Your search keyword '"Cho, Kun"' showing total 51 results

1. Optimized quantification of fatty acids in complex media using advanced analytical techniques.

Author

Jeon, Eunji, Park, Moonhee, Mojumdar, Abhik, Kim, Young Hwan, Choi, Jong‐Soon, and Cho, Kun

Subjects

ESSENTIAL fatty acids, FATTY acids, FATTY acid methyl esters, FLAME ionization detectors, ISOMERS, NONIONIC surfactants, GAS chromatography

Abstract

Rationale: Various medium formulations contain essential fatty acids at concentrations ranging from 10 to 100 mg/L. Accurate and precise lipid measurement in media is crucial for monitoring media quality and conducting studies on lipids in the context of cell culture. This study employed two‐dimensional gas chromatography (GC × GC) analyses to offer enhanced resolution, sensitivity, and separation performance compared to GC. Methods: Quantification of fatty acid methyl esters (FAMEs) in a medium was conducted using GC × GC combined with a high‐resolution mass spectrometer and flame ionization detector, considering potential interference from nonionic surfactant Tween 80, which was precipitated and removed by optimizing the concentration of cobalt thiocyanate (CTA) solution during pretreatment. This advanced analytical approach enabled identification of cis and trans isomers of identical molecular weights and determination of the location and number of double bonds in the same carbon number structure. Results: Our analysis identified 36 FAMEs within the C6–C24 region, and a 5% CTA solution was optimal for efficient removal of Tween 80 during lipid extraction. Additionally, this advanced method minimized FAME contamination and loss during pretreatment, thereby significantly reducing the sample volume required to detect trace levels of FAMEs. This improvement led to a fatty acid recovery rate of 106% while maintaining the average relative standard deviation for the target FAMEs of about 3%. Conclusions: Our research paves the way for future investigation into medium quality control and the role of fatty acids in cell culture. This offers the possibility for economical and effective trace quantification of fatty acids in complex media. [ABSTRACT FROM AUTHOR]

Published

2024

2. Advances in mass spectrometry-based approaches for characterizing monoclonal antibodies: resolving structural complexity and analytical challenges.

Author

Mojumdar, Abhik, Yoo, Hee-Jin, Kim, Duck-Hyun, Park, Jiwon, Park, Su-Jin, Jeon, Eunji, Choi, Sunhee, Choi, Jung Hoon, Park, Moonhee, Bang, Geul, and Cho, Kun

Subjects

MONOCLONAL antibodies, MASS spectrometry, COMPUTER software development, DRUG development, NEW product development

Abstract

Mass spectrometry (MS)-based intact mass analysis and structural characterization of biotherapeutic proteins such as monoclonal antibodies (mAbs) are a crucial characterization approach from upstream drug development to downstream product analysis. Due to various endogenous modifications leading to the structural heterogeneity and several N-linked glycan species resulting in macro-heterogeneity, it is challenging to characterize the mAbs. Hence, it is essential to understand the micro-heterogeneity of such proteins with high level of complexity which may vary in charge, size, or hydrophobicity. The development of high-throughput native separation techniques hyphenated with MS with high sensitivity and excellent mass accuracy has improved the top/middle down analysis, intact mass detection, subunit analysis, enhanced sequence coverage, and accurate localization of site-specific modifications. In this review, we have focused on the critical inroads taken for the improvement in MS-based techniques to resolve the challenges related to analysis of mAbs. Various MS-based techniques and their role in high-order structural analysis and the progress in software development have been explained, and further, the challenges remaining have been discussed. [ABSTRACT FROM AUTHOR]

Published

2024

3. Proteome insights of citric acid-mediated cadmium toxicity tolerance in Brassica napus L.

Author

Mittra, Probir Kumar, Roy, Swapan Kumar, Rahman, Md Atikur, Naimuzzaman, Mollah, Kwon, Soo-Jeong, Yun, Sung Ho, Cho, Kun, Katsube-Tanaka, Tomoyuki, Shiraiwa, Tatsuhiko, and Woo, Sun-Hee

Subjects

RAPESEED, PHYTOCHELATINS, POISONS, GLUTAMINE synthetase, HEAVY metals, CADMIUM, PROTEIN metabolism, SUPEROXIDE dismutase

Abstract

Cadmium (Cd) is a toxic substance that is uptake by plants from soils, Cd easily transfers into the food chain. Considering global food security, eco-friendly, cost-effective, and metal detoxification strategies are highly demandable for sustainable food crop production. The purpose of this study was to investigate how citric acid (CA) alleviates or tolerates Cd toxicity in Brassica using a proteome approach. In this study, the global proteome level was significantly altered under Cd toxicity with or without CA supplementation in Brassica. A total of 4947 proteins were identified using the gel-free proteome approach. Out of these, 476 proteins showed differential abundance between the treatment groups, wherein 316 were upregulated and 160 were downregulated. The gene ontology analysis reveals that differentially abundant proteins were involved in different biological processes including energy and carbohydrate metabolism, CO2 assimilation and photosynthesis, signal transduction and protein metabolism, antioxidant defense, heavy metal detoxification, plant development, and cytoskeleton and cell wall structure in Brassica leaves. Interestingly, several candidate proteins such as superoxide dismutase (A0A078GZ68) l-ascorbate peroxidase 3 (A0A078HSG4), glutamine synthetase (A0A078HLB2), glutathione S-transferase DHAR1 (A0A078HPN8), glutamine synthetase (A0A078HLB2), cysteine synthase (A0A078GAD3), S-adenosylmethionine synthase 2 (A0A078JDL6), and thiosulfate/3-mercaptopyruvate sulfur transferase 2 (A0A078H905) were involved in antioxidant defense system and sulfur assimilation-involving Cd-detoxification process in Brassica. These findings provide new proteome insights into CA-mediated Cd-toxicity alleviation in Brassica, which might be useful to oilseed crop breeders for enhancing heavy metal tolerance in Brassica using the breeding program, with sustainable and smart Brassica production in a metal-toxic environment. [ABSTRACT FROM AUTHOR]

Published

2023

4. Microbe-Responsive Proteomes During Plant–Microbe Interactions Between Rice Genotypes and the Multifunctional Methylobacterium oryzae CBMB20.

Author

Walitang, Denver I., Roy Choudhury, Aritra, Subramanian, Parthiban, Lee, Yi, Choi, Geon, Cho, Kun, Yun, Sung Ho, Jamal, Aysha Rizwana, Woo, Sun-Hee, and Sa, Tongmin

Subjects

PYRICULARIA oryzae, PLANT-microbe relationships, METHYLOBACTERIUM, GENOTYPES, HOST plants, GERMINATION, RICE

Abstract

Background: Rice is colonized by plant growth promoting bacteria such as Methylobacterium leading to mutually beneficial plant–microbe interactions. As modulators of the rice developmental process, Methylobacterium influences seed germination, growth, health, and development. However, little is known about the complex molecular responsive mechanisms modulating microbe-driven rice development. The application of proteomics to rice-microbe interactions helps us elucidate dynamic proteomic responses mediating this association. Results: In this study, a total of 3908 proteins were detected across all treatments of which the non-inoculated IR29 and FL478 share up to 88% similar proteins. However, intrinsic differences appear in IR29 and FL478 as evident in the differentially abundant proteins (DAPs) and their associated gene ontology terms (GO). Successful colonization of M. oryzae CBMB20 in rice resulted to dynamic shifts in proteomes of both IR29 and FL478. The GO terms of DAPs for biological process in IR29 shifts in abundance from response to stimulus, cellular amino acid metabolic process, regulation of biological process and translation to cofactor metabolic process (6.31%), translation (5.41%) and photosynthesis (5.41%). FL478 showed a different shift from translation-related to response to stimulus (9%) and organic acid metabolic acid (8%). Both rice genotypes also showed a diversification of GO terms due to the inoculation of M. oryzae CBMB20. Specific proteins such as peptidyl-prolyl cis–trans isomerase (A2WJU9), thiamine thiazole synthase (A2YM28), and alanine—tRNA ligase (B8B4H5) upregulated in IR29 and FL478 indicate key mechanisms of M. oryzae CBMB20 mediated plant growth promotion in rice. Conclusions: Interaction of Methylobacterium oryzae CBMB20 to rice results in a dynamic, similar, and plant genotype-specific proteomic changes supporting associated growth and development. The multifaceted CBMB20 expands the gene ontology terms and increases the abundance of proteins associated with photosynthesis, diverse metabolic processes, protein synthesis and cell differentiation and fate potentially attributed to the growth and development of the host plant. The specific proteins and their functional relevance help us understand how CBMB20 mediate growth and development in their host under normal conditions and potentially link subsequent responses when the host plants are exposed to biotic and abiotic stresses. [ABSTRACT FROM AUTHOR]

Published

2023

5. Proteome network analysis of skeletal muscle in lignan-enriched nutmeg extract-fed aged mice.

Author

Lee, Je-Ho, Kang, Hyuno, Ban, Gyung-Tae, Kim, Beom Kyu, Lee, JaeHyeon, Hwang, Heeyoun, Yoo, Hwa-Seung, Cho, Kun, and Choi, Jong-Soon

Subjects

PROTEOMICS, SKELETAL muscle, NUTMEG tree, MUSCULAR atrophy, SOLEUS muscle, SARCOPENIA

Abstract

Sarcopenia, characterized by reduced muscle mass and fiber number leading to muscular atrophy, has been associated with serious socioeconomic challenges among the elderly in developed countries. Therefore, preventing sarcopenia could be a promising strategy for achieving a healthy aging society. Nutmeg (Myristica fragrans) has been used as a spice to increase flavor and prevent putrefaction of food. Nutmeg contains various bioactive components that improve muscle activity. To determine the potential effect of lignan-enriched nutmeg extract (LNX) on sarcopenia, LNX (100 mg/kg body weight)-fed aged mice were subjected to forced exercise. Herein, aged (22-month-old) mice fed LNX for three weeks exhibited a shortened and thickened soleus muscle. The ratio of the soleus muscle mass (%) to body weight was significantly increased in LNX-fed aged mice. The relative increase in muscle mass in LNX-fed aged mice improved exercise activities, including rotarod, swimming, and grip strength test results. Proteome profiles of the soleus muscle of LNX-fed mice were used to analyze protein–protein interaction network. Several myosin heavy chain isoforms were found to interact with actin, ACTA1, which functions as a hub protein. Furthermore, the expression of myogenic proteins, such as MYH1, MYH4, and ACTA1, was dose-dependently increased in vivo. In result, our functional proteomic analysis revealed that feeding LNX restored muscle proteins in aged mice. [ABSTRACT FROM AUTHOR]

Published

2023

6. Electroanalytical biosensor based on GOx/FCA/PEG-modified SWCNT electrode for determination of glucose.

Author

Han, Do Kyoung, Li, Cheng Ai, Song, Sung Ho, Cho, Kun, Choi, Jong-Soon, Son, Seong Eun, and Seong, Gi Hun

Subjects

GLUCOSE oxidase, GLUCOSE, BIOSENSORS, CARBON nanotubes, ELECTRODES, OXIDATION of glucose, GLUCOSE analysis

Abstract

This paper describes a simple electrochemical sensing platform based on single-walled carbon nanotube (SWCNT) electrodes for glucose detection. The device fabrication using O2-plasma treatment allows precision and uniformity for the construction of three SWCNT electrodes on the flexible plastic substrate. Glucose assay can be simply accomplished by introducing a glucose sample into the fabricated biosensor. The marked electrocatalytic and biocompatible properties of biosensors based on SWCNT electrodes with the incorporation of ferrocenecarboxylic acid and polyethylene glycol enable effective amperometric measurement of glucose at a low oxidation potential (0.3 V) with low interferences from coexisting species. The device shows efficient electroanalytical performances with high sensitivity (5.5 μA·mM−1·cm−2), good reproducibility (CV less than 3%), and long-term stability (over a month). A linear range of response was found from 0 to 10 mM of glucose with a fast response time of 10 s. This attractive electroanalytical device based on GOx/FCA/PEG/SWCNT electrodes offers a promising system to facilitate a new approach for diverse biosensors and electrochemical devices. [ABSTRACT FROM AUTHOR]

Published

2023

7. Sites and Regulation of L-Type Ca2+ Channel Cav1.2 Phosphorylation in Brain.

Author

Shin, Seok Kyo, Li, Hai Ying, Cho, Kun, Cho, Young Wuk, Lee, Jung-Ha, and Park, Kang-Sik

Subjects

CALCIUM channels, PHOSPHORYLATION, MYOCARDIUM, NEUROPLASTICITY, MASS spectrometry

Abstract

Cav1.2 channel phosphorylation plays an important role in regulating neuronal plasticity by action potential-dependent Ca2+ entry. Most studies of Cav1.2 regulation by phosphorylation have been reported in heart and muscles. Here, we identified phosphorylation sites of neuronal Cav1.2 channel protein purified from rat brain using mass spectrometry. The functional characterization of these phosphorylation sites showed altered voltage-dependent biophysical properties of the channel, without affecting current density. These results show that neuronal Cav1.2 channel is regulated by phosphorylation in a complex mechanism involving multiple phosphorylation sites. [ABSTRACT FROM AUTHOR]

Published

2022

8. Label‐free proteomics approach reveals candidate proteins in rice (Oryza sativa L.) important for ACC deaminase producing bacteria‐mediated tolerance against salt stress.

Author

Roy Choudhury, Aritra, Roy, Swapan Kumar, Trivedi, Pankaj, Choi, Jeongyun, Cho, Kun, Yun, Sung Ho, Walitang, Denver I., Park, Jung‐Ho, Kim, Kiyoon, and Sa, Tongmin

Subjects

RICE, PROTEOMICS, RIBOSOMAL proteins, APOPTOSIS, PLANT proteins, PHOTOSYNTHETIC pigments

Abstract

Summary: The omics‐based studies are important for identifying characteristic proteins in plants to elucidate the mechanism of ACC deaminase producing bacteria‐mediated salt tolerance. This study evaluates the changes in the proteome of rice inoculated with ACC deaminase producing bacteria under salt‐stress conditions. Salt stress resulted in a significant decrease in photosynthetic pigments, whereas inoculation of Methylobacterium oryzae CBMB20 had significantly increased pigment contents under normal and salt‐stress conditions. A total of 76, 51 and 33 differentially abundant proteins (DAPs) were identified in non‐inoculated salt‐stressed plants, bacteria‐inoculated plants under normal and salt stress conditions respectively. The abundances of proteins responsible for ethylene emission and programmed cell death were increased, and that of photosynthesis‐related proteins were decreased in non‐inoculated plants under salt stress. However, bacteria‐inoculated plants had shown higher abundance of antioxidant proteins, RuBisCo and ribosomal proteins that are important for enhancing stress tolerance and improving plant physiological traits. Collectively, salt stress might affect plant physiological traits by impairing photosynthetic machinery and accelerating apoptosis leading to a decline in biomass. However, inoculation of plants with bacteria can assist in enhancing photosynthetic activity, antioxidant activities and ethylene regulation related proteins for attenuating salt‐induced apoptosis and sustaining growth and development. [ABSTRACT FROM AUTHOR]

Published

2022

9. Shotgun proteomics of extracellular matrix in late senescent human dermal fibroblasts reveals a down-regulated fibronectin-centered network.

Author

Cho, Kun, Yang, Kyeong Eun, Nam, Soo-Bin, Lee, Song-I., Yeo, Eui-Ju, and Choi, Jong-Soon

Abstract

Extracellular matrix (ECM) proteins play a pivotal role in cell growth and differentiation. To characterize aged ECM proteins, we compared the proteomes by shotgun method of young (passage #15) and late senescent (passage #40) human dermal fibroblasts (HDFs) using SDS-PAGE coupled with LC–MS/MS. The relative abundance of identified proteins was determined using mol% of individual proteins as a semi-quantitative index. Fifteen ECM proteins including apolipoprotein B (APOB) and high-temperature requirement factor 1 (HTRA1) were up-regulated, whereas 50 proteins including fibronectin 1 (FN1) and vitronectin (VTN) were down-regulated in late senescent HDFs. The identified ECM proteins combined with plasma membrane were queried to construct the protein–protein interaction network using Ingenuity Pathways Analysis, resulting in a distinct FN1-centered network. Of differentially abundant ECM proteins in shotgun proteomics, the protein levels of FN1, VTN, APOB, and HTRA1 were verified by immunoblot analysis. The results suggest that the aging process in HDFs might be finally involved in the impaired FN1 regulatory ECM network combined with altered interaction of neighboring proteins. Shotgun proteomics of highly aged HDFs provides insight for further studies of late senescence-related alterations in ECM proteins. [ABSTRACT FROM AUTHOR]

Published

2022

10. Analysis of hair and plasma samples for methotrexate (MTX) and metabolite using high‐performance liquid chromatography triple quadrupole mass spectrometry (LC‐MS/MS) detection.

Author

Kim, Duck Hyun, Yoo, Yeong Suk, Yoo, Hee Jin, Choi, Yoon Ji, Kim, Soon Ae, Sheen, Dong‐Hyuk, Lee, Sang Kwang, Lim, Mi Kyoung, and Cho, Kun

Subjects

HAIR analysis, HIGH performance liquid chromatography, METABOLITES, MASS spectrometry, METHOTREXATE, ERYTHROCYTES, HAIR cells

Abstract

Methotrexate (MTX), a folate antagonist, is the anchor drug used to treat several diseases. Therapeutic effects are attributed to intracellular levels of various methotrexate conjugates that are present in the cell as polyglutamates (MTX‐Glu). The present study was conducted to develop a new liquid chromatography‐electrospray ionization‐tandem mass spectrometry (LC‐ESI‐MS/MS)‐based assay to separately quantitate the MTX‐Glu in hair cells, red blood cells, and serum using internal standards. Sample preparation consisted of extraction with an organic solution followed by solid‐phase extraction. The presented methodology was applied for the analysis of methotrexate and its polyglutamates in hair cells, red blood cells, and serum obtained from clinical patients. The developed LC‐ESI‐MS/MS method for the quantitative measurement of MTX‐Glu was both sensitive and precise within the clinically relevant range. This method is possibly be superior with respect to sensitivity, selectivity, and speed than all previously described approaches and can be easily applied in routine clinical tests owing to the combination of a simple pretreatment process with robust LC‐MS/MS. [ABSTRACT FROM AUTHOR]

Published

2021

11. Recent developments in pre-treatment and analytical techniques for synthetic polymers by MALDI-TOF mass spectrometry.

Author

Yoo, Hee-Jin, Kim, Duck-Hyun, Shin, DongJin, Oh, YoonSeok, Lee, SungJun, Lee, Jae Yong, Choi, Yoon-Ji, Lee, Seung Hwa, Lee, Kwang-Sik, Kim, YangSun, and Cho, Kun

Published

2020

12. Exploring a Brain-Based Cancelable Biometrics for Smart Headwear: Concept, Implementation, and Evaluation.

Author

Lin, Feng, Cho, Kun Woo, Song, Chen, Jin, Zhanpeng, and Xu, Wenyao

Subjects

BIOMETRY, BIOMETRIC identification, HEADGEAR, VISUAL perception, ERROR rates

Abstract

Biometric authentication offers advantages over current security practices. Unlike keys and tokens, biometrics are never lost or stolen. Unlike passwords, biometrics cannot be forgotten. However, existing biometric systems are with controversy: once divulged, they are compromised forever. To this end, this paper explores a truly cancelable brain-based biometric system for the first time. Specifically, we present a new psychophysiological protocol via non-volitional brain response for trustworthy user authentication, with an application example of smart headwear. More specifically, we address the following research challenges in a theoretical and experimental combined manner: (1) how to generate reliable brain responses with sophisticated visual stimuli; (2) how to acquire effective brain response and analyze unique features in them for authentication; and (3) how to reset and change brain biometrics when the current biometric credential is divulged. To evaluate the performance of the proposed system, we conducted a pilot study and achieved an $f$ f -score accuracy of 95.46 percent and equal error rate (EER) of 2.503 percent, thereby demonstrating the potential feasibility of neurofeedback based biometrics for smart headwear applications. Further, the cancelability study proves the effectiveness of the reset brain password. To the best of our knowledge, it is the first in-depth research study on truly cancelable brain biometrics. [ABSTRACT FROM AUTHOR]

Published

2020

13. A stimulus-response based EEG biometric using mallows distance.

Author

Chen, Baicheng, Cho, Kun Woo, Xu, Chenhan, Li, Zhengxiong, Lin, Feng, Jin, Zhanpeng, and Xu, Wenyao

Published

2020

14. Author Correction: Comparative Proteomic Analysis in Scar-Free Skin Regeneration in Acomys cahirinus and Scarring Mus musculus.

Author

Yoon, Jung Hae, Cho, Kun, Garrett, Timothy J., Finch, Paul, and Maden, Malcolm

Subjects

SKIN regeneration, ACOMYS

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper. [ABSTRACT FROM AUTHOR]

Published

2020

15. Comparative Proteomic Analysis in Scar-Free Skin Regeneration in Acomys cahirinus and Scarring Mus musculus.

Author

Yoon, Jung Hae, Cho, Kun, Garrett, Timothy J., Finch, Paul, and Maden, Malcolm

Subjects

PROTEOMICS, SKIN regeneration, ENDOCYTOSIS, ACOMYS, PROTEASOMES, MICE physiology

Abstract

The spiny mouse, Acomys cahirinus displays a unique wound healing ability with regeneration of all skin components in a scar-free manner. To identify orchestrators of this regenerative response we have performed proteomic analyses of skin from Acomys and Mus musculus before and after wounding. Of the ~2000 proteins identified many are expressed at similar levels in Acomys and Mus, but there are significant differences. Following wounding in Mus the complement and coagulation cascades, PPAR signaling pathway and ECM-receptor interactions predominate. In Acomys, other pathways predominate including the Wnt, MAPK, the ribosome, proteasome, endocytosis and tight junction pathways. Notable among Acomys specific proteins are several ubiquitin-associated enzymes and kinases, whereas in Mus immuno-modulation proteins characteristic of inflammatory response are unique or more prominent. ECM proteins such as collagens are more highly expressed in Mus, but likely more important is the higher expression of matrix remodeling proteases in Acomys. Another distinctive difference between Acomys and Mus lies in the macrophage-produced arginase 1 is found in Mus whereas arginase 2 is found in Acomys. Thus, we have identified several avenues for experimental approaches whose aim is to reduce the fibrotic response that the typical mammal displays in response to wounding. [ABSTRACT FROM AUTHOR]

Published

2020

16. Inter-Laboratory Validation of Method to Determine Residual Enrofloxacin in Chicken Meat.

Author

Chung, Joo Hee, Cho, Kun, Kim, Seongnyeon, Jeon, So Hyeon, Shin, Jeoung Hwa, Lee, Jueun, and Ahn, Yun Gyong

Subjects

CHICKENS, MEAT, FLUOROQUINOLONES, LIQUID-liquid extraction, LIQUID chromatography-mass spectrometry

Abstract

An inter-laboratory study was performed to evaluate the performance of a method developed for the quantification of enrofloxacin in chicken meat. Liquid-liquid extraction combined with a clean-up procedure based on solid-phase extraction followed by a liquid chromatography-tandem mass spectrometric method was used by three individual laboratories. All the investigated results of calibration curves and limits of quantification were within the acceptable range for regulatory testing of enrofloxacin. The three laboratories received blind a certified reference material to analyze in triplicate and assess using statistical analysis. From the results, no statistical differences were found between the laboratories in the precision of the method. Additionally, all the results of the z-score, which is an indication of fixed interval bias criteria for accuracy from the laboratories, fell within the allowable limits (±2σ). Based on this proficiency testing by inter-laboratory comparisons, the analytical method including the sample preparation step was proven to be applicable. [ABSTRACT FROM AUTHOR]

Published

2018

17. Molecular profiling of a y-type high molecular weight glutenin subunit at <italic>Glu-D1</italic> locus from a North Korean landrace wheat (<italic>Triticum aestivum</italic> L.).

Author

Cho, Seong-Woo, Cho, Kun, Bang, Geul, and Park, Chul Soo

Subjects

WHEAT proteins, GLUTELINS, PROTEOMICS, MOLECULAR weights, HIGH performance liquid chromatography

Abstract

The objective of this study is to demonstrate characteristics of a y-type high molecular weight glutenin subunit (D1y HMW-GS) at Glu-D1 found in IT212991, a North Korean landrace wheat compared to Dy12 and Dy12.K as a novel HMW-GS in JB20, a Korean wheat line onto molecular analyses as PCR, cloning, DNA sequencing, and RP-HPLC and proteomic analyses as sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), two-dimensional electrophoresis (2-DE), Fourier-transform mass spectrometry (LTQ-FT-MS). The D1y of IT212991 was identified to have faster electrophoretic mobility than that of Dy12 by SDS-PAGE. HMW-GS components of IT212991 were identified to be different from Chinese Spring (CS) and JB20, a Korean wheat line by RP-HPLC. The result of mass spectrometric analysis, the D1y of IT212991 (68510.8 Da) was similar to that of Dy12.K of JB20 (68514.4 Da), and lower than Dy12 of CS (69151.2 Da). The result of LTQ-FT-MS based on 2-DE, the D1y of IT212991 was identified to be similar with Dy12 corresponding to the protein function as ‘Glutenin, high molecular weight subunit 12’. The D1y encoding the D1y of IT212991 was identified to consist of 652 amino acid sequences corresponding to 1962 bp according to DNA sequencing. The gene was identified to have a insertion and deletion (InDel) corresponding to 18 bp sequences ‘AACAGGACAAGGGCAACA’ compared to ordinary Dy12 gene. It was demonstrated that the D1y of IT212991 is the same as Dy12.K. [ABSTRACT FROM AUTHOR]

Published

2018

18. Thermal handprint analysis for forensic identification using Heat-Earth Mover's Distance.

Author

Cho, Kun Woo, Lin, Feng, Song, Chen, Xu, Xiaowei, Gu, Fuxing, and Xu, Wenyao

Published

2016

19. Characterization of a novel y-type high molecular weight glutenin subunit at Glu-D1 locus.

Author

Cho, Seong-Woo, Roy, Swapan, Chun, Jae-Buhm, Cho, Kwang-Min, Cho, Kun, and Park, Chul

Abstract

Glu-D1y12.K as a novel y-type subunit was found in HMW-GSs encoded at the Glu-D1 locus in the JB20, which a Korean wheat line from F lines crossed by Keumkang with Glu-D1d and Chinese Spring (CS) with Glu-D1a alleles. This novel subunit shows faster electrophoretic mobility and lower molecular weight than Dy12 subunit on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The result of linear ion-trap and Fourier-transform mass spectrometry (LTQ-FT-MS) based on two-dimensional electrophoresis (2-DE) showed that the Dy12.K subunit has high similarity against protein ID: P08488 (GLT3_WHEAT) as 'Glutenin, high molecular weight subunit 12' form UniProtKB. The gene of the Glu-1Dy12.K subunit is composed of 1962 nucleotide base pairs containing open reading frame (ORF) as 652 amino acids corresponding to about 70.1 kDa. It has four indels (36 bp insertions: two repeated 18 and 24 bp deletion: two deletions with 6 + 18 bp) and 21 SNPs compared to Glu-1Dy10 (GI: 164457872 in NCBI), and one deletion (18 bp) and three SNPs compared to Glu-1Dy12 (GI: 1036031968) by DNA markers. Consequentially, in comparison with Dy10, 13 SNPs were non-synonymous SNPs and eight SNPs were synonymous SNPs of 21 SNPs. In comparison with Dy12, only one SNP was non-synonymous SNP of three SNPs. Furthermore, the deduced peptide sequences as 'TGQGQQ' corresponding to 'AACAGGACAAGGGCAACA' are deleted only in the Dy12.K subunit. [ABSTRACT FROM AUTHOR]

Published

2017

20. Overexpression of the Bx7 high molecular weight glutenin subunit on the Glu- B1 locus in a Korean wheat landrace.

Author

Cho, Seong-Woo, Roy, Swapan, Chun, Jae-Buhm, Cho, Kun, and Park, Chul

Subjects

GENETIC overexpression, MOLECULAR weights, GLUTELINS, GENETIC markers, PROTEIN expression, POLYACRYLAMIDE gel electrophoresis

Abstract

The Glu- B1al (Bx7 + By8) allele is important for bread-making quality. The allele was found in a Korean wheat landrace using specific DNA markers. Molecular analyses were conducted to identify the overexpressed Bx7 (Bx7) subunit of the allele. The Korean wheat landrace (accession ID: IT166460) showed a similar protein expression level of Bx7 subunit, i.e., overexpression of Bx7 subunit towards cv. Glenlea, Canadian Western Red Spring wheat, which harbors Bx7 subunit of Glu- B1al as detected on SDS-PAGE (sodium dodecyl sulfate poly-acrylamide gel electrophoresis). In addition, 2-DE (two-dimensional electrophoresis) analysis revealed similar protein expression patterns of the Bx7 subunit regions of IT166460 and Glenlea. The proportion of Bx7 to total HMW-GSs (high molecular weight glutenin subunits) in IT166460 (56.17 ± 0.22%) was higher than that of Chinese Spring (34.75 ± 1.03%) and even that of Glenlea (46.25 ± 1.76%) as assessed by RP-HPLC (reverse-phase high-performance liquid chromatography). Overexpression of Bx7 subunit was caused by gene duplication and indels of the promoter region of the Bx7 gene. IT166460 attained the 43 bp indel of the promoter region, as did Glenlea, i.e., the amplicon size of IT166460 was the same as that of Glenlea. In addition, the nucleotides present in the duplicated gene in IT166460 were the same as those in Glenlea. Bx7 subunit is critical for dough strength. However, most wheat accessions harboring the subunit are distributed in America. Furthermore, most Korean wheats have little genetic variation in glutenin composition and are associated with inferior bread quality. Hence, IT166460 could be used to improve bread-making quality in the Korean wheat breeding program. [ABSTRACT FROM AUTHOR]

Published

2017

21. Mechano-active tissue scaffold system based on a magnetic nanoparticle embedded nanofibrous membrane.

Author

Fang, Sheng-Po, Shang, Hulan, Jao, Pit Fee, Kim, Kyoung-Tae, Kim, Gloria J., Yoon, Jung H., Cho, Kun, Katz, Adam J., and Yoon, Yong-Kyu YK

Published

2014

22. Fabrication of carbon nanofibrous microelectrode array (CNF-MEA) using nanofiber immersion photolithography.

Author

Jao, Pit Fee, Franca, Eric, Fang, Sheng-Po, Yoon, Junghae, Cho, Kun, David, E., Kim, Gloria, Wheeler, Bruce, and Yoon, Yong-Kyu

Published

2014

23. Etendue efficient illuminator with a retro-reflecting aperture.

Author

Kim, Dae-Sik, Sokolov, Kirill, Cho, Kun Ho, and Nho, Ji Hwan

Published

2004

24. Structural basis for the recognition of muramyltripeptide by Helicobacter pylori Csd4, a D,L-carboxypeptidase controlling the helical cell shape.

Author

Kim, Hyoun Sook, Kim, Jieun, Im, Ha Na, An, Doo Ri, Lee, Mijoon, Hesek, Dusan, Mobashery, Shahriar, Kim, Jin Young, Cho, Kun, Yoon, Hye Jin, Han, Byung Woo, Lee, Byung Il, and Suh, Se Won

Subjects

TRIPEPTIDES, HELICOBACTER pylori, CARBOXYPEPTIDASES, CELL morphology, PEPTIDOGLYCAN hydrolase, PEPTIDOGLYCANS, PROTEIN structure

Abstract

Helicobacter pylori infection causes a variety of gastrointestinal diseases, including peptic ulcers and gastric cancer. Its colonization of the gastric mucosa of the human stomach is a prerequisite for survival in the stomach. Colonization depends on its motility, which is facilitated by the helical shape of the bacterium. In H. pylori, cross-linking relaxation or trimming of peptidoglycan muropeptides affects the helical cell shape. Csd4 has been identified as one of the cell shape-determining peptidoglycan hydrolases in H. pylori. It is a Zn2+-dependent D,L-carboxypeptidase that cleaves the bond between the γ-D-Glu and the mDAP of the non-cross-linked muramyltripeptide (muramyl-L-Ala-γ-D-Glu- mDAP) of the peptidoglycan to produce the muramyldipeptide (muramyl-L-Ala-γ-D-Glu) and mDAP. Here, the crystal structure of H. pylori Csd4 (HP1075 in strain 26695) is reported in three different states: the ligand-unbound form, the substrate-bound form and the product-bound form. H. pylori Csd4 consists of three domains: an N-terminal D,L-carboxypeptidase domain with a typical carboxypeptidase fold, a central β-barrel domain with a novel fold and a C-terminal immunoglobulin-like domain. The D,L-carboxypeptidase domain recognizes the substrate by interacting primarily with the terminal mDAP moiety of the muramyltripeptide. It undergoes a significant structural change upon binding either mDAP or the mDAP-containing muramyltripeptide. It it also shown that Csd5, another cell-shape determinant in H. pylori, is capable of interacting not only with H. pylori Csd4 but also with the dipeptide product of the reaction catalyzed by Csd4. [ABSTRACT FROM AUTHOR]

Published

2014

25. Profiling of mitochondrial proteome in wheat roots.

Author

Kim, Da-Eun, Roy, Swapan, Kamal, Abu, Cho, Kun, Kwon, Soo, Cho, Seong-Woo, Park, Chul-Soo, Choi, Jong-Soon, Komatsu, Setsuko, Lee, Moon-Soon, and Woo, Sun-Hee

Abstract

Mitochondria are important organelles for cellular respiration within the eukaryotic cell and have many important functions including vitamin synthesis, amino acid metabolism and photorespiration. To investigate the mitochondrial proteome of the roots of wheat seedlings, a systematic and targeted analysis were carried out on the mitochondrial proteome from 15 day-old wheat seedling root material. Mitochondria were isolated by Percoll gradient centrifugation; and extracted proteins were disassociated and analyzed by Tricine SDS-PAGE couple to LTQ-FTICR mass spectrometry. From the isolated the sample, 184 proteins were identified which is composed of 140 proteins as mitochondria and 44 proteins as other subcellular proteins that are predicted by the freeware sub-cellular predictor. The identified proteins in mitochondria were functionally classified into 12 classes using the ProtFun 2.2 servers based on biological processes. Proteins were shown to be involved in amino acid biosynthesis (17.1 %), biosynthesis of cofactors (6.4 %), cell envelope (11.4 %), central intermediary metabolism (10 %), energy metabolism (20 %), fatty acid metabolism (0.7 %), purines and pyrimidines (5.7 %), regulatory functions (0.7 %), replication and transcription (1.4 %), translation (22.1 %), transport and binding (1.4 %), and unknown (2.8 %). These results indicate that many of the protein components present and functions of identifying proteins are common to other profiles of mitochondrial proteins performed to date. These results are provided the extensive and noble clues, to our knowledge, of mitochondrial proteins from wheat roots. [ABSTRACT FROM AUTHOR]

Published

2014

26. Proteomic analysis of the effect of retinoic acids on the human breast cancer cell line MCF-7.

Author

Kamal, Abu, Han, Baek, Choi, Jong-Soon, Cho, Kun, Kim, Sun, Kim, Won, Lee, Sang, and Bae, Kwang-Hee

Abstract

Breast cancer is the most common type of cancer in women in many areas and is increasing found in developing countries, where the majority of cases are diagnosed in late stages. Retinoic acids, through their associated nuclear receptors, exert intoxicating effects on cell growth, differentiation and apoptosis, and hold significant promise in relation to cancer therapy and chemoprevention. To enhance our understanding of the molecular mechanisms associated with retinoic acids in the breast cancer cell line MCF-7 in a time-dependent manner, we conducted a proteomic analysis of MCF-7 cells using the 2-DE couple with high-throughput mass spectrometry and bioinformatics tools. In the 2-DE patterns of MCF-7 cells treated with retinoic acid in a time-dependent manner, 35 protein spots were found to be differentially expressed. These were 17 increased, 4 decreased, and 14 unevenly expressed protein spots, all of which were analyzed using LTQ-FTICR mass spectrometry. Furthermore, five candidate proteins, up-regulated, were validated by western blotting. These were nucleoredoxin, latexin, aminomethyltransferase, translationally controlled one tumor protein, and rab GDP dissociation inhibitor β. These observations represent novel findings leading to new insight into the exact mechanism behind the effect of retinoic acids in MCF-7 cells while also identifying possible therapeutic targets for breast cancer diagnosis and novel drug development paths for the treatment of this disease. [ABSTRACT FROM AUTHOR]

Published

2014

27. Identification of triclosan-degrading bacteria in a triclosan enrichment culture using stable isotope probing.

Author

Lee, Do, Cho, Kun-Ching, and Chu, Kung-Hui

Subjects

TRICLOSAN, ANTI-infective agents, POLLUTANTS, BIODEGRADATION, PROTEOBACTERIA

Abstract

Triclosan, a widely used antimicrobial agent, is an emerging contaminant in the environment. Despite its antimicrobial character, biodegradation of triclosan has been observed in pure cultures, soils and activated sludge. However, little is known about the microorganisms responsible for the degradation in mixed cultures. In this study, active triclosan degraders in a triclosan-degrading enrichment culture were identified using stable isotope probing (SIP) with universally C-labeled triclosan. Eleven clones contributed from active microorganisms capable of uptake the C in triclosan were identified. None of these clones were similar to known triclosan-degraders/utilizers. These clones distributed among α- , β- , or γ-Proteobacteria: one belonging to Defluvibacter ( α-Proteobacteria), seven belonging to Alicycliphilus ( β-Proteobacteria), and three belonging to Stenotrophomonas ( γ-Proteobacteria). Successive additions of triclosan caused a significant shift in the microbial community structure of the enrichment culture, with dominant ribotypes belonging to the genera Alicycliphilus and Defluvibacter. Application of SIP has successfully identified diverse uncultivable triclosan-degrading microorganisms in an activated sludge enrichment culture. The results of this study not only contributed to our understanding of the microbial ecology of triclosan biodegradation in wastewater, but also suggested that triclosan degraders are more phylogenetically diverse than previously reported. [ABSTRACT FROM AUTHOR]

Published

2014

28. Proteome analysis of roots of wheat seedlings under aluminum stress.

Author

Oh, Myeong, Roy, Swapan, Kamal, Abu, Cho, Kun, Cho, Seong-Woo, Park, Chul-Soo, Choi, Jong-Soon, Komatsu, Setsuko, and Woo, Sun-Hee

Abstract

The root apex is considered the first sites of aluminum (Al) toxicity and the reduction in root biomass leads to poor uptake of water and nutrients. Aluminum is considered the most limiting factor for plant productivity in acidic soils. Aluminum is a light metal that makes up 7 % of the earth's scab dissolving ionic forms. The inhibition of root growth is recognized as the primary effect of Al toxicity. Seeds of wheat cv. Keumkang were germinated on petridish for 5 days and then transferred hydroponic apparatus which was treated without or with 100 and 150 μM AlCl for 5 days. The length of roots, shoots and fresh weight of wheat seedlings were decreased under aluminum stress. The concentration of K, Mg and Ca were decreased, whereas Al and PO concentration was increased under aluminum stress. Using confocal microscopy, the fluorescence intensity of aluminum increased with morin staining. A proteome analysis was performed to identify proteins, which are responsible to aluminum stress in wheat roots. Proteins were extracted from roots and separated by 2-DE. A total of 47 protein spots were changed under Al stress. Nineteen proteins were significantly increased such as sadenosylmethionine, oxalate oxidase, malate dehydrogenase, cysteine synthase, ascorbate peroxidase and/or, 28 protein spots were significantly decreased such as heat shock protein 70, O-methytransferase 4, enolase, and amylogenin. Our results highlight the importance and identification of stress and defense responsive proteins with morphological and physiological state under Al stress. [ABSTRACT FROM AUTHOR]

Published

2014

29. Profiling and semiquantitative analysis of the cell surface proteome in human mesenchymal stem cells.

Author

Lee, Sang, Kim, Jae, Kim, Sung-Soo, Kang, Taewook, Park, Nam, Kwon, Kyung-Hoon, Lee, Zee, Suh-Kim, Hae, Cho, Kun, Yun, Su, Han, Ji, Yoo, Jong, An, Hyun, and Park, Young

Subjects

CELL membranes, MESENCHYMAL stem cells, CELL proliferation, GEL electrophoresis, LIQUID chromatography-mass spectrometry, ELECTROSPRAY ionization mass spectrometry

Abstract

Mulitpotent mesenchymal stem cells (MSCs) derived from human bone marrow are promising candidates for the development of cell therapeutic strategies. MSC surface protein profiles provide novel biological knowledge concerning the proliferation and differentiation of these cells, including the potential for identifying therapeutic targets. Basic fibroblast growth factor (bFGF) affects cell surface proteins, which are associated with increased growth rate, differentiation potential, as well as morphological changes of MSCs in vitro. Cell surface proteins were isolated using a biotinylation-mediated method and identified using a combination of one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis and mass spectrometry. The resulting gel lines were cut into 20 bands and digested with trypsin. Each tryptic fragment was analyzed by liquid chromatography-electrospray ionization tandem mass spectrometry. Proteins were identified using the Mascot search program and the International Protein Index human database. Noble MSC surface proteins ( n = 1,001) were identified from cells cultured either with ( n = 857) or without ( n = 667) bFGF-containing medium in three independent experiments. The proteins were classified using FatiGO to elucidate their function. We also confirmed the proteomics results using Western blotting and immunofluorescence microscopic analysis. The nature of the proteins identified makes it clear that MSCs express a wide variety of signaling molecules, including those related to cell differentiation. Among the latter proteins, four Ras-related Rab proteins, laminin-R, and three 14-3-3 proteins that were fractionated from MSCs cultured on bFGF-containing medium are implicated in bFGF-induced signal transduction of MSCs. Consequently, these finding provide insight into the understanding of the surface proteome of human MSCs. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2013

30. Hrp3 controls nucleosome positioning to suppress non-coding transcription in eu- and heterochromatin.

Author

Shim, Young Sam, Choi, Yoonjung, Kang, Keunsoo, Cho, Kun, Oh, Seunghee, Lee, Junwoo, Grewal, Shiv I S, and Lee, Daeyoup

Subjects

CHROMATIN, GENETIC transcription, GENETIC code, HETEROCHROMATIN, CHROMOSOMES, ANTISENSE genetics

Abstract

The positioning of the nucleosome by ATP-dependent remodellers provides the fundamental chromatin environment for the regulation of diverse cellular processes acting on the underlying DNA. Recently, genome-wide nucleosome mapping has revealed more detailed information on the chromatin-remodelling factors. Here, we report that the Schizosaccharomyces pombe CHD remodeller, Hrp3, is a global regulator that drives proper nucleosome positioning and nucleosome stability. The loss of Hrp3 resulted in nucleosome perturbation across the chromosome, and the production of antisense transcripts in the hrp3? cells emphasized the importance of nucleosome architecture for proper transcription. Notably, perturbation of the nucleosome in hrp3 deletion mutant was also associated with destabilization of the DNA-histone interaction and cell cycle-dependent alleviation of heterochromatin silencing. Furthermore, the effect of Hrp3 in the pericentric region was found to be accomplished via a physical interaction with Swi6, and appeared to cooperate with other heterochromatin factors for gene silencing. Taken together, our data indicate that a well-positioned nucleosome by Hrp3 is important for the spatial-temporal control of transcription-associated processes. [ABSTRACT FROM AUTHOR]

Published

2012

31. Changes in physiology and protein abundance in salt-stressed wheat chloroplasts.

Author

Kamal, Abu, Cho, Kun, Kim, Da-Eun, Uozumi, Nobuyuki, Chung, Keun-Yook, Lee, Sang, Choi, Jong-Soon, Cho, Seong-Woo, Shin, Chang-Seob, and Woo, Sun

Abstract

Leaves are the final site of salinity perception through the roots. To better understand how wheat chloroplasts proteins respond to salt stress, the study aimed to the physiochemical and comparative proteomics analysis. Seedlings (12-days-old) were exposed to 150 mM NaCl for 1, 2, or 3 days. Na ions were rapid and excessively increase in roots, stems and leaves. Photosynthesis and transpiration rate, stomatal conductance, and relative water content decreased whereas the level of proline increased. Statistically significant positive correlations were found among the content of hydrogen peroxide, activity of catalase, and superoxide dismutase under salt stress in wheat. Protein abundance within the chloroplasts was examined by two-dimensional electrophoresis. More than 100 protein spots were reproducibly detected on each gel, 21 protein spots were differentially expressed during salt treatment. Using linear quadruple trap-Fourier transform ion cyclotron resonance (LTQ-FTICR) hybrid mass spectrometry, 65 unique proteins assigned in the differentially abundant spots. Most proteins were up-regulated at 2 and 3 days after being down-regulated at 1 day. Others showed only slight responses after 3 days of treatment, including Rubisco, glutamate dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase, isocitrate dehydrogenase, photosystem I, and pyridoxal biosynthesis protein PDX1.2 and PDX1.3. The ATP synthase (α, β, and γ) and V-type proton ATPase subunits were down-regulated resulting showed negative impact by Na on the photosynthetic machinery. This ephemeral increase and subsequent decrease in protein contents may demonstrate a counterbalancing influence of identified proteins. Several proteins such as cytochrome b6-f (Cyt b6-f), germin-like-protein, the γ-subunit of ATP synthase, glutamine synthetase, fructose-bisphosphate aldolase, S-adenosylmethionine synthase, carbonic anhydrase were gradually up-regulated during the period of treatment, which can be identified as marker proteins. [ABSTRACT FROM AUTHOR]

Published

2012

32. Towards an understanding of wheat chloroplasts: a methodical investigation of thylakoid proteome.

Author

Kamal, Abu, Cho, Kun, Komatsu, Setsuko, Uozumi, Nobuyuki, Choi, Jong-Soon, and Woo, Sun

Abstract

We utilized Percoll density gradient centrifugation to isolate and fractionate chloroplasts of Korean winter wheat cultivar cv. Kumgang ( Triticum aestivum L.). The resulting protein fractions were separated by one dimensional polyacrylamide gel electrophoresis (1D-PAGE) coupled with LTQ-FTICR mass spectrometry. This enabled us to detect and identify 767 unique proteins. Our findings represent the most comprehensive exploration of a proteome to date. Based on annotation information from the UniProtKB/Swiss-Prot database and our analyses via WoLF PSORT and PSORT, these proteins are localized in the chloroplast (607 proteins), chloroplast stroma (145), thylakoid membrane (342), lumens (163), and integral membranes (166). In all, 67% were confirmed as chloroplast thylakoid proteins. Although nearly complete protein coverage (89% proteins) has been accomplished for the key chloroplast pathways in wheat, such as for photosynthesis, many other proteins are involved in regulating carbon metabolism. The identified proteins were assigned to 103 functional categories according to a classification system developed by the iProClass database and provided through Protein Information Resources. Those functions include electron transport, energy, cellular organization and biogenesis, transport, stress responses, and other metabolic processes. Whereas most of these proteins are associated with known complexes and metabolic pathways, about 13% of the proteins have unknown functions. The chloroplast proteome contains many proteins that are localized to the thylakoids but as yet have no known function. We propose that some of these familiar proteins participate in the photosynthetic pathway. Thus, our new and comprehensive protein profile may provide clues for better understanding that photosynthetic process in wheat. [ABSTRACT FROM AUTHOR]

Published

2012

33. Radon exposure assessment for underground workers: a case of Seoul Subway Police officers in Korea.

Author

Song, Myeong Han, Chang, Byung-Uck, Kim, Yongjae, and Cho, Kun-Woo

Subjects

RADON, POLICE, SUBWAY stations

Abstract

The objective of this study is the systematic and individual assessment of the annual effective dose due to inhaled radon for the Seoul Subway Police officers, Korea. The annual average radon concentrations were found to be in the range of 18.9–114 Bq·m−3 in their workplaces. The total annual effective doses which may likely to be received on duty were assessed to be in the range of 0.41–1.64 mSv·y−1. These were well below the recommended action level 10 mSv·y−1 by ICRP. However, the effective doses were higher than subway station staff in Seoul, Korea. [ABSTRACT FROM PUBLISHER]

Published

2011

34. Sequential Fe3O4/TiO2 enrichment for phosphopeptide analysis by liquid chromatography/tandem mass spectrometry.

Author

Choi, Sunkyu, Kim, Jaeyoon, Cho, Kun, Park, Gunwook, Yoon, Jong Hyuk, Park, Sehoon, Yoo, Jong Shin, Ryu, Sung Ho, Kim, Young Hwan, and Kim, Jeongkwon

Published

2010

35. Differential expression of cell surface proteins in human bone marrow mesenchymal stem cells cultured with or without basic fibroblast growth factor containing medium.

Author

Lee, Sang Kwang, Kim, Yongtae, Kim, Sung-Soo, Lee, Jeong Hwa, Cho, Kun, Lee, Sang Sook, Lee, Zee-Won, Kwon, Kyung-Hoon, Kim, Young Hye, Suh-Kim, Haeyoung, Yoo, Jong Shin, and Park, Young Mok

Published

2009

36. Models of Solute Aggregation Using Cellular Automata.

Author

Kier, Lemont B., Cheng, Cho-Kun, and Nelson, Jean D.

Published

2009

37. Cellular Automata Models of the Influences on Solute Diffusion through Water.

Author

Kier, Lemont B., Cheng, Cho-Kun, and Nelson, Jean D.

Published

2009

38. Coupling of TiO2-mediated enrichment and on-bead guanidinoethanethiol labeling for effective phosphopeptide analysis by matrix-assisted laser desorption/ionization mass spectrometry.

Author

Ahn, Yeong Hee, Ji, Eun Sun, Lee, Ji Yeon, Cho, Kun, and Yoo, Jong Shin

Published

2007

39. Efficient enrichment and desalting of protein digests using magnetic mesocellular carbon foams in matrix-assisted laser desorption/ionization mass spectrometry.

Author

Kim, Young-Pil, Cho, Kun, Lee, Dohoon, Piao, Yunxian, Ahn, Yeong Hee, Yoo, Jong Shin, Hyun, Taeghwan, and Kim, Hak-Sung

Published

2007

40. Cellular-Automata Models of Solid-Liquid Interfaces.

Author

Cheng, Cho-Kun and Kier, Lemont B.

Published

2007

41. Arginine-mimic labeling with guanidinoethanethiol to increase mass sensitivity of lysine-terminated phosphopeptides by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.

Author

Ahn, Yeong Hee, Ji, Eun Sun, Lee, Ji Yeon, Cho, Kun, and Yoo, Jong Shin

Published

2007

42. Dynamic identification of phosphopeptides using immobilized metal ion affinity chromatography enrichment, subsequent partial β-elimination/chemical tagging and matrix-assisted laser desorption/ionization mass spectrometric analysis.

Author

Ahn, Yeong Hee, Park, Eun Jung, Cho, Kun, Kim, Jin Young, Ha, Sang Hoon, Ryu, Sung Ho, and Yoo, Jong Shin

Published

2004

43. Structural determination of hexadecanoic lysophosphatidylcholine regioisomers by fast atom bombardment tandem mass spectrometry.

Author

Hong, Jongki, Kim, Young Hwan, Gil, Ji Hye, Cho, Kun, Jung, Jee H., and Han, So-Yeop

Published

2002

44. Structural determination of lysophosphatidylcholines extracted from marine sponges by fast atom bombardment tandem mass spectrometry.

Author

Hong, Jongki, Cho, Kun, Kim, Young Hwan, Cheong, Chaejoon, Lee, Kwang-Sik, and Jung, Jee H.

Published

2001

45. Compositional Characteristics of Glucuronide Conjugates in Regional Glechoma hederacea var. longituba Herbal Extracts Using a Set of Polyphenolic Marker Compounds.

Author

Hahm, Young Hye, Cho, Kun, and Ahn, Yeong Hee

Subjects

LIQUID chromatography-mass spectrometry, POLYPHENOLS, HERBAL teas, EXTRACTS, PLANT polyphenols, MEDICINAL plants

Abstract

Glechoma hederacea var. longituba (GHL) is one of many herbal plants widely used in hot herbal teas and in oriental prescriptions to treat various diseases. Although the beneficial effects of GHL may be influenced by differences in the composition of active constituents in the herbal extracts, there are few reports on the compositional characteristics of GHL herbal extracts to date. In this study, liquid chromatography–mass spectrometry technology was used for comparative analysis of constituents in hot-water extracts of GHL samples obtained from various cultivating provinces in South Korea. A set of marker panel consisting of nine polyphenolic compounds, including glucuronide conjugates in particular, was constructed and used to monitor the compositional characteristics in each GHL extract. Our findings show that some of the marker compounds, including rosmarinic acid, were persistently observed as major constituents in the analyses of the 22 GHL sample extracts, whereas, interestingly, other marker compounds such as polyphenol-glucuronic acid conjugates displayed dramatic differences in compositional ratios. This chromatographic approach using the marker compound panel can be applied to qualitatively and quantitatively evaluate compositional characteristics in the GHL extracts, and can also be useful for quality assays of the GHL herbal plant in medicinal and industrial fields. [ABSTRACT FROM AUTHOR]

Published

2021

46. Fabrication of Self-Packaged Seamless Nanoporous SU-8 Microchannels.

Author

Fang, Sheng-Po, Jao, Pit Fee, Cho, Kun, Yoon, Jung Hae, Kim, Kyoung-Tae, and Yoon, Yong-Kyu

Subjects

ELECTROSPINNING, ULTRAVIOLET lithography, NANOFIBERS, COST effectiveness, POLYDIMETHYLSILOXANE

Abstract

Fabrication of a self-packaged partial semicircular nanoporous microchannel is demonstrated using electrospinning, self-limiting ultraviolet lithography, and thermal-reflow packaging processes with SU-8. The fabrication process offers unique advantages of microresolution channel patterning, alignment free seamless integration of nanofibers in a microchannel by self-packaged reflow, and easy formation of 3-D nanoporous channels. A fabricated nanoporous microchannel with a channel length of 7 mm, a channel width of 73.85 $\mu $ m, and a channel height of $34.65~\mu $ m shows slow fluidic flow through the channel, functioning as an effective nanochannel with an equivalent channel height of 800 nm and a radius of 857 nm, and therefore, its reduction ratios of the channel height and radius are $\sim 97.7$ % and 97.8%, respectively. [ABSTRACT FROM AUTHOR]

Published

2015

47. Proteome Changes Reveal the Protective Roles of Exogenous Citric Acid in Alleviating Cu Toxicity in Brassica napus L.

Author

Ju, Young-Hwan, Roy, Swapan Kumar, Roy Choudhury, Aritra, Kwon, Soo-Jeong, Choi, Ju-Young, Rahman, Md Atikur, Katsube-Tanaka, Tomoyuki, Shiraiwa, Tatsuhiko, Lee, Moon-Soon, Cho, Kun, and Woo, Sun-Hee

Subjects

RAPESEED, CITRIC acid, HEAT shock proteins, CARBOHYDRATE metabolism, PROTEIN metabolism, ENERGY metabolism

Abstract

Citric acid (CA), as an organic chelator, plays a vital role in alleviating copper (Cu) stress-mediated oxidative damage, wherein a number of molecular mechanisms alter in plants. However, it remains largely unknown how CA regulates differentially abundant proteins (DAPs) in response to Cu stress in Brassica napus L. In the present study, we aimed to investigate the proteome changes in the leaves of B. L. seedlings in response to CA-mediated alleviation of Cu stress. Exposure of 21-day-old seedlings to Cu (25 and 50 μM) and CA (1.0 mM) for 7 days exhibited a dramatic inhibition of overall growth and considerable increase in the enzymatic activities (POD, SOD, CAT). Using a label-free proteome approach, a total of 6345 proteins were identified in differentially treated leaves, from which 426 proteins were differentially expressed among the treatment groups. Gene ontology (GO) and KEGG pathways analysis revealed that most of the differential abundance proteins were found to be involved in energy and carbohydrate metabolism, photosynthesis, protein metabolism, stress and defense, metal detoxification, and cell wall reorganization. Our results suggest that the downregulation of chlorophyll biosynthetic proteins involved in photosynthesis were consistent with reduced chlorophyll content. The increased abundance of proteins involved in stress and defense indicates that these DAPs might provide significant insights into the adaptation of Brassica seedlings to Cu stress. The abundances of key proteins were further verified by monitoring the mRNA expression level of the respective transcripts. Taken together, these findings provide a potential molecular mechanism towards Cu stress tolerance and open a new route in accelerating the phytoextraction of Cu through exogenous application of CA in B. napus. [ABSTRACT FROM AUTHOR]

Published

2021

48. Identification of Polyphenol Glucuronide Conjugates in Glechoma hederacea var. longituba Hot Water Extracts by High-Performance Liquid Chromatography-Tandem Mass Spectrometry (HPLC-MS/MS).

Author

Cho, Kun, Choi, Yoon-Ji, and Ahn, Yeong Hee

Subjects

LIQUID chromatography-mass spectrometry, HOT water, TANDEM mass spectrometry, MUSIC charts, MASS spectrometry

Abstract

Glechoma hederacea var. longituba (GHL) is one of many herbal plants distributed worldwide and is known to contain various biologically useful antioxidant constituents. GHL has been used in folk remedies for various treatments and as favorable tea beverages. However, research on the precise analysis of ingredients in GHL extracts remains insufficient. In this study, compositional analysis has been conducted on polyphenolic ingredients in GHL hot water extracts. GHL samples collected from growing regions were incubated in hot water at 100 °C for 1 h. The polyphenolic constituents in the hot water extracts were analyzed using high performance liquid chromatography-high resolution mass spectrometry (HPLC-HR MS) and tandem mass spectrometry (HPLC-MS/MS) in negative ion mode. As a result, a total of seven compounds were identified as the major polyphenolic constituents. Interestingly, four constituents out of the identified substances were confirmed to be polyphenol glucuronide conjugates, in which glucuronidation was known to be an important metabolic process in polyphenol aglycone along with methylation and sulphation. This study can be applied for the quality control and standardization of GHL herbal samples and the monitoring of metabolic processes involved in the polyphenolic conjugates. [ABSTRACT FROM AUTHOR]

Published

2020

49. Low internal pressure in femtoliter water capillary bridges reduces evaporation rates.

Author

Cho, Kun, Hwang, In Gyu, Kim, Yeseul, Lim, Su Jin, Lim, Jun, Kim, Joon Heon, Gim, Bopil, and Weon, Byung Mook

Published

2016

50. Crack formation and prevention in colloidal drops.

Author

Kim, Jin Young, Cho, Kun, Ryu, Seul-a, Kim, So Youn, and Weon, Byung Mook

Subjects

RESIDUAL stresses, COLLOIDAL semiconductors, LASER microscopy, POLYMERS, NANOPARTICLES

Abstract

Crack formation is a frequent result of residual stress release from colloidal films made by the evaporation of colloidal droplets containing nanoparticles. Crack prevention is a significant task in industrial applications such as painting and inkjet printing with colloidal nanoparticles. Here, we illustrate how colloidal drops evaporate and how crack generation is dependent on the particle size and initial volume fraction, through direct visualization of the individual colloids with confocal laser microscopy. To prevent crack formation, we suggest use of a versatile method to control the colloid-polymer interactions by mixing a nonadsorbing polymer with the colloidal suspension, which is known to drive gelation of the particles with short-range attraction. Gelation-driven crack prevention is a feasible and simple method to obtain crack-free, uniform coatings through drying-mediated assembly of colloidal nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2015