Luping Qian scite author profile

We developed a method in preparing size-controllable gold nanoparticles (Au NPs, 2-6 nm) capped with glutathione by varying the pH (between 5.5 and 8.0) of the solution before reduction. This method is based on the formation of polymeric nanoparticle precursors, Au(I)-glutathione polymers, which change size and density depending on the pH. Dynamic light scattering, size exclusion chromatography, and UV-vis spectroscopy results suggest that lower pH values favor larger and denser polymeric precursors and higher pH values favor smaller and less dense precursors. Consequently, the larger precursors led to the formation of larger Au NPs, whereas smaller precursors led to the formation of smaller Au NPs. Using this strategy, Au NPs functionalized with nickel(II) nitriloacetate (Ni-NTA) group were prepared by a mixed-ligand approach. These Ni-NTA functionalized Au NPs exhibited specific binding to 6x-histidine-tagged Adenovirus serotype 12 knob proteins, demonstrating their utility in biomolecular labeling applications.

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The Outer Membrane Usher Forms a Twin-pore Secretion Complex

Qian

Chen

et al. 2004

Journal of Molecular Biology

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Infrared-Transparent Gold Nanoparticles Converted by Tumors to Infrared Absorbers Cure Tumors in Mice by Photothermal Therapy

et al. 2014

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Gold nanoparticles (AuNPs) absorb light and can be used to heat and ablate tumors. The “tissue window” at ∼800 nm (near infrared, NIR) is optimal for best tissue penetration of light. Previously, large, 50–150 nm, gold nanoshells and nanorods that absorb well in the NIR have been used. Small AuNPs that may penetrate tumors better unfortunately barely absorb at 800 nm. We show that small AuNPs conjugated to anti-tumor antibodies are taken up by tumor cells that catalytically aggregate them (by enzyme degradation of antibodies and pH effects), shifting their absorption into the NIR region, thus amplifying their photonic absorption. The AuNPs are NIR transparent until they accumulate in tumor cells, thus reducing background heating in blood and non-targeted cells, increasing specificity, in contrast to constructs that are always NIR-absorptive. Treatment of human squamous cell carcinoma A431 which overexpresses epidermal growth factor receptor (EGFr) in subcutaneous murine xenografts with anti-EGFr antibodies conjugated to 15 nm AuNPs and NIR resulted in complete tumor ablation in most cases with virtually no normal tissue damage. The use of targeted small AuNPs therefore provides a potent new method of selective NIR tumor therapy.

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Assembly of Nanoparticle–Protein Binding Complexes: From Monomers to Ordered Arrays

Qian

Briñas

et al. 2007

Angew Chem Int Ed

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Assembly of Nanoparticle–Protein Binding Complexes: From Monomers to Ordered Arrays

Qian

Briñas

et al. 2007

Angewandte Chemie

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Gut definierte Monomere, Dimere, Trimere, dreidimensionale kugelförmige Schalen und zweidimensionale geordnete Anordnungen gentechnisch erzeugter Proteine wurden mithilfe funktionalisierter Goldnanopartikel hergestellt. Größe und Funktionalität der Nanopartikel sowie das Proteinmotiv tragen zur einzigartigen Geometrie und Orientierung, zur genauen stöchiometrischen Zusammensetzung und zur hohen Spezifität dieser Nanopartikel‐Protein‐Hybridstrukturen bei.

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Luping Qian

Gold Nanoparticle Size Controlled by Polymeric Au(I) Thiolate Precursor Size

The Outer Membrane Usher Forms a Twin-pore Secretion Complex

Infrared-Transparent Gold Nanoparticles Converted by Tumors to Infrared Absorbers Cure Tumors in Mice by Photothermal Therapy

Assembly of Nanoparticle–Protein Binding Complexes: From Monomers to Ordered Arrays

Assembly of Nanoparticle–Protein Binding Complexes: From Monomers to Ordered Arrays

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