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W2000815915 startingPage "10207" @default.
W2000815915 abstract "Understanding the cellular uptake mechanism and intracellular fate of nanocarriers in living cells is of great importance for the rational design of efficient drug delivery cargos as well as the development of robust biomedical diagnostic probes. In present study, with a dual wavelength view darkfield microscope (DWVD), the tempo-spatially resolved dynamics of Tat peptide-functionalized gold nanoparticles (TGNPs, with size similar to viruses) in living HeLa cells were extensively explored. It was found that energy-dependent endocytosis (both clathrin- and caveolae-mediated processes were involved) was the prevailing pathway for the cellular uptake of TGNPs. The time-correlated dynamic spatial distribution information revealed that TGNPs could not actively target the cell nuclei, which is contrary to previous observations based on fixed cell results. More importantly, the inheritance of TGNPs to the daughter cells through mitosis was found to be the major route to metabolize TGNPs by HeLa cells. These understandings on the cellular uptake mechanism and intracellular fate of nanocargos in living cells would provide deep insight on how to improve and controllably manipulate their translocation efficiency for targeted drug delivery." @default.
W2000815915 created "2016-06-24" @default.
W2000815915 creator A5039386793 @default.
W2000815915 creator A5069420044 @default.
W2000815915 creator A5088610731 @default.
W2000815915 date "2014-01-01" @default.
W2000815915 modified "2023-10-17" @default.
W2000815915 title "Tempo-spatially resolved cellular dynamics of human immunodeficiency virus transacting activator of transcription (Tat) peptide-modified nanocargos in living cells" @default.
W2000815915 cites W1965665097 @default.
W2000815915 cites W1967637067 @default.
W2000815915 cites W1967689127 @default.
W2000815915 cites W1973937088 @default.
W2000815915 cites W1974061482 @default.
W2000815915 cites W1984392445 @default.
W2000815915 cites W1984877105 @default.
W2000815915 cites W1996139192 @default.
W2000815915 cites W1999364829 @default.
W2000815915 cites W1999592249 @default.
W2000815915 cites W2001582257 @default.
W2000815915 cites W2003336829 @default.
W2000815915 cites W2009993736 @default.
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W2000815915 doi "https://doi.org/10.1039/c4nr02732a" @default.
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