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This work is a small effort in the production of an eco-friendly natural based antibacterial and anti-inflammatory finished cotton fabrics using the ethanolic extracts (Ex) of the sea grass Halophila stipulacea (H. stipulacea) and marine macroalgae [Colbomenia sinuosa (C. sinuosa) and Ulva fasciata (U. fasciata)]. The extracts were phytochemically screened for their constituents. These extracts were used to finish cotton fabrics by a variety of methods. Concerning this, fabrics (F) were singly treated with ethanolic extracts (ExF) of these marine organisms by the dip technique and the extract encapsulated with sodium alginate or meypro gum. The encapsulated fabric (EnF) was further finished individually with citric acid (CA), (EnF/CA) and mono-tert-butyl ether of glycerol (MTBG) binder (EnF/Bin) by the pad-dry-cure technique. The fabrics so-finished were evaluated for their antibacterial and anti-inflammatory activities without washing (control) and after different washing cycles. The results obtained showed that, both EnF/CA and EnF/Bin inhibit the bacterial growth by about 90% after 10 washing cycles for both Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus). The anti-inflammatory activity, the potency% reached to 88.3% for the fabric encapsulated with microcapsules of sodium alginate/H. stipulacea sea grass and the EnF/CA.

Introduction: Stomach ulcer is one of the most prevalent disorders worldwide. The study was aimed to isolate and characterize the major polymethoxylated flavonoids in Citrus sinensis peels petroleum ether extract and investigate its protective and curative effect on gastric ulcer.Material and methods: Some spectral analyses were used for identification of the isolated compounds from the petroleum ether extract of Citrus sinensis peels. One oral dose (0.5 ml/100 g b.wt.) of absolute ethanol was orally given to rats after starvation for 24 h to induce gastric ulcer. To explore the protective and curative role of the plant extract, it was orally (250 mg/kg b.wt.) given for 1 week either before or post-ulcer induction. A reference drug, ranitidine (100 mg/kg b.wt.), was also evaluated. Stomach acidity, gastric volume, lesion counts, glutathione (GSH), superoxide dismutase (SOD), malondialdehyde (MDA), succinate dehydrogenase (SDH), lactate dehydrogenase (LDH), acid phosphatase (AP), interlukin-10 (IL-10) and prostaglandin E2 (PGE2) were estimated. Stomach histopathological features were monitored.Results: Nine polymethoxy flavonoids were identified from the extract. Treatment with C. sinensis peels extract recorded amelioration in all parameters.Conclusion: Citrus sinensis petroleum ether peels extract had protective and curative effects against gastric ulcer. Therefore, the extract recorded anti-secretory, anti-ulcerative, anti-inflammatory, and antioxidant effects. Its healing action exceeded its protective role due to its richness in polymethoxylated flavonoids.

The freshwater environment suffers from a combination of stressors; pollution and global warming. Multiple effects of copper sulfate, cadmium chloride, and lead nitrate Pb were studied on Nile tilapia under three temperatures ranges, compared to bioremediation using effective microorganisms (EMs). The fish were divided into eight groups, with each group exposed to three temperatures (24, 28, and 32°C). Water physicochemical parameters were measured, and fish hematological, physiological, and biochemical changes were considered. Water quality parameters revealed a significant increase in both electrical conductivity and total dissolved solids in the EM/Cu fish group in the Cu fish group at 32°C. The chemical oxygen demand levels indicated a remarkable fluctuation with a slight decrease in the control group (at 28°C) while reduced in the control and EM. The results were highly significant incomplete blood cells, total red blood cell count, hemoglobin concentration (Hb), hematocrit, mean corpuscular Hb, mean corpuscular Hb concentration, and total protein (g/dl) in the EM group and control group. It can be concluded that using EM in fish farms (1:1000) could help fish adapt to different temperatures and reduce the effects of toxic pollutants.

The hepatoprotective activity of the ethanol extract of Astragalus kahiricus (Fabaceae) roots against ethanol-induced liver apoptosis was evaluated and it showed very promising hepatoprotective actions through different mechanisms. The extract counteracted the ethanol-induced liver enzymes leakage and glutathione depletion. In addition, it demonstrated anti-apoptotic effects against caspase-3 activation and DNA fragmentation that were confirmed by liver histopathological examination. Moreover, the phytochemical study of this extract led to the isolation of four cycloartane-type triterpenes identified as astrasieversianin II (1), astramembrannin II (2), astrasieversianin XIV (3), and cycloastragenol (4). The structures of these isolates were established by HRESI-MS and 1D and 2D NMR experiments. The antimicrobial, antimalarial, and cytotoxic activities of the isolates were further evaluated, but none of them showed any activity.

Microbial fuel cells (MFCs) have significant interest in the research community due to their ability to generate electricity from biodegradable organic matters. Anode materials and their morphological structures play a crucial role in the formation of electroactive biofilms that enable the direct electron transfer. In this work, modified electrodes with nanomaterials, such as multiwalled carbon nanotubes (MWCNTs), reduced graphene oxide (rGO), Al2O3/rGO or MnO2/MWCNTs nanocomposites were synthesized, characterized and utilized to support the growth of electrochemically active biofilms. The MFC's performance is optimized using anode-respiring strains isolated from biofilm-anode surface, while the adjusted operation is conducted with the consortium of (Enterobacter sp.). Besides the formation of matured biofilm on its surface, MnO2/MWCNTs nanocomposite produced the highest electrical potential outputs (710 mV) combined with the highest power density (372 mW/m2). Thus, a correlation between the anode nanostructured materials and the progression of the electrochemically active biofilms formation is presented, allowing new thoughts for enhancing the MFC's performance for potential applications ranging from wastewater treatment to power sources.

The objective of this study was to enhance the production of cyclodextrin glucanotransferase (CGTase) produced by a local isolate Bacillus cereus NRC7.In batch culture, maximal CGTase activity (69·0 U ml(-1)) was reached after 24-h incubation period. In continuous production of CGTase by the free cells of B. cereus NRC7, maximal reactor productivity (11·76 KU l(-1) h(-1)), with enzyme concentration of 49·0 U ml(-1) and specific productivity of 904·6 U per g wet cells per h, was attained at dilution rate of 0·24 h(-1), over a period of 640 h. Bacillus cereus NRC7 cells were immobilized on chitosan. The immobilization conditions with respect to matrix concentration and maximal cell loading were optimized for maximal CGTase production. In repeated batch operation, the activity of the immobilized cells was stable during ten cycles and the activity remained between 51 and 55 U ml(-1). In packed-bed reactor, the immobilized cells showed maximal productivity (27·18 KU l(-1) h(-1)) with enzyme concentration of 54·63 U ml(-1) and specific productivity of 151·89 U per g wet cells per h at dilution rate of 0·5 h(-1). The half-life of the immobilized cells was higher than 20 days.Continuous fermentation by the immobilized cells in packed-bed reactor is an appropriate potential technique for B. cereus NRC7 CGTase production that gave maximum productivity (27·18 KU l(-1) h(-1)), which was 9·47-, 2·31-, 12·24- and 12·94-fold higher than the free cells in batch, free cells in continuous, immobilized cells in batch and repeated batch cultures, respectively.This is the first study that evaluates CGTase productivity, in different fermentation modes, in terms of specific productivity (U per gram cells per h). In continuous fermentation by immobilized cells, maximal levels of CGTase productivity are higher than the previously reported values.

AbstractEight Aspergillus strains were found to be successful in removing textile dyes from liquid media. These fungal strains were grown on medium containing: gelatine wastes and sucrose, as sources of nitrogen and carbon to test the possible speed up of the dyes removing while fungus biomass is building up in the media. The growth of fungal strains ranged from 10 to 110 mg biomass dry weight/100 ml medium. This growth induced high decolorization percentages, which ranged 33–95% within eight days. Two textile dyes Direct brown and Polar red were included in the study. The growth of the fungal strains as well as decolorization percentage of the dyes increased after 5, 6, and 8 days from incubation time with most tested strains. With Direct brown dye the strains number 2, 5, 31 and 37 recorded the highest percentage of decolorization (91, 92, 93 and 95 respectively) after incubation for 6 days. Fungal strains Aspergillus 5 and 31 gave the highest mycelium dry weight being 110 mg. Most of fungal strains induced 86 to 95 percentage of decolorization after 6 days incubation with Polar red dye. The possible toxicity of the remaining supernatant media after fungal biomass removal was tested by Ames test to assess the residual mutagenic agents remaining after dye removal, using three strains of Salmonella typhimurium (TA 1535, TA 1537, TA 1538). The results showed that the toxicity of the dyes, measured by Ames test could be removed by the dye absorption on the fungal biomass.

Dihydropyrimidinone derivatives containing piperidine moiety were synthesised in a good yield. All the compounds were confirmed by elemental analysis and spectral data. Anti-ulcer activity of novel dihydropyrimidinone-piperidine hybrids (1-18) was evaluated. Among them, four compounds (3, 8, 11 and 15) were found to be most active in 80% ethanol-induced ulcer experimental animal model. All the potent compounds were further evaluated for anti-ulcer activity by different in vivo anti-ulcer models to study the effect of compounds on anti-secretory and cytoprotective activities. All the active compounds inhibited the formation of gastric ulcers and increased the formation of gastric mucin secretion. Compound 15 was found to be the most potent compound of the series as anti-ulcer agent. Additional experimental studies on lead compound 15 will result in a new class of orally active molecule for anti-ulcer activity.