The Son Le scite author profile

The Son Le

5Publications

24Citation Statements Received

277Citation Statements Given

How they've been cited

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382

267

Affiliations

Le Quy Don Technical University, Japan Advanced Institute of Science and Technology

Publications

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Quick and Mild Isolation of Intact Lysosomes Using Magnetic–Plasmonic Hybrid Nanoparticles

Takahashi

Isozumi

et al. 2022

ACS Nano

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Rapid and efficient isolation of intact lysosomes is necessary to study their functions and metabolites by proteomic analysis. We developed a swift and robust nanoparticle-based magnetic separation method in which magnetic− plasmonic hybrid nanoparticles (MPNPs) conjugated with amino dextran (aDxt) were targeted to the lumen of lysosomes via the endocytosis pathway. For well-directed magnetic separation of the lysosomes, it is important to trace the intracellular trafficking of the aDxt-conjugated MPNPs (aDxt-MPNPs) in the endocytosis pathway. Therefore, we analyzed the intracellular transport process of the aDxt-MPNPs by investigating the time-dependent colocalization of plasmonic scattering of aDxt-MPNPs and immunostained marker proteins of organelles using the threshold Manders' colocalization coefficient (R t ). Detailed analysis of time variations of R t for early and late endosomes and lysosomes allowed us to derive the transport kinetics of aDxt-MPNPs in a cell. After confirming the incubation time required for sufficient accumulation of aDxt-MPNPs in lysosomes, the lysosomes were magnetically isolated as intact as possible. By varying the elapsed time from homogenization to complete isolation of lysosomes (t delay ) and temperature (T), the influences of t delay and T on the protein composition of the lysosomes were investigated by polyacrylamide gel electrophoresis and amino acid analysis. We found that the intactness of lysosomes could become impaired quite quickly, and to isolate lysosomes as intact as possible with high purity, t delay = 30 min and T = 4 °C were optimal settings.

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Enhancing the Sensitivity of Lateral Flow Immunoassay by Magnetic Enrichment Using Multifunctional Nanocomposite Probes

Takahashi

et al. 2021

Langmuir

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For lateral flow immunoassay (LFIA), it is an important challenge to enhance the detection sensitivity to the same level as polymerase chain reaction or enzyme-linked immunosorbent assay to make LFIA pervasive in the field of on-site environmental analysis. We recently demonstrated that the LFIA sensitivity is dramatically enhanced by using Pt-nanoparticle−latex nanocomposite beads (Pt-P2VPs) as probes for the detection of the influenza A (H1N1) antigen compared with using conventional Au colloids as probes. Here, to further enhance the LFIA sensitivity using Pt-P2VPs, superparamagnetic iron oxide nanoparticles (SPIONs) were chemically conjugated to Pt-P2VPs (Pt-P2VP@SPION) to give them magnetic separation capability (enrichment and/or purification). To investigate the effect of magnetic enrichment on the LFIA sensitivity in a sandwich format, the C-reactive protein (CRP) was chosen as a model analyte and anti-CRP antibody (CRPAb)-conjugated Pt-P2VP@SPION (Pt-P2VP@SPION-CRPAb) beads were used as probes. The visual limit of detection (LOD) of LFIA was successfully lowered by increasing the magnetic enrichment factor φ. The minimum LOD under the present experimental conditions was 0.08 ng/mL for φ = 40, which is 26-fold lower than that of the standard Au-nanoparticle-based LFIA. In theory, the LOD can be unlimitedly decreased by just increasing φ. However, the times required for both the antigen−antibody binding reaction and magnetic separation dramatically increase with φ. We also propose solutions to overcome this drawback.

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Hydrothermal synthesis of CuCoFe layered double hydroxide and its performance in the degradation of antibiotics: Influencing factors, degradation pathways, and reaction mechanism

Tung

Van

Thang

et al. 2023

Journal of Environmental Chemical Engineering

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Interfacial synthesis of polyaniline–polypyrrole on electrospun vanadium oxide-embedded TiO₂ nanofibers with enhanced photocatalytic performance

et al. 2023

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Modern Biomedical Applications of Magnetic Nanoparticles

Takahashi

Maenosono

2022

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The Son Le

Quick and Mild Isolation of Intact Lysosomes Using Magnetic–Plasmonic Hybrid Nanoparticles

Enhancing the Sensitivity of Lateral Flow Immunoassay by Magnetic Enrichment Using Multifunctional Nanocomposite Probes

Hydrothermal synthesis of CuCoFe layered double hydroxide and its performance in the degradation of antibiotics: Influencing factors, degradation pathways, and reaction mechanism

Interfacial synthesis of polyaniline–polypyrrole on electrospun vanadium oxide-embedded TiO₂ nanofibers with enhanced photocatalytic performance

Modern Biomedical Applications of Magnetic Nanoparticles

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The Son Le

Quick and Mild Isolation of Intact Lysosomes Using Magnetic–Plasmonic Hybrid Nanoparticles

Enhancing the Sensitivity of Lateral Flow Immunoassay by Magnetic Enrichment Using Multifunctional Nanocomposite Probes

Hydrothermal synthesis of CuCoFe layered double hydroxide and its performance in the degradation of antibiotics: Influencing factors, degradation pathways, and reaction mechanism

Interfacial synthesis of polyaniline–polypyrrole on electrospun vanadium oxide-embedded TiO2 nanofibers with enhanced photocatalytic performance

Modern Biomedical Applications of Magnetic Nanoparticles

Contact Info

Product

Resources

About

Interfacial synthesis of polyaniline–polypyrrole on electrospun vanadium oxide-embedded TiO₂ nanofibers with enhanced photocatalytic performance