ABSTRACT
A series of chalcones 3–5, 1H-pyrazolines 6–8, N-phenylpyrazolines 9–11, and N-acetylpyrazolines 12–14incorporating benzofuran and pyrazole moieties were synthesized and screened for their in vitro antimicrobial activityagainst some of pathogenic microorganisms. Among the screened compounds, 7 and 13 showed the most promisingantibacterial activity against Escherichia coli (G-). Compound 11 displayed broad spectrum antibacterial activityagainst Bacillus subtilis (G+). Moreover, compounds 10 and 4 were found to be the most potent antifungal agentagainst Candida albicans and Aspergillus niger, respectively. Also, the molecular properties prediction and druglikeness model score (DLS) of all the synthesized compounds were calculated by SwissADME and MolSoft websites,respectively. The two compounds 7 and 13 were found to be maximum DLS of 0.75 and 0.83, respectively.
ABSTRACT
Chronic wounds such as decubitus ulcer remain challenging due to their integrated and overlapping phases. The matrix metalloproteinases (MMPs) enzymes, whose main function is to degrade all kinds of extracellular matrix (ECM) proteins, aid cellular migration and extracellular remodeling. MMPs, in the wound bed, allow the lysis of the dead tissues, by which the macrophages task becomes easier to digest the dead cells. MMPs activities should be monitored and inhibited as the healing process proceeds. If MMPs are not inhibited in time, they will break down tissue to attack the ECM itself creating chronic wounds. In the current work, conjugated linoleic acid (CLA) and ricinoleic acid (RA) are extracted from commercial oils as MMPs inhibitors. A pharmaceutical carrier is formulated containing chitosan fine particles, impregnated silver nanoparticles into microcrystalline cellulose, CLA and RA. Carrier and the active ingredients were prepared and characterized by spectral and morphological analysis. The final formulation was examined for antimicrobial, cytotoxicity, and in-vivo wound healing activity. Results showed a strong inhibitory activity against the tested pathogenic microorganisms for the silver contacting samples. The rates of wound closures during wound healing in diabetic male-rats of formulas containing ricinoleic acid was faster than that containing conjugated linoleic acid.
ABSTRACT
This study discusses isolation and identification new fungal isolate from salinity soil for controlling soil borne diseases. Among sixteen fungal, a potent isolate coded SRBP_ZSHSG1 was isolated from Sugar beet rhizospher samples collected from Al-Hosainia localities-El-Sharkia-Egypt. Traditional methods consistent with phylogenetic analysis of 18S rRNA sequences showed SRBP_ZSHSG1 has 100% similarity with Trichoderma strains and the most closest is Trichoderma asperellum. Thus, it proposed name Trichoderma asperellum SRBP_ZSHSG1 (ID: KP336489). Results proved SRBP_ZSHSG1 followed by T. roseum and Chaetomium globosum were highly inhibitors to the tested pathogens. These results were confirmed by field experiments. SRBP_ZSHSG1 was able to grow on rice straw (biostraw) and produce most active compounds. The biostaw extract was the most effective bioagent and recorded highest reduction in pathogen numbers. GC/MS analysis of ethyl acetate extract revealed the presence of 9 compounds. These compounds were determined 4 volatile alcohols (1-4) and fatty acid esters (5-9).
ABSTRACT
This study aim to isolate, identify a bacterial isolate and optimize production medium using frying oil waste for lipase production. Nine strains were isolated from an Egyptian soil samples. Among the isolates, a potent bacterial candidate ASSCRC-P1 was found to be the most potent lipase producer strain at 60 °C. Genotypic identification of ASSCRC-P1 showed 94% similarity with Bacillus sp. strains. Phylogenetic tree confirmed that ASSCRC-P1 was nearly similar to Bacillus cereus. Therefore, it was given the name Bacillus cereus ASSCRC-P1 and its 16S rRNA nucleotide has been deposited in the GenBank Data Library under the accession number: KJ531440. A sequential optimization strategy, based on statistical experimental designs, was employed to enhance the lipase production by this strain. A 2-level Plackett–Burman design was applied to differentiate between the bioprocess parameters that significantly influence lipase production followed by Box-Behnken design to optimize the amounts of variables which have the highest positive significant effect on lipase production. Overall more than 2.15-fold improvement in lipase production was achieved due to optimization compared to that obtained using the basal medium.
ABSTRACT
An alkaline protease was purified from a halophilic and thermotolerant potent alkaline protease-producing strain Streptomyces pseudogrisiolus NRC-15 using ammonium sulphate precipitation and Sephadex G-100 column chromatography. The enzyme was purified to 77.24-folds with a yield of 91.8% and the specific activity was 112 U/mg of protein. The protease showed a single band on SDS-PAGE with its molecular mass at 20 kDa and exhibited a maximum relative activity of 100% using casein as a substrate and. The enzyme had an optimum pH of 9.5 and displayed optimum activity at 50°C. The enzyme activity was completely inhibited by the serine protease inhibitor PMSF, suggesting the presence of serine residue in the active site. The enzyme activity was increased by the metal ions Ca2+, Co2+, K+ and Mg2+. The enzyme significantly enhanced the removal of stains when used with wheel detergent, indicating the potential of the enzyme for using as a laundry detergent additive to improve the performance of heavy-duty laundry detergent.