An environmentally benign, catalyst free, aqueous phase, microwave assisted method for the synthesis of biscoumarin derivatives using 4-hydroxycoumarin and different aldehydes is reported. The comparative investigation of the same synthetic methodology under conventional refluxing, domestic and scientific programmable microwave synthesizer has been attempted for the purpose of comparing the reaction performance in terms of % yield, reaction time, reproducibility and reaction control. In addition to the increased yields and attenuated reaction times for biscoumarin synthesis, the difficulty of reaction control and result reproducibility usually encountered with domestic microwave ovens have been addressed through an optimized synthetic methodology using microwave synthesizer. Screening bioactive compounds for their propensity towards inhibition of cancer metastasis is a must step in advancement of cancer chemotherapy. The synthesized biscoumarin scaffold was investigated for inhibitory metastatic activity against human lung carcinoma cell line, A549 through in vitro wound healing and invasion assays. The biscoumarin scaffold was found to possess an effective anti-proliferative activity. It was also found to be efficient in ablating the migration and invasiveness of these cells under in vitro conditions.
Natural attenuation mimics nature's own cleansing mechanism and offers an effective solution for contaminant treatment under prevalent environmental conditions without generating secondary toxins. Despite obvious advantages, these processes are restricted by a narrow range of reduction potential available within natural water systems. Complexation reaction offers to modulate the redox potential range of transition metals allowing detoxification of persistent contaminants. Consequently, present work describes complexation modulated redox potential of iron systems with environmentally available ligands for degradation of contaminants (textile dyes, antibiotics and toxic metal ions) for a possible application in water treatment under natural attenuation concept. The observed spectrophotometric results are indicative of a significant ligand effect on degradation kinetics of studied contaminants by iron(II) complexes. The kinetic efficacies of iron(II) complexes for contaminant degradation were in the order: aqua
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