Your search keyword '"Park BG"' showing total 303 results

1. Twofold van Hove singularity and origin of charge order in topological kagome superconductor CsV3Sb5

Author

Kang, M, Kang, M, Fang, S, Kim, JK, Ortiz, BR, Ryu, SH, Kim, J, Yoo, J, Sangiovanni, G, Di Sante, D, Park, BG, Jozwiak, C, Bostwick, A, Rotenberg, E, Kaxiras, E, Wilson, SD, Park, JH, Comin, R, Kang, M, Kang, M, Fang, S, Kim, JK, Ortiz, BR, Ryu, SH, Kim, J, Yoo, J, Sangiovanni, G, Di Sante, D, Park, BG, Jozwiak, C, Bostwick, A, Rotenberg, E, Kaxiras, E, Wilson, SD, Park, JH, and Comin, R

Abstract

The layered vanadium antimonides AV3Sb5 (A = K, Rb, Cs) are a recently discovered family of topological kagome metals that exhibit a range of strongly correlated electronic phases including charge order and superconductivity. However, it is not yet understood how the distinctive electronic structure of the kagome lattice is linked to the observed many-body phenomena. Here we combine angle-resolved photoemission spectroscopy and density functional theory to reveal multiple kagome-derived van Hove singularities (vHS) coexisting near the Fermi level of CsV3Sb5 and analyse their contribution to electronic symmetry breaking. The vHS are characterized by two distinct sublattice flavours (p-type and m-type), which originate, respectively, from their pure and mixed sublattice characters. These twofold vHS flavours of the kagome lattice critically determine the pairing symmetry and unconventional ground states emerging in the AV3Sb5 series. We establish that, among the multiple vHS in CsV3Sb5, the m-type vHS of the dxz/dyz kagome band and the p-type vHS of the dxy/dx2–y2 kagome band are located very close to the Fermi level, setting the stage for electronic symmetry breaking. The former band is characterized by pronounced Fermi surface nesting, while the latter exhibits a higher-order vHS. Our work reveals the essential role of kagome-derived vHS for the collective phenomena realized in the AV3Sb5 family.

Published

2022

2. ‘From “Special Zones” to Cities and City-Regions in China

Author

Doucette, J, Park, BG, Cartier, C, Doucette, J, Park, BG, and Cartier, C

Published

2019

3. Genome-Wide Analysis of DNA Copy Number Changes in Liver Steatosis

Author

Royo, Félix, Zabala, Amaia, Paz, Nerea, Acquadro, Francesco, Echevarria, José J., Zabalza, Iñaki, Cigudosa, Juan C., Zugaza, José L., and Dentistry, University of the Basque Country, Barrio Sarriena s/n, 48940 Leioa, Spain, Achucarro Basque Center for Neuroscience, Bizkaia Science and Technology Park, Bg 205, Zamudio, Spain. IKERBASQUE, Basque Foundation for Science, Bilbao, Spain., Parada, Luis A., and Salta, 4400-Salta, Argentina.

Subjects

Array-CGH, CNV, genomic profile, liver steatosis, chromosome

Abstract

Aims: Liver steatosis is the most common benign form of non-alcoholic fatty liver disease. It might be a risk factor for hepatocellular carcinoma, either (i) by causing fibrosis, which highly predisposes to hepatoma, or (ii) by being an early precursor of carcinoma, although it is usually considered not to be pre-neoplastic. We investigated the genomic profile of liver samples from patients with fatty liver disease. Study Design & Methodology: Copy number variation was investigated by array-CGH, using the Human Genome 244K catalogue array (Agilent Technologies), and changes validated by quantitative polymerase chain reaction analysis. Results: The analysis of liver biopsies from 17 patients, 10 of whom had histological diagnosis of non-alcoholic fatty liver disease, showed differences in the type of variants in patients with steatosis compared to those without steatosis at several chromosome bands, including 3q29, 6p2, 11q11 and 22q11. Conclusion: The genomic copy number changes we have demonstrated suggest that genomic structural variations may be associated with the pathogenesis or the evolution of steatosis.

Published

2013

4. Electrochemically produced divalent neodymium in chloride melt

Author

Yamana, H, Park, BG, Shirai, O, Fujii, T, Uehara, A, Moriyama, H, Yamana, H, Park, BG, Shirai, O, Fujii, T, Uehara, A, and Moriyama, H

Published

2006

5. Electrochemically produced divalent neodymium in chloride melt

Author

40355011, 10314296, 30402952, 90127150, Yamana, H, Park, BG, Shirai, O, Fujii, T, Uehara, A, Moriyama, H, 40355011, 10314296, 30402952, 90127150, Yamana, H, Park, BG, Shirai, O, Fujii, T, Uehara, A, and Moriyama, H

Published

2006

6. From ‘Special Zones’ to Cities and City-regions in China

Author

Carolyn Cartier, Doucette, J, and Park, BG

Subjects

Geography, Economic geography, China

Published

2018

7. Solubility Change Behavior of Fluoroalkyl Ether-Tagged Dendritic Hexaphenol under Extreme UV Exposure.

Author

Oh HT, Kim G, Jung SH, Ku Y, Lee JK, Kim K, Park BG, Lee S, Koh C, Nishi T, and Kim HW

Abstract

This study focuses on the discovery of a single-component molecular resist for extreme ultraviolet (EUV) lithography by employing the ionizing radiation-induced decomposition of carbon-fluorine chemical bonds. The target material, DHP-L6 , was synthesized by bonding perfluoroalkyl ether moieties to amorphous dendritic hexaphenol (DHP) with a high glass transition temperature. Upon exposure to EUV and electron beam irradiation, DHP-L6 films exhibited a decreasing solubility in fluorous developer media, resulting in negative-tone images. The underlying chemical mechanisms were elucidated by Fourier transform-infrared spectroscopy (FT-IR), X-ray photoelectron spectroscopy, and nanoindentation experiments. These analyses highlighted the possible electron-induced decomposition of C-F bonds in DHP-L6 , leading to molecular network formation via recombination of the resulting C-centered radicals. Subsequent high-resolution lithographic patterning under EUV irradiation showed that DHP-L6 could create stencil patterns with a line width of 26 nm at an exposure dose of 110 mJ cm -2 . These results confirm that single-component small molecular compounds with fluoroalkyl moieties can be employed as patterning materials under ionizing radiation. Nonetheless, additional research is required to reduce the relatively high exposure energy for high-resolution patterning and to enhance the line-edge roughness of the produced stencil., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

8. One-Pot Biocatalytic Route from Alkanes to α,ω-Diamines by Whole-Cell Consortia of Engineered Yarrowia lipolytica and Escherichia coli .

Author

Kim YC, Yoo HW, Park BG, Sarak S, Hahn JS, Kim BG, and Yun H

Subjects

Transaminases metabolism, Transaminases genetics, Oxidation-Reduction, Microbial Consortia genetics, Yarrowia metabolism, Yarrowia genetics, Escherichia coli genetics, Escherichia coli metabolism, Alkanes metabolism, Metabolic Engineering methods, Biocatalysis, Diamines metabolism

Abstract

Metabolically engineered microbial consortia can contribute as a promising production platform for the supply of polyamide monomers. To date, the biosynthesis of long-chain α,ω-diamines from n -alkanes is challenging because of the inert nature of n -alkanes and the complexity of the overall synthesis pathway. We combined an engineered Yarrowia lipolytica module with Escherichia coli modules to obtain a mixed strain microbial consortium that could catalyze an efficient biotransformation of n -alkanes into corresponding α,ω-diamines. The engineered Y. lipolytica strain was constructed (YALI10) wherein the two genes responsible for β-oxidation and the five genes responsible for the overoxidation of fatty aldehydes were deleted. This newly constructed YALI10 strain expressing transaminase (TA) could produce 0.2 mM 1,12-dodecanediamine (40.1 mg/L) from 10 mM n -dodecane. The microbial consortia comprising engineered Y. lipolytica strains for the oxidation of n -alkanes (O M ) and an E. coli amination module (A M ) expressing an aldehyde reductase (AHR) and transaminase (TA) improved the production of 1,12-diamine up to 1.95 mM (391 mg/L) from 10 mM n -dodecane. Finally, combining the E. coli reduction module (R M ) expressing a carboxylic acid reductase (CAR) and an sfp phosphopantetheinyl transferase with O M and A M further improved the production of 1,12-diamine by catalyzing the reduction of undesired 1,12-diacids into 1,12-diols, which further undergo amination to give 1,12-diamine as the target product. This newly constructed mixed strain consortium comprising three modules in one pot gave 4.1 mM (41%; 816 mg/L) 1,12-diaminododecane from 10 mM n -dodecane. The whole-cell consortia reported herein present an elegant "greener" alternative for the biosynthesis of various α,ω-diamines (C8, C10, C12, and C14) from corresponding n -alkanes.

Published

2024

9. Highly Reliable Magnetic Memory-Based Physical Unclonable Functions.

Author

Kang J, Han D, Lee K, Ko S, Koh D, Park C, Ahn J, Yu M, Pakala M, Noh S, Lee H, Kwon J, Kim KJ, Park J, Lee S, Lee J, and Park BG

Abstract

Magnetic random-access memory (MRAM), which stores information through control of the magnetization direction, offers promising features as a viable nonvolatile memory alternative, including high endurance and successful large-scale commercialization. Recently, MRAM applications have extended beyond traditional memories, finding utility in emerging computing architectures such as in-memory computing and probabilistic bits. In this work, we report highly reliable MRAM-based security devices, known as physical unclonable functions (PUFs), achieved by exploiting nanoscale perpendicular magnetic tunnel junctions (MTJs). By intentionally randomizing the magnetization direction of the antiferromagnetically coupled reference layer of the MTJs, we successfully create an MRAM-PUF. The proposed PUF shows ideal uniformity and uniqueness and, in particular, maintains performance over a wide temperature range from -40 to +150 °C. Moreover, rigorous testing with more than 1584 challenge-response pairs of 64 bits each confirms resilience against machine learning attacks. These results, combined with the merits of commercialized MRAM technology, would facilitate the implementation of MRAM-PUFs.

Published

2024

10. Field-free spin-orbit torque switching in ferromagnetic trilayers at sub-ns timescales.

Author

Yang Q, Han D, Zhao S, Kang J, Wang F, Lee SC, Lei J, Lee KJ, Park BG, and Yang H

Abstract

Current-induced spin torques enable the electrical control of the magnetization with low energy consumption. Conventional magnetic random access memory (MRAM) devices rely on spin-transfer torque (STT), this however limits MRAM applications because of the nanoseconds incubation delay and associated endurance issues. A potential alternative to STT is spin-orbit torque (SOT). However, for practical, high-speed SOT devices, it must satisfy three conditions simultaneously, i.e., field-free switching at short current pulses, short incubation delay, and low switching current. Here, we demonstrate field-free SOT switching at sub-ns timescales in a CoFeB/Ti/CoFeB ferromagnetic trilayer, which satisfies all three conditions. In this trilayer, the bottom magnetic layer or its interface generates spin currents with polarizations in both in-plane and out-of-plane components. The in-plane component reduces the incubation time, while the out-of-plane component realizes field-free switching at a low current. Our results offer a field-free SOT solution for energy-efficient scalable MRAM applications., (© 2024. The Author(s).)

Published

2024

11. Broken Kramers Degeneracy in Altermagnetic MnTe.

Author

Lee S, Lee S, Jung S, Jung J, Kim D, Lee Y, Seok B, Kim J, Park BG, Šmejkal L, Kang CJ, and Kim C

Abstract

Altermagnetism is a newly identified fundamental class of magnetism with vanishing net magnetization and time-reversal symmetry broken electronic structure. Probing the unusual electronic structure with nonrelativistic spin splitting would be a direct experimental verification of an altermagnetic phase. By combining high-quality film growth and in situ angle-resolved photoemission spectroscopy, we report the electronic structure of an altermagnetic candidate, α-MnTe. Temperature-dependent study reveals the lifting of Kramers degeneracy accompanied by a magnetic phase transition at T_{N}=267  K with spin splitting of up to 370 meV, providing direct spectroscopic evidence for altermagnetism in MnTe.

Published

2024

12. Preliminary Clinical Study of the Effects and Safety of 308-nm Excimer Light Treatment in Patients with Atopic Dermatitis.

Author

Park BG, Seul TW, Shin JJ, and Son SW

Abstract

Background: Atopic dermatitis (AD) is a common skin disease which, depending on its severity, can have a significant impact on the quality of life of affected individuals. In cases of severe AD, systemic immunomodulatory agents can be considered for treatment. However, the available treatment options for moderate AD are limited. According to previous reports, however, 308-nm excimer light is a potential treatment for localized, moderate AD., Objective: This study aimed to assess the clinical efficacy and safety of 308-nm excimer light in Korean adults with AD., Methods: This study included Korean patients aged over 19 years, who were diagnosed with AD by a dermatologist, with bilateral, symmetric, and eczematous lesions. The symmetrical lesions in each patient were treated as control-test pairs. Treatment with 308-nm excimer light was applied to the test lesion twice a week for 4 weeks. The severity of the eczema, trans-epidermal water loss, and epidermal capacitance were measured., Results: A total of 25 participants were enrolled in the study. After the first visit, two participants withdrew, whereas the remaining 23 completed the study. There was a statistically significant improvement in AD severity in the test group than in the control group ( p <0.001). Skin barrier function also improved in the test than in the control group ( p <0.01)., Conclusion: This study provides preliminary evidence for the use of 308-nm excimer light as a treatment option to improve symptoms and skin barrier function in moderately localized AD., Competing Interests: The authors have nothing to disclose., (Copyright © The Korean Dermatological Association and The Korean Society for Investigative Dermatology.)

Published

2023

13. Efficient Hybrid Training Method for Neuromorphic Hardware Using Analog Nonvolatile Memory.

Author

Kwon D, Woo SY, Hwang J, Kim H, Bae JH, Shin W, Park BG, and Lee JH

Abstract

Neuromorphic hardware using nonvolatile analog synaptic devices provides promising advantages of reducing energy and time consumption for performing large-scale vector-matrix multiplication (VMM) operations. However, the reported training methods for neuromorphic hardware have appreciably shown reduced accuracy due to the nonideal nature of analog devices, and use conductance tuning protocols that require substantial cost for training. Here, we propose a novel hybrid training method that efficiently trains the neuromorphic hardware using nonvolatile analog memory cells, and experimentally demonstrate the high performance of the method using the fabricated hardware. Our training method does not rely on the conductance tuning protocol to reflect weight updates to analog synaptic devices, which significantly reduces online training costs. When the proposed method is applied, the accuracy of the hardware-based neural network approaches to that of the software-based neural network after only one-epoch training, even if the fabricated synaptic array is trained for only the first synaptic layer. Also, the proposed hybrid training method can be efficiently applied to low-power neuromorphic hardware, including various types of synaptic devices whose weight update characteristics are extremely nonlinear. This successful demonstration of the proposed method in the fabricated hardware shows that neuromorphic hardware using nonvolatile analog memory cells becomes a more promising platform for future artificial intelligence.

Published

2023

14. A Case of Idiopathic Aquagenic Wrinkling of the Palms Successfully Treated with 20% Aluminum Chloride Hexahydrate.

Author

Park BG, Jeong JY, Seul TW, and Ryu HJ

Abstract

Competing Interests: The authors have nothing to disclose.

Published

2023

15. Efficacy of Poria Cocos Extract on Sleep Quality Enhancement: A Clinical Perspective with Implications for Functional Foods.

Author

Kim H, Choi H, Park BG, Ju HJ, and Kim YI

Subjects

Humans, Middle Aged, Sleep Quality, Functional Food, Wolfiporia, Sleep Initiation and Maintenance Disorders drug therapy, Drugs, Chinese Herbal

Abstract

Background: Since the outbreak of the pandemic started, an increase in the number of sleep disorders, including insomnia and poor sleep quality, has been seen. The pattern will probably continue., Methods: This study focuses on the preparation and clinical testing of Poria cocos extract in treating suboptimal sleep quality. The optimal extraction method utilized a 75% ethanol concentration, and the clinical investigation involved subjects with defined poor sleep taking 800 mg of the extract nightly, assessed using the Sleep Questionnaire and polysomnography. The non-parametric Wilcoxon signed-rank test was used for statistical analysis due to the non-normal distribution of the collected data., Results: The study involved 21 insomnia sufferers with a mean age of 55 who were administered Poria cocos extracts. The findings of the study indicate a statistically significant rise in the overall duration of sleep (from 327.395 ± 43.2 min to 356.516 ± 63.21 min, p = 0.014). Additionally, there was a notable decrease in the level of arousal during sleep (from 76.316 ± 44.78 min to 47.989 ± 42.38 min, p = 0.009), and an improvement in the sleep severity index of the sleep questionnaire test., Conclusions: Poria cocos as a natural substance could improve quality of sleep, based on the findings. The study investigates Pachymic acid, a substance found in Poria cocos , as a potential indicator for the development of sleeping aids.

Published

2023

16. The Influence of Capping Layers on Tunneling Magnetoresistance and Microstructure in CoFeB/MgO/CoFeB Magnetic Tunnel Junctions upon Annealing.

Author

Kim G, Lee S, Lee S, Song B, Lee BK, Lee D, Lee JS, Lee MH, Kim YK, and Park BG

Abstract

This study investigates the effects of annealing on the tunnel magnetoresistance (TMR) ratio in CoFeB/MgO/CoFeB-based magnetic tunnel junctions (MTJs) with different capping layers and correlates them with microstructural changes. It is found that the capping layer plays an important role in determining the maximum TMR ratio and the corresponding annealing temperature ( T ann ). For a Pt capping layer, the TMR reaches ~95% at a T ann of 350 °C, then decreases upon a further increase in T ann . A microstructural analysis reveals that the low TMR is due to severe intermixing in the Pt/CoFeB layers. On the other hand, when introducing a Ta capping layer with suppressed diffusion into the CoFeB layer, the TMR continues to increase with T ann up to 400 °C, reaching ~250%. Our findings indicate that the proper selection of a capping layer can increase the annealing temperature of MTJs so that it becomes compatible with the complementary metal-oxide-semiconductor backend process.

Published

2023

17. Response Prediction after Neoadjuvant Chemotherapy for Colon Cancer Using CT Tumor Regression Grade: A Preliminary Study.

Author

Je HJ, Cho SH, Oh HS, Seo AN, Park BG, Lee SM, Kim SH, Kim GC, Ryeom H, and Choi GS

Abstract

Purpose: To investigate whether CT-based tumor regression grade (ctTRG) can be used to predict the response to neoadjuvant chemotherapy (NAC) in colon cancer., Materials and Methods: A total of 53 patients were enrolled. Two radiologists independently assessed the ctTRG using the length, thickness, layer pattern, and luminal and extraluminal appearance of the tumor. Changes in tumor volume were also analyzed using the 3D Slicer software. We evaluated the association between pathologic TRG (pTRG) and ctTRG. Patients with Rödel's TRG of 2, 3, or 4 were classified as responders. In terms of predicting responder and pathologic complete remission (pCR), receiver operating characteristic was compared between ctTRG and tumor volume change., Results: There was a moderate correlation between ctTRG and pTRG (ρ = -0.540, p < 0.001), and the interobserver agreement was substantial (weighted κ = 0.672). In the prediction of responder, there was no significant difference between ctTRG and volumetry ( Az = 0.749, criterion: ctTRG ≤ 3 for ctTRG, Az = 0.794, criterion: ≤ -27.1% for volume, p = 0.53). Moreover, there was no significant difference between the two methods in predicting pCR ( p = 0.447)., Conclusion: ctTRG might predict the response to NAC in colon cancer. The diagnostic performance of ctTRG was comparable to that of CT volumetry., Competing Interests: Conflicts of Interest: The authors have no potential conflicts of interest to disclose., (Copyrights © 2023 The Korean Society of Radiology.)

Published

2023

18. The microRNA-485-3p concentration in salivary exosome-enriched extracellular vesicles is related to amyloid β deposition in the brain of patients with Alzheimer's disease.

Author

Ryu IS, Kim DH, Ro JY, Park BG, Kim SH, Im JY, Lee JY, Yoon SJ, Kang H, Iwatsubo T, Teunissen CE, Cho HJ, and Ryu JH

Subjects

Humans, Amyloid beta-Peptides cerebrospinal fluid, Biomarkers cerebrospinal fluid, Brain diagnostic imaging, Positron-Emission Tomography methods, Alzheimer Disease diagnosis, Exosomes genetics, Neurodegenerative Diseases, Cognitive Dysfunction, MicroRNAs genetics

Abstract

Objectives: Alzheimer's disease (AD) is an irreversible neurodegenerative disease characterized by progressive long-term memory loss and cognitive dysfunction. Neuroimaging tests for abnormal amyloid-β (Aβ) deposition are considered the most reliable methods for the diagnosis of AD; however, the cost for such testing is very high and generally not covered by national insurance systems. Accordingly, it is only recommended for individuals exhibiting clinical symptoms of AD supported by clinical cognitive assessments. Recently, it was suggested that dysregulated microRNA-485-3p (miRNA-485-3p) in the brain and cerebrospinal fluid is closely related to pathogenesis of AD. However, a relationship between circulating miRNA-485-3p in salivary exosome-enriched extracellular vesicles (EE-EV) and Aβ deposition in the brain has not been observed., Design & Methods: Using quantitative real-time polymerase chain reaction, we analyzed miRNA-485-3p concentration in salivary EE-EV. We used receiver operating characteristic (ROC) curve analysis to evaluate its predictive value for Aβ positron emission tomography (Aβ-PET) positivity in patients with AD., Results: Our results showed that the miRNA-485-3p concentration in salivary EE-EV isolated from patients with AD was significantly increased compared with that in the healthy controls (p < 0.0001). In the analysis of all participants, the miRNA-485-3p concentration was significantly increased in Aβ-PET-positive participants compared to Aβ-PET-negative participants (p < 0.0001). Further analysis using only AD patients also showed that the miRNA-485-3p concentration was significantly increased in Aβ-PET-positive AD patients vs. Aβ-PET-negative AD patients (p = 0.0063). The ROC curve analysis for differentiating Aβ-PET-positive and negative participants showed that the area under the curve for miRNA-485-3p was 0.9217., Conclusion: These findings suggested that the miRNA-485-3p concentration in salivary EE-EV was closely related to Aβ deposition in the brain and had high diagnostic accuracy for predicting Aβ-PET positivity., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

19. Identification of the novel HLA-A*24:589 allele in a Korean deceased donor.

Author

Kim S, Kwon EK, So EH, Kim HJ, and Park BG

Subjects

Humans, Base Sequence, Alleles, Codon, Republic of Korea, HLA-A Antigens genetics

Abstract

The HLA-A*24:589 allele differs from A*24:02:01:01 by one nucleotide substitution in codon 145 (CGC > GGC)., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2023

20. Efficient production of natural sunscreens shinorine, porphyra-334, and mycosporine-2-glycine in Saccharomyces cerevisiae.

Author

Kim S, Park BG, Jin H, Lee D, Teoh JY, Kim YJ, Lee S, Kim SJ, Moh SH, Yoo D, Choi W, and Hahn JS

Subjects

Sunscreening Agents chemistry, Sunscreening Agents metabolism, Glycine metabolism, Amino Acids metabolism, Threonine, Serine metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Cyanobacteria metabolism

Abstract

Mycosporine-like amino acids (MAAs) are promising natural sunscreens mainly produced in marine organisms. Until now, metabolic engineering efforts to produce MAAs in heterologous hosts have mainly focused on shinorine production, and the low production levels are still not suitable for industrial applications. In this study, we successfully developed Saccharomyces cerevisiae strains that can efficiently produce various disubstituted MAAs, including shinorine, porphyra-334, and mycosporine-2-glycine (M2G), which are formed by conjugating serine, threonine, and glycine to mycosporine-glycine (MG), respectively. We first generated an MG-producing strain by multiple integration of the biosynthetic genes from cyanobacteria and applying metabolic engineering strategies to increase sedoheptulose-7-phosphate pool, a substrate for MG production. Next, five mysD genes from cyanobacteria, which encode D-Ala-D-Ala ligase homologues that conjugate an amino acid to MG, were introduced into the MG-producing strain to determine the substrate preference of each MysD enzyme. MysDs from Lyngbya sp., Nostoclinckia, and Euhalothece sp. showed high specificity toward serine, threonine, and glycine, resulting in efficient production of shinorine, porphyra-334, and M2G, respectively. This is the first report on the production of porphyra-334 and M2G in S. cerevisiae. Furthermore, we identified that the substrate specificity of MysD was determined by the omega loop region of 43-45 amino acids predicted based on its structural homology to a D-Ala-D-Ala ligase from Thermus thermophilus involved in peptidoglycan biosynthesis. The substrate specificities of two MysD enzymes were interchangeable by swapping the omega loop region. Using the engineered strain expressing mysD from Lyngbya sp. or N. linckia, up to 1.53 g/L shinorine or 1.21 g/L porphyra-334 was produced by fed-batch fermentation in a 5-L bioreactor, the highest titer reported so far. These results suggest that S. cerevisiae is a promising host for industrial production of different types of MAAs, providing a sustainable and eco-friendly alternative for the development of natural sunscreens., (Copyright © 2023 International Metabolic Engineering Society. Published by Elsevier Inc. All rights reserved.)

Published

2023

21. Long-Range Orbital Torque by Momentum-Space Hotspots.

Author

Go D, Jo D, Kim KW, Lee S, Kang MG, Park BG, Blügel S, Lee HW, and Mokrousov Y

Subjects

Torque, Motion, Electricity

Abstract

While it is often assumed that the orbital response is suppressed and short ranged due to strong crystal field potential and orbital quenching, we show that the orbital response can be remarkably long ranged in ferromagnets. In a bilayer consisting of a nonmagnet and a ferromagnet, spin injection from the interface results in spin accumulation and torque in the ferromagnet, which rapidly oscillate and decay by spin dephasing. In contrast, even when an external electric field is applied only on the nonmagnet, we find substantially long-ranged induced orbital angular momentum in the ferromagnet, which can go far beyond the spin dephasing length. This unusual feature is attributed to nearly degenerate orbital characters imposed by the crystal symmetry, which form hotspots for the intrinsic orbital response. Because only the states near the hotspots contribute dominantly, the induced orbital angular momentum does not exhibit destructive interference among states with different momentum as in the case of the spin dephasing. This gives rise to a distinct type of orbital torque on the magnetization, increasing with the thickness of the ferromagnet. Such behavior may serve as critical long-sought evidence of orbital transport to be directly tested in experiments. Our findings open the possibility of using long-range orbital response in orbitronic device applications.

Published

2023

22. Enhanced spin Seebeck effect via oxygen manipulation.

Author

Kim JM, Kim SJ, Kang MG, Choi JG, Lee S, Park J, Van Phuoc C, Kim KW, Kim KJ, Jeong JR, Lee KJ, and Park BG

Abstract

Spin Seebeck effect (SSE) refers to the generation of an electric voltage transverse to a temperature gradient via a magnon current. SSE offers the potential for efficient thermoelectric devices because the transverse geometry of SSE enables to utilize waste heat from a large-area source by greatly simplifying the device structure. However, SSE suffers from a low thermoelectric conversion efficiency that must be improved for widespread application. Here we show that the SSE substantially enhances by oxidizing a ferromagnet in normal metal/ferromagnet/oxide structures. In W/CoFeB/AlO x structures, voltage-induced interfacial oxidation of CoFeB modifies the SSE, resulting in the enhancement of thermoelectric signal by an order of magnitude. We describe a mechanism for the enhancement that results from a reduced exchange interaction of the oxidized region of ferromagnet, which in turn increases a temperature difference between magnons in the ferromagnet and electrons in the normal metal and/or a gradient of magnon chemical potential in the ferromagnet. Our result will invigorate research for thermoelectric conversion by suggesting a promising way of improving the SSE efficiency., (© 2023. The Author(s).)

Published

2023

23. Identifying Key Residues in Lysine Decarboxylase for Soluble Expression Using Consensus Design Soluble Mutant Screening (ConsenSing).

Author

Kim JY, Park GG, Kim EJ, Park BS, Lee J, Song H, Park BG, Kazlauskas R, Seo JH, and Kim BG

Subjects

Green Fluorescent Proteins metabolism, Protein Engineering methods, Gene Library, Carboxy-Lyases genetics

Abstract

Although recent advances in deep learning approaches for protein engineering have enabled quick prediction of hot spot residues improving protein solubility, the predictions do not always correspond to an actual increase in solubility under experimental conditions. Therefore, developing methods that rapidly confirm the linkage between computational predictions and empirical results is essential to the success of improving protein solubility of target proteins. Here, we present a simple hybrid approach to computationally predict hot spots possibly improving protein solubility by sequence-based analysis and empirically explore valuable mutants using split GFP as a reporter system. Our approach, Consen sus design S oluble Mutant Screen ing ( ConsenSing ), utilizes consensus sequence prediction to find hot spots for improvement of protein solubility and constructs a mutant library using Darwin assembly to cover all possible mutations in one pot but still keeps the library as compact as possible. This approach allowed us to identify multiple mutants of Escherichia coli lysine decarboxylase, LdcC, with substantial increases in soluble expression. Further investigation led us to pinpoint a single critical residue for the soluble expression of LdcC and unveiled its mechanism for such improvement. Our approach demonstrated that following a protein's natural evolutionary path provides insights to improve protein solubility and/or increase protein expression by a single residue mutation, which can significantly change the profile of protein solubility.

Published

2023

24. A Case of Primary Cutaneous Perivascular Epithelioid Cell Tumor.

Author

Oh H, Park BG, and Kim IH

Abstract

Competing Interests: The authors have nothing to disclose.

Published

2023

25. Extreme UV Resist Exhibiting Synergism between Chemical and Physical Crosslinking Mechanisms.

Author

Ku Y, Kim K, Oh HT, Park BG, Lee S, Lee JK, Koh C, Nishi T, and Kim HW

Abstract

Carbon-fluorine bonds in fluorinated molecules can undergo homolytic cleavage reactions when electrons are injected, and the resulting radicals combine to form network structures characterized by reduced solubility. This crosslinking chemistry suggests a new category of patterning materials that function under electron beam (e-beam) and extreme ultraviolet (EUV) lithographic conditions. Although this chemistry enables the production of 50 nm or smaller-sized features of simple fluoroalkylated polymers, it is limited by the need for relatively large amounts of irradiation energy to achieve required solubility changes. Therefore, this study was undertaken to devise a sensitivity-enhancing strategy based on a synergistic combination of radical crosslinking and hydrogen-bonding interactions between highly fluoroalkylated copolymers. An alternating copolymer was synthesized using tert -butoxystyrene and a fluoroalkylated maleimide, the former of which produces active hydrogens through catalytic acidolysis reactions. When the polymer was blended with a catalytic amount of a photoacid generator and subjected to lithographic patterning tests under e-beam and EUV irradiation, the deprotection reactions of tert -butoxy moieties proceeded at room temperature and led to a solubility decrease. We presume the small number of hydroxyl moieties produced formed an intermolecular hydrogen-bonding network, which acted synergistically with the covalent crosslinks generated by C-F bonds. When 30 nm features of copolymer thin films were fabricated by EUV lithography, sensitivity was improved by 25-34% without significant deterioration of pattern quality, especially line-edge roughness. These results demonstrate that EUV resists with improved patterning capabilities can be achieved by combining catalytic acidolysis reactions and noncatalytic crosslinking chemistry.

Published

2023

26. The Skin-Whitening and Antioxidant Effects of Protocatechuic Acid (PCA) Derivatives in Melanoma and Fibroblast Cell Lines.

Author

Cho J, Jung H, Kang DY, Sp N, Shin W, Lee J, Park BG, Kang YA, Jang KJ, and Bae SW

Abstract

The skin is the most voluminous organ of the human body and is exposed to the outer environment. Such exposed skin suffers from the effects of various intrinsic and extrinsic aging factors. Skin aging is characterized by features such as wrinkling, loss of elasticity, and skin pigmentation. Skin pigmentation occurs in skin aging and is caused by hyper-melanogenesis and oxidative stress. Protocatechuic acid (PCA) is a natural secondary metabolite from a plant-based source widely used as a cosmetic ingredient. We chemically designed and synthesized PCA derivatives conjugated with alkyl esters to develop effective chemicals that have skin-whitening and antioxidant effects and enhance the pharmacological activities of PCA. We identified that melanin biosynthesis in B16 melanoma cells treated with alpha-melanocyte-stimulating hormone (α-MSH) is decreased by PCA derivatives. We also found that PCA derivatives effectively have antioxidant effects in HS68 fibroblast cells. In this study, we suggest that our PCA derivatives are potent ingredients for developing cosmetics with skin-whitening and antioxidant effects.

Published

2023

27. Pancreatoduodenectomy following neoadjuvant chemotherapy in duodenal adenocarcinoma.

Author

Seo D, Park BG, Jung D, Hwang HK, Kim SH, Hong SS, and Kang CM

Abstract

A 51-year-old male patient had four times of massive hematochezia episode three days before arrival. Carbohydrate antigen (CA) 19-9 level was extremely elevated. Computed tomography, magnetic resonance imaging, and positron emission tomography-computed tomography identified 5.7 cm sized periampullary duodenal cancer with regional metastatic lymph nodes and vascular invasion to aberrant right hepatic artery, main portal vein, and superior mesenteric vein. Diagnosed as duodenal adenocarcinoma through endoscopic biopsy, 16 times of FOLFIRI (5-fluorouracil, leucovorin, irinotecan) was conducted. The regimen changed to XELOX (capecitabine, oxaliplatine), four times of administration was done, and the CA19-9 level dramatically decreased. The tumor decreased to 2.1 cm. After R0 laparoscopic pylorus preserving pancreatoduodenectomy, no adjuvant therapy was given. No sign of recurrence or metastasis was reported, and the patient reached complete remission after five years. We reported a case where neoadjuvant chemotherapy for locally advanced duodenal adenocarcinoma was shown to be effective.

Published

2023

28. Comparison of the Efficacy of an Anchored Cage with Unidirectional and Bidirectional Screw Fixation in Single-Level Cervical Discectomy and Fusion Surgery.

Author

Lee JJ, Shin HK, Park BG, Jung SK, Lee SB, and Park JH

Subjects

Humans, Retrospective Studies, Treatment Outcome, Cervical Vertebrae diagnostic imaging, Cervical Vertebrae surgery, Diskectomy methods, Bone Screws, Lordosis diagnostic imaging, Lordosis surgery, Spinal Fusion methods

Abstract

Aim: To compare, and to analyze the clinical and radiological signs between bidirectional and unidirectional screw fixation in single level cervical discectomy and fusion surgery., Material and Methods: We retrospectively reviewed the data collected from 90 patients and divided them into the upper or lower spine fixation group (unidirectional) and the normal upper and lower spine fixation group (bidirectional). The patients' demographic data and preoperative and postoperative (24 months) clinical outcomes were collected. Pre- and postoperative (immediately and at 3, 6, 12, and 24 months) changes in the segmental angle in the operating field (SA), cervical lordosis, C2-7 sagittal vertical axis, and active disc height (aDH) were evaluated. We also compared the rate of fusion and muscle size change between the groups., Results: The operation time in the bidirectional screw fixation group was significantly longer than that in the unidirectional screw fixation group ( > 6 min; p=0.03). There was no significant difference between the two groups in radiographic parameters before and immediately after surgery. From 3 months postoperatively, the unidirectional group had significantly higher SA and aDH than the bidirectional group (p=0.03). The fusion rate was higher in the bidirectional screw fixation group than in the unidirectional group, but this was not statistically significant (97% vs. 88%, p=0.07)., Conclusion: The results of this study suggest that unidirectional screw fixation surgery can be useful as it has been associated with simple surgery, short surgery time, and maintenance of the lordotic curvature of SA and disc height.

Published

2023

29. Spintronic Physical Unclonable Functions Based on Field-Free Spin-Orbit-Torque Switching.

Author

Lee S, Kang J, Kim JM, Kim N, Han D, Lee T, Ko S, Yang J, Lee S, Lee S, Koh D, Kang MG, Lee J, Noh S, Lee H, Kwon J, Baek SC, Kim KJ, and Park BG

Abstract

Physical unclonable function (PUFs) utilize inherent random physical variations of solid-state devices and are a core ingredient of hardware security primitives. PUFs promise more robust information security than that provided by the conventional software-based approaches. While silicon- and memristor-based PUFs are advancing, their reliability and scalability require further improvements. These are currently limited by output fluctuations and associated additional peripherals. Here, highly reliable spintronic PUFs that exploit field-free spin-orbit-torque switching in IrMn/CoFeB/Ta/CoFeB structures are demonstrated. It is shown that the stochastic switching polarity of the perpendicular magnetization of the top CoFeB can be achieved by manipulating the exchange bias directions of the bottom IrMn/CoFeB. This serves as an entropy source for the spintronic PUF, which is characterized by high entropy, uniqueness, reconfigurability, and digital output. Furthermore, the device ensures a zero bit-error-rate under repetitive operations and robustness against external magnetic fields, and offers scalable and energy-efficient device implementations., (© 2022 The Authors. Advanced Materials published by Wiley-VCH GmbH.)

Published

2022

30. Observation of spin-glass-like characteristics in ferrimagnetic TbCo through energy-level-selective approach.

Author

Park JH, Kim WT, Won W, Kang JH, Lee S, Park BG, Ham BS, Jo Y, Rotermund F, and Kim KJ

Abstract

Rare earth (RE)-transition metal (TM) ferrimagnetic alloys are gaining increasing attention because of their potential use in the field of antiferromagnetic spintronics. The moment from RE sub-lattice primarily originates from the 4f-electrons located far below the Fermi level (E F ), and the moment from TM sub-lattice arises from the 3d-electrons across the E F . Therefore, the individual magnetic moment configurations at different energy levels must be explored to clarify the microscopic mechanism of antiferromagnetic spin dynamics. Considering these issues, here we investigate the energy-level-selective magnetic moment configuration in ferrimagnetic TbCo alloy. We reveal that magnetic moments at deeper energy levels are more easily altered by the external magnetic field than those near the E F . More importantly, we find that the magnetic moments at deeper energy levels exhibit a spin-glass-like characteristics such as slow dynamics and magnetic moment freezing whereas those at E F do not. These unique energy-level-dependent characteristics of RE-TM ferrimagnet may provide a better understanding of ferrimagnet, which could be useful in spintronic applications as well as in spin-glass studies., (© 2022. The Author(s).)

Published

2022

31. Highly-packed self-assembled graphene oxide film-integrated resistive random-access memory on a silicon substrate for neuromorphic application.

Author

Choi HS, Lee J, Kim B, Lee J, Park BG, Kim Y, and Hong SW

Abstract

Resistive random-access memories (RRAMs) based on metal-oxide thin films have been studied extensively for application as synaptic devices in neuromorphic systems. The use of graphene oxide (GO) as a switching layer offers an exciting alternative to other materials such as metal-oxides. We present a newly developed RRAM device fabricated by implementing highly-packed GO layers on a highly doped Si wafer to yield a gradual modulation of the memory as a function of the number of input pulses. By using flow-enabled self-assembly, highly uniform GO thin films can be formed on flat Si wafers in a rapid and simple process. The switching mechanism was explored through proposed scenarios reconstructing the density change of the sp 2 cluster in the GO layer, resulting in a gradual conductance modulation. We analyzed that the current in a low resistance state could flow by tunneling or hopping via clusters because the distance between the sp 2 clusters in closely-packed GO layers is short. Finally, through a pattern-recognition simulation with a Modified National Institute of Standards and Technology database, the feasibility of using close-packed GO layers as synapse devices was successfully demonstrated., (© 2022 IOP Publishing Ltd.)

Published

2022

32. Medium-Temperature-Oxidized GeO x Resistive-Switching Random-Access Memory and Its Applicability in Processing-in-Memory Computing.

Author

Udaya Mohanan K, Cho S, and Park BG

Abstract

Processing-in-memory (PIM) is emerging as a new computing paradigm to replace the existing von Neumann computer architecture for data-intensive processing. For the higher end-user mobility, low-power operation capability is more increasingly required and components need to be renovated to make a way out of the conventional software-driven artificial intelligence. In this work, we investigate the hardware performances of PIM architecture that can be presumably constructed by resistive-switching random-access memory (ReRAM) synapse fabricated with a relatively larger thermal budget in the full Si processing compatibility. By introducing a medium-temperature oxidation in which the sputtered Ge atoms are oxidized at a relatively higher temperature compared with the ReRAM devices fabricated by physical vapor deposition at room temperature, higher device reliability has been acquired. Based on the empirically obtained device parameters, a PIM architecture has been conceived and a system-level evaluations have been performed in this work. Considerations include the cycle-to-cycle variation in the GeO x ReRAM synapse, analog-to-digital converter resolution, synaptic array size, and interconnect latency for the system-level evaluation with the Canadian Institute for Advance Research-10 dataset. A fully Si processing-compatible and robust ReRAM synapse and its applicability for PIM are demonstrated., (© 2022. The Author(s).)

Published

2022

33. Novel Pathogenic Variant (c.1171A>T) in PHF21A in a Female with Intellectual Disability and Craniofacial Anomalies.

Author

Lee C, Yoon J, Park BG, Eun BL, and Kwon JA

Abstract

Background: PHF21A , along with EXT2 and ALX4 , is one of the causative genes of Potocki-Shaffer syndrome (PSS), a rare contiguous disorder involving chromosome region11p11.2. PHF21A has been associated with intellectual developmental disorders and craniofacial anomalies and suggested as a candidate for more extended phenotypes. However, variants in PHF21A and its associated phenotypes are yet to be fully explored, since reports on cases with variants affecting this gene are few worldwide. We present a novel heterogeneous variant in PHF21A in a 26-year-old Korean female., Methods: The patient's clinical manifestations were recorded and physical examination, cognitive assessment, brain imaging, metabolic screening, and cytogenetic testing including whole exome sequencing were pursued., Results: Whole exome sequencing identified a de novo nonsense variant c.1171A>T (p.Lys391Ter), affecting the AT-hook domain. The patient showed an extended phenotypic spectrum along with intellectual developmental disorders and craniofacial anomalies, such as attention-deficit hyperactivity disorder, epilepsy, overgrowth, and hypotonia. Variants affecting the AT-hook domain are few in PSS, however, the phenotypic spectrum of the patient was in line with previously reported cases., Conclusion: This case further reinforced and adds to the extended data on the phenotypes associated with PHF21A haploinsufficiency., Competing Interests: The authors declare no conflict of interest., (Copyright © 2022 by S. Karger AG, Basel.)

Published

2022

34. Change in the Alignment and Distal Junctional Kyphosis Development after Posterior Cervical Spinal Fusion Surgery for Cervical Spondylotic Myelopathy - Risk Factor Analysis.

Author

Lee JJ, Park JH, Oh YG, Shin HK, and Park BG

Abstract

Objective: This study analyzed the risk factors in patients who developed distal junctional kyphosis (DJK) after posterior cervical fusion., Methods: We retrospectively analyzed the clinical and radiographic outcomes of 64 patients, aged ≥18 years (51 and 13 male and female patients, respectively), who underwent single-staged multilevel (3-6 levels) posterior cervical fusion surgery due to multiple cervical spondylotic myelopathy. The surgeries were performed by a single spinal surgeon between January 2012 and December 2017. Demographic data, clinical outcomes, and radiological results were collected. We divided the patients into a DJK group and a non-DJK group according to the presence of DJK and investigated the risk factors by comparing the differences between the two groups., Results: Of the 64 patients, 13 developed DJK. No significant differences in clinical results were observed between the two groups before and immediately after the surgery. At the final follow-up, a higher visual analog score for neck pain was observed in the DJK group compared to the non-DJK group (p<0.01). The DJK group had a significantly lower T1 slope and a significantly higher C2-7 sagittal vertical axis (SVA) before surgery compared to the non-DJK group (p=0.03 and p<0.01, respectively). Immediately after surgery, the difference between the two groups decreased and no significant difference was observed. However, at the last followup, a significantly higher C2-7 SVA was observed in the DJK group (p<0.01). At the last follow up, there is no discrepancy in T1S-CL. In multiple logistic regression analysis, preoperative higher C2-7 SVA and preoperative lower T1 slope were identified as independent risk factors (p=0.03 and p<0.01, respectively). As a result, it was confirmed that DJK occurred along the process of returning to preoperative values., Conclusion: DJK can be considered to be caused by cervical misalignment due to excessive change in the surgical site in patients with low T1 slope and high C2-7 SVA before surgery. This also affects the clinical outcome after surgery. It is recommended to refrain from excessive segmental lordosis changes during multilevel cervical post fusion surgery, especially in patients with a small preoperative T1 slope and a large SVA value.

Published

2022

35. Voltage-driven gigahertz frequency tuning of spin Hall nano-oscillators.

Author

Choi JG, Park J, Kang MG, Kim D, Rieh JS, Lee KJ, Kim KJ, and Park BG

Abstract

Spin Hall nano-oscillators (SHNOs) exploiting current-driven magnetization auto-oscillation have recently received much attention because of their potential for neuromorphic computing. Widespread applications of neuromorphic devices with SHNOs require an energy-efficient method of tuning oscillation frequency over broad ranges and storing trained frequencies in SHNOs without the need for additional memory circuitry. While the voltage-driven frequency tuning of SHNOs has been demonstrated, it was volatile and limited to megahertz ranges. Here, we show that the frequency of SHNOs is controlled up to 2.1 GHz by an electric field of 1.25 MV/cm. The large frequency tuning is attributed to the voltage-controlled magnetic anisotropy (VCMA) in a perpendicularly magnetized Ta/Pt/[Co/Ni] n /Co/AlO x structure. Moreover, the non-volatile VCMA effect enables cumulative control of the frequency using repetitive voltage pulses which mimic the potentiation and depression functions of biological synapses. Our results suggest that the voltage-driven frequency tuning of SHNOs facilitates the development of energy-efficient neuromorphic devices., (© 2022. The Author(s).)

Published

2022

36. Synergistic improvement of sensing performance in ferroelectric transistor gas sensors using remnant polarization.

Author

Shin W, Yim J, Bae JH, Lee JK, Hong S, Kim J, Jeong Y, Kwon D, Koo RH, Jung G, Han C, Kim J, Park BG, Kwon D, and Lee JH

Subjects

Gases analysis, Humans, Oxides, Oxygen, Ecosystem, Environmental Pollutants

Abstract

Gaseous pollutants, including nitrogen oxides, pose a severe threat to ecosystems and human health; therefore, developing reliable gas-sensing systems to detect them is becoming increasingly important. Among the various options, metal-oxide-based gas sensors have attracted attention due to their capability for real-time monitoring and large response. In particular, in the field of materials science, there has been extensive research into controlling the morphological properties of metal oxides. However, these approaches have limitations in terms of controlling the response, sensitivity, and selectivity after the sensing material is deposited. In this study, we propose a novel method to improve the gas-sensing performance by utilizing the remnant polarization of ferroelectric thin-film transistor (FeTFT) gas sensors. The proposed FeTFT gas sensor has IGZO and HZO as the conducting channel and ferroelectric layer, respectively. It is demonstrated that the response and sensitivity of FeTFT gas sensors can be modulated by engineering the polarization of the ferroelectric layer. The amount of reaction sites in IGZO, including electrons and oxygen vacancy-induced negatively charged oxygen, is changed depending on upward and downward polarization. The results of this study provide an essential foundation for further development of gas sensors with tunable sensing properties.

Published

2022

37. The Positive Effects of Poria cocos Extract on Quality of Sleep in Insomnia Rat Models.

Author

Kim H, Park I, Park K, Park S, Kim YI, and Park BG

Subjects

Animals, Caffeine pharmacology, Caffeine therapeutic use, Mice, Mice, Inbred ICR, Plant Extracts pharmacology, Plant Extracts therapeutic use, Quality of Life, Rats, Rats, Sprague-Dawley, Sleep, Sleep Quality, gamma-Aminobutyric Acid pharmacology, Sleep Initiation and Maintenance Disorders drug therapy, Wolfiporia

Abstract

Sleep disorders may have various causes and can incur mental and/or physical symptoms, and affect an individual's quality of life. In this study, we confirm that the Poria cocos extract (PCET) can improve sleep quality and structure by promoting inhibitory neurotransmission via the γ-aminobutyric acid (GABA) type A (GABA A ) receptors based on the mechanisms revealed in the experiment with superior cervical ganglion neurons. Pentobarbital-induced sleep tests were conducted in order to determine whether the PCET extract improves the sleep quality and structure in normal ICR mice. Sleep latency and duration were checked with the righting reflex. To simulate the state of awakening as well as a normal sleep state, caffeine was administered orally before the PCET diet. After oral gavage of PCET, sleep latency was decreased, and total sleep duration was increased in normal and caffeine-induced sleep disturbance state. In the ACTH-induced sleep disturbed models, administration of PCET significantly reduced the sleep latency and increased the non-REM sleep duration, which was analyzed in real-time EEG by implanting wireless electrodes in SD rats. PCET was found to improve the sleep quality under a normal sleep state through the GABA A receptor; it also promoted and improved the sleep quality and sleep structure in both the arousal activation state and stress-based sleep disturbance.

Published

2022

38. A retrospective controlled study of postoperative fever after posterior lumbar interbody fusion due to degenerative lumbar disease.

Author

Lee JJ, Kim JH, Jeon JH, Kim MJ, Park BG, Jung SK, Jeon SR, Roh SW, and Park JH

Subjects

Humans, Lumbar Vertebrae surgery, Lumbosacral Region, Procalcitonin, Retrospective Studies, Treatment Outcome, Spinal Fusion adverse effects, Spinal Fusion methods

Abstract

Background: Postoperative fever is a common feature of spinal surgery. When fever occurs postoperatively in patients, surgeons are eager to rule out an infection. There are many reports about postoperative fever and infection; however, only a few have described the relationship between degenerative spinal disease and postoperative fever. This study aimed to investigate the causes of postoperative fever in patients with degenerative lumbar disease undergoing posterior screw fixation and interbody fusion and compare patients with non-pathologic fever and infected febrile patients., Methods: From March 2015 to February 2016, 263 patients with degenerative lumbar disease underwent posterior lumbar screw fixation and interbody fusion surgery in our institution. We performed risk factor analysis by categorizing patients as afebrile and febrile. Comparisons were made between afebrile patients and patients with non-pathologic fever, and an analysis was performed between patients with non-pathologic fever and patients with febrile infection. We compared each group by examining the demographic factors before surgery, surgery features, drain duration, and postoperative transfusion. The postoperative day (POD) of fever onset, postoperative fever duration, and blood sample results in patients with fever were investigated., Results: The drain duration was found to be an important factor between the afebrile febrile groups and between the non-pathologic fever and afebrile groups. POD of fever occurred earlier in the non-pathologic group than in the infection group (p = 0.04), and the duration of fever was shorter in the non-pathologic fever group than in the infection group (p = 0.01). Higher procalcitonin levels were observed at POD 5 in the infection group than in the non-pathologic fever group. (p < 0.01) The accidental dural rupture rate was higher in the infected group (p = 0.02); this was thought to be caused by the long non-ambulatory period after surgery., Conclusion: This study identified risk factors and differences between infectious diseases associated with postoperative fever. A significant risk factor for postoperative non-pathological fever was a shorter catheter drainage period. Fever after 3 days, fever for more than 4 days and higher procalcitonin levels after surgery suggest infection., Competing Interests: Conflicts of interest: No potential conflict of interest relevant to this article was reported., (Copyright © 2022 the Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2022

39. Enhancing biosynthesis of 2'-Fucosyllactose in Escherichia coli through engineering lactose operon for lactose transport and α -1,2-Fucosyltransferase for solubility.

Author

Park BS, Choi YH, Kim MW, Park BG, Kim EJ, Kim JY, Kim JH, and Kim BG

Subjects

Escherichia coli genetics, Escherichia coli metabolism, Fucosyltransferases genetics, Fucosyltransferases metabolism, Glucose metabolism, Humans, Lac Operon, Lactose metabolism, Monosaccharide Transport Proteins genetics, Oligosaccharides metabolism, Solubility, Trisaccharides, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Symporters genetics

Abstract

2'-Fucosyllactose (2'-FL) is the most abundant oligosaccharide in human milk and one of the most actively studied human milk oligosaccharides (HMOs). When 2'-FL is produced through biological production using a microorganism, like Escherichia coli, d-lactose is often externally fed as an acceptor substrate for fucosyltransferase (FT). When d-glucose is used as a carbon source for the cell growth and d-lactose is transported by lactose permease (LacY) in lac operon, d-lactose transport is under the control of catabolite repression (CR), limiting the supply of d-lactose for FT reaction in the cell, hence decreasing the production of 2'-FL. In this study, a remarkable increase of 2'-FL production was achieved by relieving the CR from the lac operon of the host E. coli BL21 and introducing adequate site-specific mutations into α-1,2-FT (FutC) for enhancement of catalytic activity and solubility. For the host engineering, the native lac promoter (P lac ) was substituted for tac promoter (P tac ), so that the lac operon could be turned on, but not subjected to CR by high d-glucose concentration. Next, for protein engineering of FutC, family multiple sequence analysis for conserved amino acid sequences and protein-ligand substrate docking analysis led us to find several mutation sites, which could increase the solubility of FutC and its activity. As a result, a combination of four mutation sites (F40S/Q150H/C151R/Q239S) was identified as the best candidate, and the quadruple mutant of FutC enhanced 2'-FL titer by 2.4-fold. When the above-mentioned E. coli mutant host transformed with the quadruple mutant of futC was subjected to fed-batch culture, 40 g l -1 of 2'-FL titer was achieved with the productivity of 0.55 g l -1 h -1 and the specific 2'-FL yield of 1.0 g g -1 dry cell weight., (© 2022 Wiley Periodicals LLC.)

Published

2022

40. Factors Affecting the Practice of Corona Virus Disease-19 Prevention Activities in Patients With Heart Diseases in Korea.

Author

Yun SH, Park BG, Jung EY, Kwon JY, Park YK, and Kim HJ

Subjects

Cross-Sectional Studies, Health Knowledge, Attitudes, Practice, Humans, Republic of Korea, SARS-CoV-2, Surveys and Questionnaires, COVID-19 prevention & control, Heart Diseases prevention & control

Abstract

This study was conducted in a cross-sectional correlation design to identify factors affecting the practice of COVID-19 prevention activities in patients with heart diseases. A convenience sample of 195 patients with heart diseases from one tertiary teaching hospital completed questionnaires with items from the characteristics of these participants, their knowledge, attitude, and practice related to COVID-19 prevention activities. Participants' knowledge, attitude, and practice for COVID-19 prevention were relatively high but there was a significant difference in the degree of practice of COVID-19 prevention activities according to the characteristics of the participants. The higher the level of their knowledge and the more positive their attitude, the higher their practice. Attitude and information check about COVID-19 prevention were factors that influenced the practice of COVID-19 prevention activities, with an explanatory power of 32%. This study can help motivate and actively encourage COVID-19 prevention practices.

Published

2022

41. Development of a humidity pretreatment method for the measurement of ozone in ambient air.

Author

Dinh TV, Kim DJ, Lee JY, Park BG, Choi IY, Kim IY, and Kim JC

Subjects

Air, Environmental Monitoring, Humidity, Air Pollutants analysis, Air Pollution, Ozone analysis

Abstract

A frost filter (FRF) was developed as a humidity pretreatment device (HPD) to improve the measurement of ambient ozone (O 3 ). The FRF was produced in a tube, which was supercooled by a thermoelectric cooling device based on the Peltier effect. The relative humidity (RH) of the air samples varied from 30% to 80% at 25 °C, and the O 3 concentration was set as 100 ppbv. Besides O 3 , SO 2 at 150 ppbv was used for comparison. The density of the FRF was evaluated. Comparison studies on the humidity removal efficiencies and loss ratios of analytes among a FRF HPD, a short Nafion™ tube (NS), and a long Nafion™ tube (NL) HPDs were conducted. As results, the density of the FRF was dependent on the temperature at a fixed sampling flow rate. The outlet humidity of both the FRF and the NL HPDs were less than 8% RH at 25 °C. The mean concentrations of O 3 and SO 2 after the FRF HPD were similar to the initial concentrations at all humidity levels, whereas they were significantly different for both the NS and NL HPDs at higher humidity. This suggests that the FRF HPD is a reliable humidity pretreatment for O 3 measurements., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

42. Direct Observation of Orbital Driven Strong Interlayer Coupling in Puckered Two-Dimensional PdSe 2 .

Author

Ryu JH, Kim JG, Kim B, Kim K, Kim S, Park JH, Park BG, Kim Y, Ko KT, and Lee K

Abstract

Interlayer coupling between individual unit layers is known to be critical in manipulating the layer-dependent properties of two-dimensional (2D) materials. While recent studies have revealed that several 2D materials with significant degrees of interlayer interaction (such as black phosphorus) show strongly layer-dependent properties, the origin based on the electronic structure is drawing intensive attention along with 2D materials exploration. Here, the direct observation of a highly dispersive single electronic band along the interlayer direction in puckered 2D PdSe 2 as an experimental hallmark of strong interlayer couplings is reported. Remarkably large band dispersion along the k z -direction near Fermi level, which is even wider than the in-plane one, is observed by the angle-resolved photoemission spectroscopy measurement. Employing X-ray absorption spectroscopy and density functional theory calculations, it is revealed that the strong interlayer coupling in 2D PdSe 2 originates from the unique directional bonding of Pd d orbitals associated with unexpected Pd 4d 9 configuration, which consequently plays a decisive role for the strong layer-dependency of the band gap., (© 2022 Wiley-VCH GmbH.)

Published

2022

43. Comprehensive and accurate analysis of the working principle in ferroelectric tunnel junctions using low-frequency noise spectroscopy.

Author

Shin W, Min KK, Bae JH, Yim J, Kwon D, Kim Y, Yu J, Hwang J, Park BG, Kwon D, and Lee JH

Abstract

Recently, ferroelectric tunnel junctions (FTJs) have gained extensive attention as possible candidates for emerging memory and synaptic devices for neuromorphic computing. However, the working principles of FTJs remain controversial despite the importance of understanding them. In this study, we demonstrate a comprehensive and accurate analysis of the working principles of a metal-ferroelectric-dielectric-semiconductor stacked FTJ using low-frequency noise (LFN) spectroscopy. In contrast to resistive random access memory, the 1/ f noise of the FTJ in the low-resistance state (LRS) is approximately two orders of magnitude larger than that in the high-resistance state (HRS), indicating that the conduction mechanism in each state differs significantly. Furthermore, the factors determining the conduction of the FTJ in each state are revealed through a systematic investigation under various conditions, such as varying the electrical bias, temperature, and bias stress. In addition, we propose an efficient method to decrease the LFN of the FTJ in both the LRS and HRS using high-pressure forming gas annealing.

Published

2022

44. Investigation of correlative parameters to evaluate EUV lithographic performance of PMMA.

Author

Kim K, Lee JW, Park BG, Oh HT, Ku Y, Lee JK, Lim G, and Lee S

Abstract

Investigations to evaluate the extreme ultraviolet (EUV) lithographic performance of 160 nm thick poly(methyl methacrylate) with 13.5 nm wavelength EUV light were performed using a synchrotron radiation source at Pohang Light Source-II (PLS-II). The single system enabled the determination of the sensitivity, contrast, linear absorption coefficient, critical dimension, and line edge roughness of polymer thin films through tests and measurements. The experimental findings were also compared to theoretical results and those of previously reported studies. According to the results of the dose-to-clear test and transmission measurements, the critical dimension of a line and space pattern (>50 nm) via interference lithography with 250 nm pitch grating agreed well with the results calculated using the lumped parameter model. The experimental results demonstrated that the equipment and test protocol can be used for EUV material infrastructure evaluation in academia and in industry., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

45. Antiobesity therapeutics with complementary dual-agonist activities at glucagon and glucagon-like peptide 1 receptors.

Author

Park BG, Kim GM, Lee HJ, Ryu JH, Kim DH, Seong JY, Kim S, Park ZY, Kim YJ, Lee J, and Kim JI

Subjects

Animals, Glucagon-Like Peptide 1 metabolism, Humans, Mice, Receptors, Glucagon metabolism, Thermogenesis, Glucagon physiology, Glucagon-Like Peptide-1 Receptor agonists

Abstract

Aim: To develop more effective and long-lasting antiobesity and antidiabetic therapeutics by employing novel chemical modifications of glucagon-like peptide-1 receptor (GLP-1R) agonists., Methods: We constructed novel unimolecular dual agonists of GLP-1R and glucagon receptor prepared by linking sEx-4 and native glucagon (GCG) via lysine or triazole [sEx4-GCG(K) and sEx4-GCG(T), respectively] and evaluated their antiobesity and antidiabetic efficacy in the diabetic and obese mouse model., Results: Both sEx4-GCG(K) and sEx4-GCG(T) showed the beneficial metabolic effects of GLP-1 and glucagon: they promoted weight loss and ameliorated insulin resistance and hepatic steatosis. They also increased thermogenesis in brown adipose tissue, and lipolysis and β-oxidation in white adipose tissue, with concomitant suppression of lipogenesis. Furthermore, both dual agonists activated the 5'-AMP-activated protein kinase signalling pathway and prevented palmitate-induced oxidative stress in skeletal muscle cells., Conclusion: Through their complementary dual agonism, sEx4-GCG(T) and sEx4-GCG(K) induce more marked weight loss and metabolic improvements than conventional agonists, and could be developed as novel therapeutic agents for the treatment of obesity and associated metabolic disorders in humans., (© 2021 John Wiley & Sons Ltd.)

Published

2022

46. Photocatalytic Activity of TiO 2 -Doped Fe, Ag, and Ni with N under Visible Light Irradiation.

Author

Park BG

Abstract

Doping with noble metal ions or doping with nitrogen has been attempted to prepare TiO 2 that reacts even in visible light. In this study, TiO 2 was doped with nitrogen and various metal ions instead of noble metals. The TiO 2 photocatalysts doped with metal ions (Fe, Ag, Ni) and nitrogen were prepared by a sol-gel method. Their physicochemical properties were characterized and their photocatalytic activities were investigated under visible light irradiation. In TiO 2 doped with metal ions and nitrogen, the light absorption region was extended to visible light. The photoluminescence intensity was much greater in N/Ni/TiO 2 than in N/Ag/TiO 2 and N/Fe/TiO 2 . The photolysis activities of N/Ni/TiO 2 were the highest in formaldehyde decomposition and methylene blue decomposition. The sterilization efficiency of N/Ni/TiO 2 was the highest in the evaluation test for the inhibition of the proliferation of Pseudomonas aeruginosa . The bandgap of N/Ni/TiO 2 was 2.4 eV, which was significantly lower than that of anatase TiO 2 (3.2 eV). The N/Ni/TiO 2 had a much higher optical intensity than other metal ion-doped TiO 2 , so it was highly active under visible light irradiation.

Published

2021

47. Analytically and empirically consistent characterization of the resistive switching mechanism in a Ag conducting-bridge random-access memory device through a pseudo-liquid interpretation approach.

Author

Choi YJ, Bang S, Kim TH, Hong K, Kim S, Kim S, Cho S, and Park BG

Abstract

A new physical analysis of the filament formation in a Ag conducting-bridge random-access memory (CBRAM) device in consideration of the existence of inter-atomic attractions caused by metal bonding is suggested. The movement of Ag atoms inside the switching layer is characterized hydrodynamically using the Young-Laplace equation during set and reset operations. Both meridional and azimuthal curvatures of the Ag filament protruding from the Ag electrode are accurately calculated to track down the exact shape of the Ag filament with change in the applied voltage. The second-order partial differential equation for the Ag filament geometry is derived from the equation of equilibrium between the electrostatic pressure and the Laplace one. The solution to the equation is numerically obtained, and furthermore, the abrupt set operation in the forming process, bipolar resistive-switching, and the threshold switching operation in the reset operations are successfully simulated in accordance with the numerical solutions. Also, it is demonstrated that the currents extracted from the suggested model show good agreement with the I - V characteristics measured from the fabricated Ag CBRAM device.

Published

2021

48. Electric-field control of field-free spin-orbit torque switching via laterally modulated Rashba effect in Pt/Co/AlO x structures.

Author

Kang MG, Choi JG, Jeong J, Park JY, Park HJ, Kim T, Lee T, Kim KJ, Kim KW, Oh JH, Viet DD, Jeong JR, Yuk JM, Park J, Lee KJ, and Park BG

Abstract

Spin-orbit coupling effect in structures with broken inversion symmetry, known as the Rashba effect, facilitates spin-orbit torques (SOTs) in heavy metal/ferromagnet/oxide structures, along with the spin Hall effect. Electric-field control of the Rashba effect is established for semiconductor interfaces, but it is challenging in structures involving metals owing to the screening effect. Here, we report that the Rashba effect in Pt/Co/AlO x structures is laterally modulated by electric voltages, generating out-of-plane SOTs. This enables field-free switching of the perpendicular magnetization and electrical control of the switching polarity. Changing the gate oxide reverses the sign of out-of-plane SOT while maintaining the same sign of voltage-controlled magnetic anisotropy, which confirms the Rashba effect at the Co/oxide interface is a key ingredient of the electric-field modulation. The electrical control of SOT switching polarity in a reversible and non-volatile manner can be utilized for programmable logic operations in spintronic logic-in-memory devices., (© 2021. The Author(s).)

Published

2021

49. Orbital torque in magnetic bilayers.

Author

Lee D, Go D, Park HJ, Jeong W, Ko HW, Yun D, Jo D, Lee S, Go G, Oh JH, Kim KJ, Park BG, Min BC, Koo HC, Lee HW, Lee O, and Lee KJ

Abstract

The orbital Hall effect describes the generation of the orbital current flowing in a perpendicular direction to an external electric field, analogous to the spin Hall effect. As the orbital current carries the angular momentum as the spin current does, injection of the orbital current into a ferromagnet can result in torque on the magnetization, which provides a way to detect the orbital Hall effect. With this motivation, we examine the current-induced spin-orbit torques in various ferromagnet/heavy metal bilayers by theory and experiment. Analysis of the magnetic torque reveals the presence of the contribution from the orbital Hall effect in the heavy metal, which competes with the contribution from the spin Hall effect. In particular, we find that the net torque in Ni/Ta bilayers is opposite in sign to the spin Hall theory prediction but instead consistent with the orbital Hall theory, which unambiguously confirms the orbital torque generated by the orbital Hall effect. Our finding opens a possibility of utilizing the orbital current for spintronic device applications, and it will invigorate researches on spin-orbit-coupled phenomena based on orbital engineering., (© 2021. The Author(s).)

Published

2021

50. Current-induced manipulation of exchange bias in IrMn/NiFe bilayer structures.

Author

Kang J, Ryu J, Choi JG, Lee T, Park J, Lee S, Jang H, Jung YS, Kim KJ, and Park BG

Abstract

The electrical control of antiferromagnetic moments is a key technological goal of antiferromagnet-based spintronics, which promises favourable device characteristics such as ultrafast operation and high-density integration as compared to conventional ferromagnet-based devices. To date, the manipulation of antiferromagnetic moments by electric current has been demonstrated in epitaxial antiferromagnets with broken inversion symmetry or antiferromagnets interfaced with a heavy metal, in which spin-orbit torque (SOT) drives the antiferromagnetic domain wall. Here, we report current-induced manipulation of the exchange bias in IrMn/NiFe bilayers without a heavy metal. We show that the direction of the exchange bias is gradually modulated up to ±22 degrees by an in-plane current, which is independent of the NiFe thickness. This suggests that spin currents arising in the IrMn layer exert SOTs on uncompensated antiferromagnetic moments at the interface which then rotate the antiferromagnetic moments. Furthermore, the memristive features are preserved in sub-micron devices, facilitating nanoscale multi-level antiferromagnetic spintronic devices., (© 2021. The Author(s).)

Published

2021