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Continuing development of an electronic digital Affected individual Schooling Application regarding Patients Along with Most cancers In the COVID-19 Crisis.
Our previous work has reported that EstJ6 was a phthalate-degrading hydrolase. In the study, a random mutant library was constructed by two rounds of error-prone PCR, three mutants (ET1.1, ET2.1, and ET2.2) with enhanced hydrolytic activity against dibutyl phthalate (DBP) were obtained. The best mutant ET2.2, accumulated three amino acid substitutions (Thr91Met, Ala67Val, and Val249Ile) and exhibited 2.8-fold increase enzyme activity and 2.3-fold higher expression level. Meanwhile, compared with EstJ6, ET2.2 showed over 50% improvement in thermostability (at 50 °C for 1 h) and 1.2-fold increase in 50% methanol tolerance. Kinetic parameters analysis revealed that the Km value for ET2.2 decreased by 60% and the kcat/Km value increased by 166%. The molecular docking indicated that the shortening of hydrogen bond between Ser146-OH and DBP-CO, which may led to an increase in enzyme activity and catalytic efficiency, the enhancement of hydrophobicity of hydrophobic pocket was related to the improvement of organic solvents tolerance, and three hydrophobic amino acid substitutions Thr91Met, Ala67Val, and Val249Ile facilitated to improve the thermal stability and organic solvents tolerance. These results confirmed that random mutagenesis was an effective tool for improving enzyme properties and lay a foundation for practical applications of phthalate-degrading hydrolase in biotechnology and industrial fields.Ionic liquids (ILs) have been reported to be a potential water and soil pollutant, whose toxicity has gained much attention in recent years. In this work, silkworm larvae were used as a novel in vivo model to assess the biotoxicity of ILs, which were performed by three steps. The first step was to determine the susceptibility of different silkworm strains to ILs. Data showed that Jingsong×haoyue was the most susceptible one among three silkworm strains (Jingsong×haoyue, P50, and Yi16) for evaluating the biological effects of ILs. The second step was to compare the toxicity of ILs with different structures using the larvae of Jingsong×haoyue. It was found that three representative ILs, 1-octyl-3-methylimidazole chloride ([C8mim]Cl), N-octyl-3-methylpyridine chloride ([C8mpy]Cl), and 1-octyl-3-methylimidazole tetrafluoroborate ([C8mim]BF4), had significant toxic effects on the growth and development of the larvae with 24 h median lethal concentration (24 h-LC50) values of 112.3, 156.3, and 68.9 μg g-1, respectively, indicating that the types of anions and cations had impacts on the toxicity of ILs. The last step was targeted at investigating responses of the larvae to the exposure of ILs. It was observed that remarkable physiological and biochemical responses occurred in different tissues of the larvae. AP1903 in vivo For example, activities of superoxide dismutase (SOD), catalase (CAT), and peroxidase (POD) in different tissues increased significantly to form an active protective mechanism for alleviating the toxic effects of ILs. Additionally, an increase of malondialdehyde (MDA) contents was found in the larvae. The data suggested that ILs could induce lipid peroxidation and cellular damage, which may be the main reason for toxicity of ILs to the larvae. Therefore, silkworm larvae could be used as a susceptible and reliable in vivo model to evaluate the toxicity of ILs, and the results are helpful to reveal their toxic mechanism to insects.Non-trivial topology of proteins under shear suggests that even small structural changes in proteins result in dramatic variations in the mechanical properties and stability. In this study, we have analysed the elastic compliance of solvated bovine serum albumin (BSA) with NaCl,MgCl2, FeCl3 of concentration-ranging from 50 mM to 250 mM using Quartz crystal microbalance with dissipation. The compliance shows a reverse Hofmeister trend (Na + less then Mg 2+ less then Fe 3+) for high salt concentrations with a fine balance, between intra and intermolecular interactions for the cations. Radius of gyration of BSA with the electrolytes from small angle X-ray scattering (SAXS) is in agreement with this reverse Hofmeister trend. Depending on the valency and concentration of metal ion, the repulsive double layer screening provides sufficient energy to overcome the interactions between hydrophobic domains in the protein molecule resulting in protein assemblies. The long-range effect of high concentrations of divalent and trivalent ions in solution studied using UV-visible and fluorescence spectroscopy, zeta potential and circular dichroism, demonstrates spontaneous aggregated assemblies of BSA. These assemblies are dominated by the long-range distribution of the ions around the proteins, as described by Debye-Hückel theory, with the local salt structure near the protein surface playing a minor role.The understanding of the complex conformational landscape of amyloid aggregation and its modulation by relevant physicochemical and cellular factors is a prerequisite for elucidating some of the molecular basis of pathology in amyloid related diseases, and for developing and evaluating effective disease-specific therapeutics to reduce or eliminate the underlying sources of toxicity in these diseases. Interactions of proteins with solvating water have been long considered to be fundamental in mediating their function and folding; however, the relevance of water in the process of protein amyloid aggregation has been largely overlooked. Here, we provide a perspective on the role water plays in triggering primary amyloid nucleation of intrinsically disordered proteins (IDPs) based on recent experimental evidences. The initiation of amyloid aggregation likely results from the synergistic effect between both protein intermolecular interactions and the properties of the water hydration layer of the protein surface. ing on the particular microenvironment that the protein molecules encounter in the cell.Bottom ash contains unfavorable contaminants that could leach into the circulating water used for wet treatment, and its improper disposal of bottom ash could cause ecological pollution. This study was to discuss the partition of heavy metals and salts of bottom ash into circulating water and ash stockpile runoff in wet treatment plants in southern China. The leachability of bottom ash before and after the wet treatment was also investigated. The checked heavy metals Pb, Cu, and Ni and dissolved salts Cl- and SO42- show lower available fractions in leachate from the treated bottom ash than that in raw bottom ash. Circulating water is contaminated by target heavy metals, which the contents of Cu and Pb is higher than its limit for urban wastewater discharge. The circulating water owned the highest concentration of Cl- and SO42-, above10000 mg/L, and 1100 mg/L, which is far higher than the limits. The detected heavy metals, Cl- and SO42- in runoff also exceed the limits for urban wastewater discharge. Locations for bottom ash processing and storage sites should be selected to control and prevent any leaching and runoff impacts.
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