Kids expectations with regards to training the rough quantity method

In the current study, the production of novel glutaminase free l-asparaginase from a new microbial source (Pseudomonas resinovorans IGS-131) is reported. Optimization of l-asparaginase production using conventional and statistical optimization techniques resulted in an enzyme yield of 37.63 IU/mL, which was 3.45-fold higher than the initial enzyme activity (i.e., 10.91 IU/mL). l-Asparaginase production from P. resinovorans IGS-131 was successfully carried out at the bioreactor level and investigations on the effect of agitation rates showed a maximum asparaginase yield of 38.88 IU/mL after 24 h fermentation at 400 rpm. The l-asparaginase gene from this source, showing 78% identity with a reported sequence in GenBank, was expressed in Escherichia coli rosetta DE3. The molecular weight of the recombinant protein was determined as 35.6 kDa. Downstream processing of recombinant l-asparaginase resulted in a purified protein concentration of 62.53 mg/L, which showed good free radical scavenging activity of 62%. The current findings provide promising results for a process of l-asparaginase production from P. resinovorans IGS-131. Furthermore, the recombinant production of this enzyme could help in avoiding the complexity of down streaming processes associated with the purification of this enzyme from wild-type organisms. © King Abdulaziz City for Science and Technology 2020.Osteosarcoma (OS) is a rare aggressive bone, presenting low patient survival rate, high metastasis and relapse occurrence, mostly due to multi-drug resistant cells. To surpass that, the use of nanomedicine for the targeted delivery of genetic material, drugs or both have been extensively researched. In this review, we address the current situation of the disorder and some gene therapy options in the nanomedicine field that have been investigated. Among them, polymeric micelles (PM) are an advantageous therapeutic alternative highly explored for OS, as they allow for the targeted transportation of poorly water-soluble drugs to cancer cells. In addition, micelleplexes are PMs with cationic properties with promising features, such as the possibility for a dual therapy, which have made them an attractive research subject. The aim of this review article is to elucidate the application of a micelleplex formulation encapsulating the underexpressed miRNA145 to achieve an active targeting to OS cells and overcome multi-drug resistance, as a new and viable therapeutic strategy. © King Abdulaziz City for Science and Technology 2020.In this study, the exact contribution of T. versicolor fungal biomass and laccase in the removal of the Orange II dye from liquid culture was determined. Biomass and laccase were produced with three different carbon sources [bran flakes (BF), wheat bran (WB) and wheat flour (WF)]. The contribution of the biomass and the laccase enzyme in the removal of the Orange II dye was assessed as follows (A) in vivo treatment with fungal biomass; in vivo treatment with fungal biomass and inhibited laccase (using 0.6 mM sodium azide); and (B) in vitro treatment with crude laccase. The results of fungal biomass production were similar for all the carbon sources evaluated, while laccase volumetric activities were different. selleck compound The highest enzyme production was obtained with WB, followed by BF and WF. In the in vivo treatment with fungal biomass-laccase, dye removal was over 84% for all the carbon sources. Dye adsorption by fungal biomass varied from 1.5-2%, presenting enzymatic activities ranging from 62 to 163 U L-1. In the in vivo treatment with fungal biomass-inhibited laccase, the removal of the dye varied from 30 to 72%. In this case, the percentage of dye adsorption by fungal biomass was significantly increased and ranged from 18 to 53%. In the in vitro treatment with laccase, the removal ranged from 80 to 84%. The best treatment for dye removal involved the use of both fungal biomass and laccase. The carbon source for biomass and laccase production had an impact on dye removal. © King Abdulaziz City for Science and Technology 2020.2-acetyl-1-pyrroline (2AP) is a principal aroma compound in scented rice and a mutation in betaine aldehyde dehydrogenase 2 (OsBADH2) is responsible aroma in scented rice. The present study was aimed at inducing 2AP production in non-scented indica rice cultivar IR-64 by silencing OsBADH2 via RNAi technique. A vector pBSK was used for the construction of RNAi cassette and pRI101ON as a binary vector. Agrobacterium (GV3101)-mediated transformation was done using embryogenic calli of IR-64. The resultant transgenic lines showed up to 14-fold reduction in expression of OsBADH2 gene and 50% inhibition in enzyme activity. Gas chromatography (GC-MS) analyses showed a significant amount of 2AP production in RNAi callus, leaves, and seeds of IR-64. A total 39 volatile compounds were identified from the control and RNAi seeds of IR-64. Among them, octanal and 2-pentylfuron were found to be increased (30-40%) in RNAi seeds of IR-64. The content of precursors, proline, and methylglyoxal increased substantially, whereas GABA content reduced up to 25% in transgenic IR-64 lines. The study demonstrated that RNAi approach could be successfully used for imparting pleasant aroma character in non-scented indica rice cultivars. © King Abdulaziz City for Science and Technology 2020.Schinus terebinthifolia leaf lectin (SteLL) was reported to be an antimicrobial and antitumor agent. In this work, we evaluated the immunomodulatory activity of SteLL on mice splenocytes and also determined its native molecular mass and putative sequence similarities with plant proteins. The effects of SteLL (12.5 μg/mL) on viability, cytosolic Ca2+ concentration ([Ca2+]cyt), cytosolic and mitochondrial levels of reactive oxygen species (ROS), and mitochondrial transmembrane potential (ΔΨm) of mice splenocytes were determined. In addition, the culture supernatants were collected for quantification of interleukins (IL), tumor necrosis factor (TNF), interferon-gamma (IFN-γ) and nitric oxide (NO). SteLL showed a native molecular mass of 12.4 kDa and tandem mass spectrometry (MS/MS) ions search revealed similarities with adenosine triphosphate (ATP) synthase and F1-ATPase from plants (4% and 6% coverage, respectively). SteLL was not toxic to splenocytes, did not alter the [Ca2+]cyt and ROS levels, and slightly reduced ΔΨm.