These reactions were carried out in a 96-microwell plate and the absorbance of the colored-product was measured by a microwell plate absorbance LDN-193189 reader
at 460 and 510 nm for NQS and OPC, respectively. The variables affecting the reactions were carefully investigated and the conditions were optimized. The stoichiometry of the reaction was determined, and the reactions pathways were postulated. The proposed reactions were found to be highly selective for CIP among many fluoroquinolone members. Under the optimum conditions, good linear relationships were obtained between the absorbances and the concentrations of CIP in the ranges of 25-200 and 40-450 mu g/mL with limits of detections of 3.66 and 8.79 mg/mL for
Nutlin-3a nmr the methods based on NQS and OPC, respectively. The robustness and ruggedness of the methods were satisfactory. The methods were successfully applied to the bulk drug and pharmaceutical dosage forms; the percentage recoveries were 98.0-101.5 (0.45 +/- 1.63%). The results were compared favorably with those obtained by a pre-validated reference method; no significant difference in accuracy and precision as revealed by the accepted values of t- and F-tests, respectively.”
“This work proposes the use of charged droplets driven by the Coulombic force as solution-phase reaction chambers for biological microreactions. A droplet can be charged near an electrode under dc voltage by direct contact to the electrode. This process is called electrical charging of droplet (ECOD). This charged droplet can then be transported rapidly between electrodes following the arc of an electric field line by exploiting electrostatic force. As on-demand electrocoalescence, both alkalization
of phenolphthalein and bioluminescence reaction of luciferase in the presence of adenosine triphosphate are studied to test the feasibility of the biochemical microreactors using ECOD. Two oppositely charged droplets are merged PCI-34051 cost to have a color change immediately after microchemical reaction. The applicability of an ECOD-driven droplet to measurement of glucose concentration is also tested. The glucose concentration is measured using a colorimetric enzyme-kinetic method based on Trinder’s reaction [J. Clin. Pathol. 22, 158 (1969)]. The color change in the merged droplet is detected with an absorbance measurement system consisting of a photodiode and a light emitting diode. (C) 2010 American Institute of Physics. [doi:10.1063/1.3427356]“
“Current techniques for the ecological risk assessment of chemical substances are often criticised for their lack of environmental realism, ecological relevance and methodological accuracy.