation of human ADSCs on the surfaces was evaluated via mineralization and protein expression assays, immunofluorescent staining, and SEM. The Tanfloc/heparin PEMs on titania nanotubes improved the rate of osteogenic differentiation of ADSCs as well as the bone mineral deposition, and is therefore a promising approach for use in orthopedic implants.The polysaccharides (PKP-E) extracted from the pinecones of Pinus koraiensis were studied, which was fractionated using DEAE-52 cellulose and Sephadex G-100. Four novel polysaccharide fractions were obtained, which were PKP-E-1-1, -1-2, -2-1, and -2-2, respectively. The structural features were characterized using HPGPC, monosaccharide composition analysis, Congo red test, periodate oxidation, Smith degradation, FTIR and NMR spectroscopy. The results showed the 4 purified fractions were non-triple helical structured heteropolysaccharides and composed of l-rhamnose, l-arabinose, d-mannose, d-glucose, and d-galactose. The fractions were mainly linked by 1→6 or 1→ glycosidic bonds and the backbone of 4 fractions was probably composed of→2, 6)-β-d-Man-(1→ and α-d-GalpA-(1→), which resembles pectin. Moreover, the antioxidant activities of the polysaccharides were measured by scavenging radical capacity tests. The PKP-E-2-1 was the most stable and active fraction, and the respective IC50 for the hydroxyl and ABTS·+ radicals were 3.0 and 23.6 mg/mL.The objective of this research was to modify chicha gum with phthalic anhydride to obtain a new biologically active material. MRTX849 concentration The chemical modification of the gum structure was proven through FTIR, elemental analysis, XRD, TG, and DSC. The derived materials demonstrated excellent inhibitory effect against P. aeruginosa and K. pneumoniae species (rating 100% inhibition) and could also inhibit Escherichia coli growth. The best antimicrobial activity observed for the derivatives suggests that chicha gum hydrophobization due to the addition of phthalic groups improved the interaction of these derivatives with bacterial cell wall components. On the other hand, the derivatives increased CC50 in macrophages but did not present acute toxicity or hemolytic activity, indicating that they are promising for use in prophylaxis or treatment of infections caused by Gram-negative bacteria.It has been well known that different strains of Aureobasidium spp. can yield a large amount of pullulan. Although pullulan has wide applications in various sectors of biotechnology, its biosynthesis and regulation were not resolved. Lately, the molecular mechanisms of pullulan biosynthesis and regulation have been elucidated and their genes and encoding proteins have been identified using the genome-wide mutant analysis. It is found that a multidomain AmAgs2 is the key enzyme for pullulan biosynthesis and the alternative primers are required for its biosynthesis. Pullulan biosynthesis is regulated by glucose repression and signaling pathways. Elucidation of such a biosynthetic pathway and regulation is of significance in biotechnology. Therefore, the present review article mainly summaries the recent research proceedings in this field, hoping to promote further endeavors on enhanced pullulan production and improved chemical properties of pullulan via molecular modifications of the producers by using synthetic biology approaches.
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