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Techniques to Review Autophagocytosis within Magnaporthe oryzae.
The data obtained are of importance for development of the biotechnologies for treatment of uranium-contaminated groundwater and activated sludge.Green and functional bio based adsorbents based on naturally derived polysaccharides have attracted considerable interest owing to their non-toxicity, biodegradability, flexible design, and wide origins. Here, smart polyelectrolyte complex (PEC SC1-SC4) hydrogels were developed by self-assembling of different ratios of salecan and chitosan lactate (CL) for clean-up of nickel ion (Ni2+) from wastewater. Preparation process was rapid and eco-friendly, without any toxic cross-linkers. The electrostatic attractions between polysaccharides were studied by FT-IR, XRD, XPS, and TGA. Particularly, the content of salecan and CL could be precisely modulated to tailor the swelling ability, micromorphology, and stiffness of the hydrogels. Ni2+ adsorption onto the hydrogels was dependent on salecan/CL ratio, pH, initial ion concentration, and contact time. SC4 showed the highest Ni2+ uptake, but it was too brittle. SC3 was selected for absorption studies. The equilibrium adsorption data commendably matched the pseudo-second-order and Langmuir models, demonstrating monolayer chemical adsorption mechanisms. The maximum Ni2+ adsorption derived from Langmuir model was 414.9 mg/g, superior to many reported Ni2+ adsorbents. Most strikingly, SC3 performed good recyclability, and the adsorption capacity still kept 95.3% even after five adsorption/desorption cycles. Hopefully, the prepared SC3 hydrogel is a potential agent for treatment of wastewater contaminated with Ni2+ ion.Genetic susceptibility plays an important role in the pathogenesis of diabetic kidney disease (DKD). Recent studies have suggested that chemerin (encoded by the RARRES2 gene) is a risk factor for the development of DKD. We investigate the relationship between RARRES2 single nucleotide polymorphisms (SNPs) and DKD and their correlation with serum chemerin levels in Chinese individuals with type 2 diabetes (T2D). CX-5461 ic50 A total of 256 individuals with T2D were enrolled in this case-control study and classified into normo-, micro- and macroalbuminuria groups according to their urinary albumin/creatinine ratio (UACR). All exons of the RARRES2 gene were sequenced by polymerase chain reaction-direct sequencing, and 7 SNPs were genotyped. We found that the minor alleles of rs1047207, rs1047575 and rs1047586 were significantly associated with macroalbuminuria. Carriers of the minor allele of rs1047575 and rs1047586 also had higher urinary albumin (U-Alb) and UACR levels under both homo- and heterozygotic conditions than carriers of the major allele under the homozygotic condition. The minor alleles of rs1047207, rs1047575 and rs1047586 were significantly associated with increased serum chemerin levels under the homozygotic condition. These SNPs in the RARRES2 gene probably affect chemerin expression and likely confer susceptibility to albuminuria in individuals with T2D.This study investigates the impact of dual ionic and covalent cross-links (ion-XrL and cov-XrL) on the properties of chitosan-based (CTS) hydrogels as eco-friendly drug delivery systems (DDS) for the model drug diclofenac sodium (DCNa). Citric acid and a diiodo-trehalose derivative (ITrh) were the chosen ionic and covalent cross-linker, respectively. The novel hydrogels completely disintegrated within 96 h by means of a hydrolysis process mediated by the enzyme trehalase. As far as the authors are aware, this is the first time that a trehalose derivative has been used as a covalent cross-linker in the formation of biodegradable hydrogels. The impact of CTS concentration and degree of cov-XrL on rheological parameters were examined by means of an experimental model design and marked differences were found between the materials. Hydrogels with maximum elastic properties were achieved at high CTS concentrations and high degrees of cov-XrL. DCNa-loaded formulations displayed well-controlled drug-release profiles strongly dependent on formulation composition (from 17% to 40% in 72 h). Surprisingly, higher degrees of covalent cross-linking led to a boost in drug release. The formulations presented herein provides a simple and straightforward pathway to design fully biodegradable, tailor-made controlled drug delivery systems with improved rheological properties.Konjac glucomannan (KGM) is a hypoglycemic polysaccharide with a wide range of molecular weights. But study on hypoglycemic effects of KGMs relate to molecular weight is limited. In this study, KGMs with high and medium molecular weights, and the degraded KGMs were analyzed with physicochemical properties, hypoglycemic effects and mechanisms. Results showed that as the molecular weight KGMs decreased, the viscosity decreased, molecular flexibility increased, while chemical groups, crystal structures and main chains showed little change. KGMs with medium molecular weights (KGM-M1, KGM-M2) showed better effects on increasing body weight, decreasing levels of fasting blood glucose, insulin resistance, total cholesterol and low density lipoprotein cholesterol, and enhancing integrity of pancreas and colon, than KGMs with high or low molecular weights (KGM-H, KGM-L) in type 2 diabetic rats. Mechanism analysis suggested that KGM-M1 and KGM-M2 had higher antioxidant and anti-inflammatory activities on elevating superoxide dismutase, decreasing malondialdehyde and tumor necrosis factor-α levels. Moreover, KGM-M1 and KGM-M2 increased gut microbiota diversity, Bacteroidetes/Firmicutes ratio and Muribaculaceae, decreased Romboutsia and Klebsiella, and improved 6 diabetic related metabolites. Combined, KGM-M1 and KGM-M2 showed higher hypoglycemic effects, due to regulatory activities of antioxidant, anti-inflammatory, intestinal microbiota, and relieved metabolic disorders.Naturally occurring thymine (TM) was incorporated into bacterial poly(3-hydroxybutyrate) (PHB) polyester to fabricate a novel and green biocomposite. Both 0.5% and 1% TM exhibit supernucleation effect on PHB, and crystallization kinetics suggests TM significantly increased Tc and Xc, and substantially shortened t1/2 of PHB. Epitaxial nucleation caused by a perfect crystal lattice matching between PHB and TM, was proposed to elucidate nucleation mechanism of PHB. Hydrogen bond interaction exists between CO, C-O-C groups of PHB and -CH3 (or -CH)/-NH- group of TM. TM interacted with CO group of PHB crystalline phase rather than that of amorphous one. In addition, two new IR crystalline bands assigned to C-O-C group of PHB appeared in the presence of TM, which arises from shift of two amorphous ones, respectively. TM enhanced onset thermal degradation temperature of PHB, mainly attributed to increased degree of crystallinity of PHB and flame retardance effect of TM.
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