A quantum dot-aptamer beacon using a DNA intercalating dye as the FRET reporter: application to label-free thrombin detection.
AuthorsChi CW, Lao YH, Li YS, Chen LC,
JournalBiosens Bioelectron
PubMed ID21306887
'A new quantum dot (QD)-aptamer (apt) beacon that acts by folding-induced dissociation of a DNA intercalating dye, BOBO-3(B), is demonstrated with label-free thrombin detection. The beacon, denoted as QD-apt:B, is constructed by (1) coupling of a single-stranded thrombin aptamer to Qdot 565 via EDC/Sulfo-NHS chemistry and (2) staining the duplex ... More
In vivo real-time, multicolor, quantum dot lymphatic imaging.
AuthorsKosaka N, Ogawa M, Sato N, Choyke PL, Kobayashi H,
JournalJ Invest Dermatol
PubMed ID19536144
'The lymphatic network is complex and difficult to visualize in real-time in vivo. Moreover, the direction of flow within lymphatic networks is often unpredictable especially in areas with well-developed ' ... More
Simultaneous multicolor imaging of five different lymphatic basins using quantum dots.
AuthorsKobayashi H, Hama Y, Koyama Y, Barrett T, Regino CA, Urano Y, Choyke PL
JournalNano Lett
PubMed ID17530812
Quantum dots can be used to perform multicolor images with high fluorescent intensity and are of a nanosize suitable for lymphatic imaging via direct interstitial injection. Here simultaneous multicolor in vivo wavelength-resolved spectral fluorescence lymphangiography is shown using five quantum dots with similar physical sizes but different emission spectra. This ... More
Variables influencing interactions of untargeted quantum dot nanoparticles with skin cells and identification of biochemical modulators.
AuthorsRyman-Rasmussen JP, Riviere JE, Monteiro-Riviere NA
JournalNano Lett
PubMed ID17408303
Skin cells (NHEK) take up untargeted quantum dots (QD) with surface polyethylene glycol (PEG), amines, and carboxylic acids, but the mechanisms are unknown. Time courses of QD-NHEK interactions were determined and effects of QD surface coating, temperature, culture medium supplements and inhibitors of the cell cycle and endocytosis identified. The ... More
In vivo skin penetration of quantum dot nanoparticles in the murine model: the effect of UVR.
Ultraviolet radiation (UVR) has widespread effects on the biology and integrity of the skin barrier. Research on the mechanisms that drive these changes, as well as their effect on skin barrier function, has been ongoing since the 1980s. However, no studies have examined the impact of UVR on nanoparticle skin ... More
Surface coatings determine cytotoxicity and irritation potential of quantum dot nanoparticles in epidermal keratinocytes.
AuthorsRyman-Rasmussen JP, Riviere JE, Monteiro-Riviere NA
JournalJ Invest Dermatol
PubMed ID16902417
Quantum dot (QD) nanoparticles have potential applications in nanomedicine as drug delivery vectors and diagnostic agents, but the skin toxicity and irritation potential of QDs are unknown. Human epidermal keratinocytes (HEKs) were used to assess if QDs with different surface coatings would cause differential effects on HEK cytotoxicity, proinflammatory cytokine ... More
Penetration of intact skin by quantum dots with diverse physicochemical properties.
AuthorsRyman-Rasmussen JP, Riviere JE, Monteiro-Riviere NA
JournalToxicol Sci
PubMed ID16443688
Skin is the largest organ of the body and is a potential route of exposure to engineered nanomaterials, but the permeability of the skin to these nanomaterials is unknown. We selected commercially available quantum dots (QD) of two core/shell sizes and shapes and three different surface coatings to determine if ... More