Priyanka S. Padole scite author profile

Over 5 days, Brassica juncea removed 54% of the highly toxic insecticide phorate from the medium with the formation of phorate sulfoxide in small quantity. The loss of phorate from the medium followed first-order kinetics. The half-life of phorate disappearance from water decreased by~4.5-fold in the presence of B. juncea. Mild phorate phytotoxicity was evident from the elevated activities of the antioxidative enzymes like glutathione-disulfide reductase, glutathione S-transferase, superoxide dismutase, and catalase in the plants. Nevertheless, the ubiquitous antioxidative peroxidase was not significantly increased, nor the total glutathione content, due to phorate exposure. Phosphotriester bond hydrolysis and glutathione S-transferase-mediated conjugation seemed to be the key reactions for phorate metabolism by B. juncea. From the limited information available, for the first time, a tentative mapping of phytotransformation pathways was performed.

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Visible light induced photoreduction of water by N-doped mesoporous titania

Joshi¹,

Mangrulkar²,

Tijare³

et al. 2012

International Journal of Hydrogen Energy

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Priyanka S. Padole

Photocatalytic hydrogen generation through water splitting on nano-crystalline LaFeO3 perovskite

Phytotransformation of Phorate by Brassica juncea (Indian Mustard)

Visible light induced photoreduction of water by N-doped mesoporous titania

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