Hoa T. Hoang scite author profile

Hoa T. Hoang

5Publications

8Citation Statements Received

75Citation Statements Given

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115

Affiliations

University of Potsdam, Korea Institute of Science and Technology

Publications

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Antibody Binding at the Liposome–Water Interface: A FRET Investigation toward a Liposome-Based Assay

et al. 2018

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Different signal amplification strategies to improve the detection sensitivity of immunoassays have been applied which utilize enzymatic reactions, nanomaterials, or liposomes. The latter are very attractive materials for signal amplification because liposomes can be loaded with a large amount of signaling molecules, leading to a high sensitivity. In addition, liposomes can be used as a cell-like “bioscaffold” to directly test recognition schemes aiming at cell-related processes. This study demonstrates an easy and fast approach to link the novel hydrophobic optical probe based on [1,3]dioxolo[4,5- f ]-[1,3]benzodioxole (DBD dye mm239) with tunable optical properties to hydrophilic recognition elements (e.g., antibodies) using liposomes for signal amplification and as carrier of the hydrophobic dye. The fluorescence properties of mm239 (e.g., long fluorescence lifetime, large Stokes shift, high photostability, and high quantum yield), its high hydrophobicity for efficient anchoring in liposomes, and a maleimide bioreactive group were applied in a unique combination to build a concept for the coupling of antibodies or other protein markers to liposomes (coupling to membranes can be envisaged). The concept further allowed us to avoid multiple dye labeling of the antibody. Here, anti-TAMRA-antibody (DC7-Ab) was attached to the liposomes. In proof-of-concept, steady-state as well as time-resolved fluorescence measurements (e.g., fluorescence depolarization) in combination with single molecule detection (fluorescence correlation spectroscopy, FCS) were used to analyze the binding interaction between DC7-Ab and liposomes as well as the binding of the antigen rhodamine 6G (R6G) to the antibody. Here, the Förster resonance energy transfer (FRET) between mm239 and R6G was monitored. In addition to ensemble FRET data, single-molecule FRET (PIE-FRET) experiments using pulsed interleaved excitation were used to characterize in detail the binding on a single-molecule level to avoid averaging out effects.

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An immunoassay utilizing the DNA-coated polydiacetylene micelles as a signal generator

Hoang

Lee

Kim

et al. 2013

Bioorganic & Medicinal Chemistry Letters

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Photophysics of “Floppy” Dyads as Potential Biomembrane Probes

2018

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In the study a dyad (C6 probe), constructed of two dyes with highly different hydrophobicities, was investigated by steady-state and time-resolved spectroscopic techniques in chloroform, methanol, and in phospholipid vesicles, respectively. The dyad was built on two dyes: the lipophilic benzo[a]pyrene (BaP) and the hydrophilic sulforhodamine B (SRB). The dyes were linked via a short, but flexible alkyl chain (six C-atoms). Based on their spectroscopic properties, BaP and SRB showed a very efficient non-radiative resonance energy transfer in solution. Incorporation into a lipid bilayer limited the relative flexibility (degree of freedom) between donor and acceptor and was used for the investigation of fundamental photophysical aspects (especially of FRET) as well as to elucidate the potential of the dyad to probe the interface of vesicles (or cells). The location of the two dyes in vesicles and their respective accessibility for interactions with dye-specific antibodies was investigated. Based on the alteration of the anisotropy, on the rotational correlation time as well as on the diffusion coefficient the incorporation of the C6 probe into the vesicles was evaluated. Especially the limitation in the relative movements of the two dyes was considered and used to differentiate between potential parameters, that influence the energy transfer in the dyad. Transient absorption spectroscopy (TAS) and pulsed-interleave single molecule fluorescence experiments were performed to better understand the intramolecular interactions in the dyad. Finally, in a showcase for a biosensing application of the dyads, the binding of an SRB-specific antibody was investigated when the dyad was incorporated in vesicles. Graphical Abstract.

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Preparation of bio - adhesive hydrogel based on chitosan for wound sealant

Pham¹,

Hoang²,

Dang³

et al. 2015

Sci. Tech. Dev. J.

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In this study, we introduce a new kind of hydrogel based on oxidized chitosan for tissue adhesion. The hydrogel formed rapidly in a few seconds in the presence of horseradish peroxidase (HRP) and hydrogen peroxide (H2O2). The in vitro cytocompatible experiment with fibroblast cell using kit live/dead assay showed that the hydrogel was highly biocompatible. Evaluation of tissue adhesion performed on pork skin the maximum tissue adhesive forces are 88 kPa for chitosan hydrogel and 105 kPa for oxidized chitosan hydrogel.. These results suggest that chitosan hydrogel possessed the wound healing ability and promises a tissue adhesive devices for biomedical applications.

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An Immunoassay Utilizing DNA-Coated Cage Protein As a Signal Generator

Hoang

Lê

Lee

et al. 2014

Bulletin of the Korean Chemical Society

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Hoa T. Hoang

Antibody Binding at the Liposome–Water Interface: A FRET Investigation toward a Liposome-Based Assay

An immunoassay utilizing the DNA-coated polydiacetylene micelles as a signal generator

Photophysics of “Floppy” Dyads as Potential Biomembrane Probes

Preparation of bio - adhesive hydrogel based on chitosan for wound sealant

An Immunoassay Utilizing DNA-Coated Cage Protein As a Signal Generator

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