Synthesis, Antiproliferative Activity and In Silico Studies of Chalcones Derived From 4-(Imidazole-1-yl)Acetophenone

In this study, the synthesis of chalcone compounds (1-11) derived from 4-(imidazol-1-yl)acetophenone and the structure determination of these compounds by various spectroscopic methods were carried out. The anticancer activities of compounds 1-11 were examined against HeLa and PC-3 cancer cells at four different concentrations (100, 50, 25, and 5 µM) using the BrdU ELISA assay. It was determined that all molecules except compounds 1 and 6 in HeLa cancer cells and compounds 2 and 8 against PC-3 cancer cells were more active against HeLa and PC-3 than the standard drug 5-fluorouracil (5-FU). The best activity against PC-3 cancer cells was compound 4 (IC50: 1.39±0.00 µM). In addition, compound 11 (IC50: 1.58±0.01 µM) was found to have the highest activity against HeLa cancer cells. Compound 4 against PC-3 cancer cell and compound 11 against HeLa cancer cell displayed cell selective activity. The ADME properties and drug similarities of the molecules 1-11 using the SwissADME software were investigated. According to these properties, compounds 1-11 were found to obey Lipinski rules

Cloud Computing Environments Which Can Be Used in Health Education

At the present time, it is known that cloud computing technologies began to be used widely in information technology. The purpose of this study is to provide information about cloud technologies that can be used in health education. For this purpose,firstly as sample of the learning content management system, Edmodo has been introduced. Hapyak Interactive Video Creation Platform which can be used for creating interactive video to enrich the learning environment that will be submitted with Edmodo, Bubbl.Us which can be benefited from summarizing the discussed and Socrative platforms which enable concept maps application and online test creation have been introduced

Diagnostic Performance of Late Gadolinium Enhancement Analysis of Cardiac Magnetic Resonance Imaging in Monitoring Acute Cardiac Allograft Rejection

29th Turkish Cardiology Congress of the Turkish-Society-of-Cardiology (TSC) with International Participation -- OCT 26-29, 2013 -- Antalya, TURKEYWOS: 000329858400176Turkish Soc Cardio

TAI (Turkish Aerospace Industries) tarihçesi ve önemi

Ankara : İhsan Doğramacı Bilkent Üniversitesi İktisadi, İdari ve Sosyal Bilimler Fakültesi, Tarih Bölümü, 2017.This work is a student project of the The Department of History, Faculty of Economics, Administrative and Social Sciences, İhsan Doğramacı Bilkent University.by Ünal, Melike

Photocatalytic degradation of cyanide in wastewater using new generated nano-thin film photocatalyst

This study investigates the possibility of using new generated potassium lanthanum titanates (K2La2Ti3O10, MLTO) photocatalyst thin films and CeO2 buffer layer produced using sal-gel method to remove cyanide from wastewater. DTA-TG, FTIR, XRD, XPS, SEM, AFM and profilometer analyses were performed to determine the thermal, structural and morphological characterization of the thin film photocatalysts, respectively. In order to provide the highest photocatalytic activity, new generated photocatalytic films with KLTO/CeO2 architecture were coated on Si (100) substrates and the cyanide degradation experiments were carried out. In this respect, initial concentration, pH of cyanide and light intensity were chosen as variables and their single and joint effects on removal of cyanide from wastewater were investigated. ATLAS Suntest CPS+ which simulates solar radiation was used as illumination source for the photocatalytic degradation of cyanide. ANOVA statistical test was carried out to understand the effectiveness of the variables. The degradation experiments were fitted to first order reaction law. The maximum degradation efficiency of cyanide was found to be 99.87% at pH of 10 and light intensity of 750 W/m(2) by using 100 mg/l cyanide initial concentration after 5 hour irradiation. (c) 2014 Elsevier B.V. All rights reserved

Effect of Blunging/Dispersion Parameters on Separation of Halloysite Nanotubes from Gangue Minerals

Clay minerals need to be dispersed with blungers before their utilization in the related industries due to their plastic properties, and size reduction is carried out in a wet medium. Clay minerals also contain impurities such as nonplastic materials in their structure. Mechanical dispersion parameters are important in the separation of clay group minerals (halloysite and kaolinite) from their typical non-clayey gangue minerals (quartz and goethite). In this study, the removal of impurities from halloysite ore obtained from Kizildam, Turkey, was examined in terms of mechanical dispersion parameters, namely, feed size, blunging time and speed, pulp concentration, pulp temperature, and the aging process. The effect of these parameters on halloysite dispersion was determined by particle size, chemical, and mineralogical analysis, and optical and scanning electron microscope images. The results obtained from the studies of the mechanical dispersing and particle size distribution of the products indicated that the optimum dispersion parameters were determined as -10 mm feed size, 8 h, and 1000 rpm blunging time, and speed, 35% pulp concentration at 25 degrees C pulp temperature. Under these optimum conditions, a 72.3% amount of -38 mu m clay product containing 35.6% of halloysite, 46.5% of kaolinite, 12.0% quartz, 1.9% goethite, 0.9% gibbsite, and 3.2% other minerals were obtained from the halloysite ore, having 30.5% of halloysite, 43.4% of kaolinite, 19.1% quartz, 2.9% goethite, 1.4% gibbsite, and 2.7% other minerals. In this study, it was understood that feed size, pulp concentration, blunging time, and speed were important parameters, while pulp temperature and the aging process had no significant effect on the mechanical dispersion of Kizildam halloysite. In addition, impurities such as quartz and iron-bearing minerals were separated from the ore by blunging and sieving