Literature DB >> 16178255

Photoactivation of quantum dot fluorescence following endocytosis.

Jonathan Silver1, Wu Ou.   

Abstract

We studied the fluorescence of quantum dots in cells. Coating quantum dots with cationic peptides caused them to be endocytosed and transported to lysosomes. After overnight incubation, their fluorescence apparently dimmed but became markedly "photoactivatable", increasing more than 3-fold within minutes on exposure to bright light, and decaying over hours in the dark. Photoactivation was greater in the presence of water than ethanol, and UV illumination compensated for lack of water during photoactivation. Dimming and photoactivation could affect the use of quantum dots as quantitative probes in vivo and lead to new uses, such as tracking molecular movement.

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Year:  2005        PMID: 16178255     DOI: 10.1021/nl050808n

Source DB:  PubMed          Journal:  Nano Lett        ISSN: 1530-6984            Impact factor:   11.189


  11 in total

1.  Single-step multicolor fluorescence in situ hybridization using semiconductor quantum dot-DNA conjugates.

Authors:  Laurent A Bentolila; Shimon Weiss
Journal:  Cell Biochem Biophys       Date:  2006       Impact factor: 2.194

2.  Self-assembled quantum dot-peptide bioconjugates for selective intracellular delivery.

Authors:  James B Delehanty; Igor L Medintz; Thomas Pons; Florence M Brunel; Philip E Dawson; Hedi Mattoussi
Journal:  Bioconjug Chem       Date:  2006 Jul-Aug       Impact factor: 4.774

3.  Dual imaging and photoactivated nanoprobe for controlled cell tracking.

Authors:  Sarit S Agasti; Rainer H Kohler; Monty Liong; Vanessa M Peterson; Hakho Lee; Ralph Weissleder
Journal:  Small       Date:  2012-09-21       Impact factor: 13.281

Review 4.  Designing multifunctional quantum dots for bioimaging, detection, and drug delivery.

Authors:  Pavel Zrazhevskiy; Mark Sena; Xiaohu Gao
Journal:  Chem Soc Rev       Date:  2010-08-09       Impact factor: 54.564

5.  Subcellular Localization of Thiol-Capped CdTe Quantum Dots in Living Cells.

Authors:  Yu Zhang; Lan Mi; Rongling Xiong; Pei-Nan Wang; Ji-Yao Chen; Wuli Yang; Changchun Wang; Qian Peng
Journal:  Nanoscale Res Lett       Date:  2009-04-05       Impact factor: 4.703

6.  Cancer-cell-phenotype-dependent differential intracellular trafficking of unconjugated quantum dots.

Authors:  Sutapa Barua; Kaushal Rege
Journal:  Small       Date:  2009-03       Impact factor: 13.281

Review 7.  Quantum dots and nanoparticles for photodynamic and radiation therapies of cancer.

Authors:  Petras Juzenas; Wei Chen; Ya-Ping Sun; Manuel Alvaro Neto Coelho; Roman Generalov; Natalia Generalova; Ingeborg Lie Christensen
Journal:  Adv Drug Deliv Rev       Date:  2008-09-20       Impact factor: 15.470

8.  Action of polystyrene nanoparticles of different sizes on lysosomal function and integrity.

Authors:  Eleonore Fröhlich; Claudia Meindl; Eva Roblegg; Birgit Ebner; Markus Absenger; Thomas R Pieber
Journal:  Part Fibre Toxicol       Date:  2012-07-12       Impact factor: 9.400

9.  Entrapment in phospholipid vesicles quenches photoactivity of quantum dots.

Authors:  Roman Generalov; Simona Kavaliauskiene; Sara Westrøm; Wei Chen; Solveig Kristensen; Petras Juzenas
Journal:  Int J Nanomedicine       Date:  2011-09-07

10.  An In Vitro Study of the Photodynamic Effectiveness of GO-Ag Nanocomposites against Human Breast Cancer Cells.

Authors:  Fozia Shaheen; Muhammad Hammad Aziz; Muhammad Fakhar-E-Alam; Muhammad Atif; Mahvish Fatima; Riaz Ahmad; Atif Hanif; Saqib Anwar; Fatima Zafar; Ghazanfar Abbas; Syed Mansoor Ali; Mukhtar Ahmed
Journal:  Nanomaterials (Basel)       Date:  2017-11-21       Impact factor: 5.076
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