Your search keyword '"Lee, Donghan"' showing total 9 results

1. An Innovative Inhibitor with a New Chemical Moiety Aimed at Biliverdin IXβ Reductase for Thrombocytopenia and Resilient against Cellular Degradation.

Author

Jung, Hoe-Myung, Ha, Jung-Hye, dela Cerna, Mark Vincent C., Burlison, Joseph A., Choi, Joonhyeok, Kim, Bo-Ram, Bang, Jeong Kyu, Ryu, Kyoung-Seok, and Lee, Donghan

Subjects

NICOTINAMIDE adenine dinucleotide phosphate, MOIETIES (Chemistry), CHEMICAL inhibitors, REACTIVE oxygen species, X-ray crystallography

Abstract

Biliverdin IXβ reductase (BLVRB) has emerged as a promising therapeutic target for thrombocytopenia due to its involvement in reactive oxygen species (ROS) mechanisms. During the pursuit of inhibitors targeting BLVRB, olsalazine (OSA) became apparent as one of the most potent candidates. However, the direct application of OSA as a BLVRB inhibitor faces challenges, as it is prone to degradation into 5-aminosalicylic acid through cleavage of the diazenyl bond by abundant azoreductase (AzoR) enzymes in gut microbiota and eukaryotic cells. To overcome this obstacle, we devised olsalkene (OSK), an inhibitor where the diazenyl bond in OSA has been substituted with an alkene bond. OSK not only matches the efficacy of OSA but also demonstrates improved stability against degradation by AzoR, presenting a promising solution to this limitation. Furthermore, we have found that both OSK and OSA inhibit BLVRB, regardless of the presence of nicotinamide adenine dinucleotide phosphate, unlike other known inhibitors. This discovery opens new avenues for investigating the roles of BLVRB in blood disorders, including thrombocytopenia. [ABSTRACT FROM AUTHOR]

Published

2024

2. Dual-Dewetting Process for Self-Assembled Nanoparticle Clusters in Wafer Scale.

Author

Kim, Minjun, Ahn, Hyun-Ju, Silalahi, Vanna Chrismas, Heo, Damun, Adhikari, Samir, Jang, Yudong, Lee, Jongmin, and Lee, Donghan

Subjects

NANOPARTICLES, RAMAN scattering, SERS spectroscopy, METAL clusters, PARTICLE size distribution, GOLD films, GOLD nanoparticles

Abstract

Plasmonic molecules, which are geometrically well-defined plasmonic metal nanoparticle clusters, have attracted significant attention due to their enhancement of light–matter interactions owing to a stronger electric field enhancement than that by single particles. High-resolution lithography techniques provide precise positioning of plasmonic nanoparticles, but their fabrication costs are excessively high. In this study, we propose a lithography-free, self-assembly fabrication method, termed the dual-dewetting process, which allows the control of the size and density of gold nanoparticles. This process involves depositing a gold thin film on a substrate and inducing dewetting through thermal annealing, followed by a second deposition and annealing. The method achieves a uniform distribution of particle size and density, along with increased particle density, across a 6-inch wafer. The superiority of the method is confirmed by a 30-fold increase in the signal intensity of surface-enhanced Raman scattering following the additional dewetting with an 8 nm film, compared to single dewetting alone. Our findings indicate that the dual-dewetting method provides a simple and efficient approach to enable a variety of plasmonic applications through efficient plasmonic molecule large-area fabrication. [ABSTRACT FROM AUTHOR]

Published

2023

3. M13 Bacteriophage-Assisted Synergistic Optical Enhancement of Perovskite Quantum Dots.

Author

Silalahi, Vanna Chrismas, Lee, Il Hyun, Kim, Minjun, Jang, Yudong, Lee, Donghan, Lee, Jong-Min, Devaraj, Vasanthan, and Oh, Jin-Woo

Subjects

QUANTUM dots, PEROVSKITE, PEPTIDE receptors, BACTERIOPHAGES, LEAD halides, OPTICAL properties

Abstract

Bacteriophages demonstrate a remarkable ability to adhere to host surfaces, thus improving their chances of reproduction. These viral entities demonstrate extreme interface properties through their highly specific and periodic peptide receptors, surpassing any manmade surface in terms of variability and adhesiveness. This intriguing quality has led to investigations into biohybrid nanostructures, wherein bacteriophages are combined with inorganic substances. Among them, cesium lead halide (CsPbI3) perovskite quantum dots (PQDs) are promising emissive materials, with their optical characteristics being vital for the advancement of light-emitting and optoelectronic apparatuses. In this study, we explored the integration of M13 bacteriophages (phages) with CsPbI3 PQDs. Our observations indicated that the photoluminescence of CsPbI3 + M13 phage was amplified 7.7-fold compared to pure CsPbI3, the lifetime of the quantum dots extended from 40.47 ns to 53.32 ns and enhanced the stability. Simulations and experimental results both demonstrate the significant role of M13 bacteriophages in achieving enhanced optical properties for PQDs. These findings confirm the significant contribution of M13 phages to enhancing the optical attributes in PQDs, laying the groundwork for innovative optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published

2023

4. Research on the Items of Importance and Satisfaction for Employability in the Korean Information Communication Technology Sector.

Author

Ahn, Jongchang, Jeong, Soonki, and Lee, Donghan

Abstract

This study discusses the employability of the workforce in relation to information communication technology. There is a difference in understanding in terms of items of importance/satisfaction during/after employment processes when considering organizations related to the information technology workforce. An empirical analysis of Korean employability based on literature from Asia was conducted. It indicated that differences in the perception of the 12 items comprising importance and satisfaction related to employability could potentially lead to job mismatch. We acquired an adequate sample of 296 respondents, consisting of various organizational employees. The sample was balanced in terms of gender and large or small/medium organizations. After establishing the rank of preferences among items, a difference analysis between/among groups through demographic variables was conducted. As a result, the need for additional disciplines or courses, the arrangement of preferred rank, and methods for enhancing skills from university or education/practice institutes for "interpersonal or team-working skills" and to "communicate effectively" with a higher rank among the general skills of importance/satisfaction were derived. Therefore, technology did not replace human personalities, communication skills, and human attributes such as human cooperation. This study can help address labor shortages and support sustainable employment in organizations, even if an empirical test is rare compared to descriptive statistical analyses. [ABSTRACT FROM AUTHOR]

Published

2023

5. Serially Checked Spherical Aberration Can Evaluate the Anti-Myopia Effect of Orthokeratology Lens in Children.

Author

Hahn, In-Kyun, Lee, Donghan, Lee, Dong-Ho, Lee, Hun, Tchah, Hungwon, and Kim, Jae-Yong

Subjects

*ORTHOKERATOLOGY, *INTRAOCULAR lenses, *REFRACTIVE errors, *VISUAL acuity, *LENSES, *ABERROMETRY, *ASTIGMATISM

Abstract

We aimed to investigate the changes in higher-order aberrations (HOAs) after wearing orthokeratology (OK) lenses in myopic patients. The study included 15 eyes from ten myopic patients, whose refractive error was myopia less than −4.5 diopters (D) and astigmatism less than 1.5 D. Uncorrected visual acuity (UCVA) and best-corrected visual acuity (BCVA) were measured, and Zywave® aberrometry was performed at baseline and 1, 3, and 6 months following OK lens wear. The mean age was 11.5 years (range: 9–15 years). There was a significant improvement in UCVA (p ≤ 0.001) and a decrease in the spherical equivalent measured with auto-refraction at 6 months (p ≤ 0.001). Total HOAs significantly increased after OK lens wear (p ≤ 0.001), with spherical aberration increasing approximately 3.9-fold (p = 0.05). Spherical aberration demonstrated statistically significant positive correlations with the change in spherical equivalent at 3 and 6 months (p = 0.007 and 0.003, respectively). After wearing properly prescribed OK lens, all subjects had significantly improved UCVA and decreased myopic spherical equivalent, with increased total HOAs and positive spherical aberration at 1 month, and the changes were maintained at 6 months. Serially checked spherical aberration could evaluate the anti-myopia effect of the orthokeratology lens in children. [ABSTRACT FROM AUTHOR]

Published

2022

6. Detection of Explosives by SERS Platform Using Metal Nanogap Substrates.

Author

Adhikari, Samir, Ampadu, Emmanuel K., Kim, Minjun, Noh, Daegwon, Oh, Eunsoon, and Lee, Donghan

Subjects

EXPLOSIVES detection, SERS spectroscopy, EXPLOSIVES, NITRO compounds, METALS, CYCLONITE

Abstract

Detecting trace amounts of explosives to ensure personal safety is important, and this is possible by using laser-based spectroscopy techniques. We performed surface-enhanced Raman scattering (SERS) using plasmonic nanogap substrates for the solution phase detection of some nitro-based compounds, taking advantage of the hot spot at the nanogap. An excitation wavelength of 785 nm with an incident power of as low as ≈0.1 mW was used to excite the nanogap substrates. Since both RDX and PETN cannot be dissolved in water, acetone was used as a solvent. TNT was dissolved in water as well as in hexane. The main SERS peaks of TNT, RDX, and PETN were clearly observed down to the order of picomolar concentration. The variations in SERS spectra observed from different explosives can be useful in distinguishing and identifying different nitro-based compounds. This result indicates that our nanogap substrates offer an effective approach for explosives identification. [ABSTRACT FROM AUTHOR]

Published

2021

7. Characteristic Analysis of Homo- and Heterodimeric Complexes of Human Mitochondrial Pyruvate Carrier Related to Metabolic Diseases.

Author

Lee, Jinyi, Jin, Zeyu, Lee, Donghan, Yun, Ji-Hye, and Lee, Weontae

Subjects

METABOLIC disorders, HOMODIMERS, TYPE 2 diabetes, HETERODIMERS

Abstract

Human mitochondrial pyruvate carriers (hMPCs), which are required for the uptake of pyruvate into mitochondria, are associated with several metabolic diseases, including type 2 diabetes and various cancers. Yeast MPC was recently demonstrated to form a functional unit of heterodimers. However, human MPC-1 (hMPC-1) and MPC-2 (hMPC-2) have not yet been individually isolated for their detailed characterization, in particular in terms of their structural and functional properties, namely, whether they exist as homo- or heterodimers. In this study, hMPC-1 and hMPC-2 were successfully isolated in micelles and they formed stable homodimers. However, the heterodimer state was found to be dominant when both hMPC-1 and hMPC-2 were present. In addition, as heterodimers, the molecules exhibited a higher binding capacity to both substrates and inhibitors, together with a larger structural stability than when they existed as homodimers. Taken together, our results demonstrated that the hetero-dimerization of hMPCs is the main functional unit of the pyruvate metabolism, providing a structural insight into the transport mechanisms of hMPCs. [ABSTRACT FROM AUTHOR]

Published

2020

8. Geometric Calibration and Validation of Kompsat-3A AEISS-A Camera.

Author

Seo D, Oh J, Lee C, Lee D, and Choi H

Abstract

Kompsat-3A, which was launched on 25 March 2015, is a sister spacecraft of the Kompsat-3 developed by the Korea Aerospace Research Institute (KARI). Kompsat-3A's AEISS-A (Advanced Electronic Image Scanning System-A) camera is similar to Kompsat-3's AEISS but it was designed to provide PAN (Panchromatic) resolution of 0.55 m, MS (multispectral) resolution of 2.20 m, and TIR (thermal infrared) at 5.5 m resolution. In this paper we present the geometric calibration and validation work of Kompsat-3A that was completed last year. A set of images over the test sites was taken for two months and was utilized for the work. The workflow includes the boresight calibration, CCDs (charge-coupled devices) alignment and focal length determination, the merge of two CCD lines, and the band-to-band registration. Then, the positional accuracies without any GCPs (ground control points) were validated for hundreds of test sites across the world using various image acquisition modes. In addition, we checked the planimetric accuracy by bundle adjustments with GCPs., Competing Interests: The authors declare no conflict of interest.

Published

2016

9. Measuring dynamic and kinetic information in the previously inaccessible supra-τ(c) window of nanoseconds to microseconds by solution NMR spectroscopy.

Author

Ban D, Sabo TM, Griesinger C, and Lee D

Subjects

Algorithms, Kinetics, Quantum Theory, Solutions chemistry, Molecular Dynamics Simulation, Nuclear Magnetic Resonance, Biomolecular, Proteins chemistry, Ubiquitin chemistry

Abstract

Nuclear Magnetic Resonance (NMR) spectroscopy is a powerful tool that has enabled experimentalists to characterize molecular dynamics and kinetics spanning a wide range of time-scales from picoseconds to days. This review focuses on addressing the previously inaccessible supra-tc window (defined as τ(c) < supra-τ(c) < 40 μs; in which tc is the overall tumbling time of a molecule) from the perspective of local inter-nuclear vector dynamics extracted from residual dipolar couplings (RDCs) and from the perspective of conformational exchange captured by relaxation dispersion measurements (RD). The goal of the first section is to present a detailed analysis of how to extract protein dynamics encoded in RDCs and how to relate this information to protein functionality within the previously inaccessible supra-τ(c) window. In the second section, the current state of the art for RD is analyzed, as well as the considerable progress toward pushing the sensitivity of RD further into the supra-τ(c) scale by up to a factor of two (motion up to 25 μs). From the data obtained with these techniques and methodology, the importance of the supra-τ(c) scale for protein function and molecular recognition is becoming increasingly clearer as the connection between motion on the supra-τ(c) scale and protein functionality from the experimental side is further strengthened with results from molecular dynamics simulations.

Published

2013