Nanoparticle (CdS) interaction with host (Sesamum indicum L.) – its localization, transportation, stress induction and genotoxicity
D Das, AK Datta, DV Kumbhakar, B Ghosh… - Journal of Plant …, 2018 - Taylor & Francis
The present study highlights the nanoimpact of cadmium sulfide quantum dots on a plant
system (Sesamum indicum L.) encompassing uptake of nanoparticles (NPs), subsequent
translocation following root to leaf transportation pathway using both water-and food-
conducting elements and deposition in nucleus and cytoplasm with no preferential
subcellular localization. Nanocrystal agglomeration, mucilaginous sheathing and
vesicularization studied are the host toxicity minimization attempt. Cellular stress due to NPs …
system (Sesamum indicum L.) encompassing uptake of nanoparticles (NPs), subsequent
translocation following root to leaf transportation pathway using both water-and food-
conducting elements and deposition in nucleus and cytoplasm with no preferential
subcellular localization. Nanocrystal agglomeration, mucilaginous sheathing and
vesicularization studied are the host toxicity minimization attempt. Cellular stress due to NPs …
Nanoparticle (CdS) interaction with host (Sesamum indicum L.) - its localization, transportation, stress induction and genotoxicity.
DD Debadrito Das, AK Datta, DV Kumbhakar… - 2018 - cabidigitallibrary.org
The present study highlights the nanoimpact of cadmium sulfide quantum dots on a plant
system (Sesamum indicum L.) encompassing uptake of nanoparticles (NPs), subsequent
translocation following root to leaf transportation pathway using both water-and food-
conducting elements and deposition in nucleus and cytoplasm with no preferential
subcellular localization. Nanocrystal agglomeration, mucilaginous sheathing and
vesicularization studied are the host toxicity minimization attempt. Cellular stress due to NPs …
system (Sesamum indicum L.) encompassing uptake of nanoparticles (NPs), subsequent
translocation following root to leaf transportation pathway using both water-and food-
conducting elements and deposition in nucleus and cytoplasm with no preferential
subcellular localization. Nanocrystal agglomeration, mucilaginous sheathing and
vesicularization studied are the host toxicity minimization attempt. Cellular stress due to NPs …
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