Your search keyword '"Bong Hyun Chung"' showing total 310 results

151. Real-Time Monitoring of DNA Amplification By Nanogap Ipedimetric Sensor

Author

Hyunjung Lee, Joo-Oak Keem, Hyunmin Cho, Neha Verma, Junghoon Lee, and Bong Hyun Chung

Abstract

As our global society has been more complex and connected closely, infectious diseases could be easily and fast propagated to everywhere. And it makes early diagnostic detection be necessary with various ways based on optical, electrical and electrochemical methods. Real-time PCR (Polymerase Chain Reaction) has been powerful detection technology to recognize the amplified target DNA fragments that would be essential to diagnostic assays, but it needs optical labels and apparatus to detect the amplification of DNA. A variety of electric/electrochemical methods have been applied for label-free detection. Impedance assay is attractive tool for biomolecule real-time sensing, however, most of impedance studies are based on the immobilization of biomolecules on the electrode surface. That ascribes to additional steps and makes impossible to reuse electrode chip and biological samples. In this study, we aimed to develop the electrical impedance detection not optical method measuring the bulk impedance of PCR product solution by nanogap electrode. Electrical impedimetric nanogap devices could be very useful for detecting slight changes of amplifying DNA fragments in PCR cycling due to double layer capacitance and charge transfer resistance between two opposing nanogap electrodes. The electrode chip was fabricated using gold thin film by easy photolithography designed the nanogapped Si/SiO2 substrate by evaporation of oxide materials. Applying electric impedance measuring in nanogap chip avoiding the use of optical labels and immobilization on the electrode surface would be very impact detection system on DNA real-time screening.

Published

2016

152. Nanoembossed gold nanoshell with a fluorescence-like strong SERS signal

Author

H G Baek, Pier Paolo Pompa, Bong Hyun Chung, and Joong Hyun Kim

Subjects

Materials science, Nanoparticle, Bioengineering, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, law.invention, symbols.namesake, law, General Materials Science, Electrical and Electronic Engineering, Mechanical Engineering, Antenna effect, General Chemistry, 021001 nanoscience & nanotechnology, Laser, Fluorescence, Nanoshell, 0104 chemical sciences, Core (optical fiber), Mechanics of Materials, symbols, 0210 nano-technology, Raman spectroscopy, Excitation

Abstract

We present a nanoembossed nanoshell with a new internal location for the formation of strong electromagnetic fields. The internally nanoembossed gold nanoshell (AuNS) is fabricated by electrostatically assembling smaller silica nanoparticles (∼15.7 nm) around the silica core (∼123.6 nm) followed by growing gold nanoseeds on the core in a wet process. FDTD calculations reveal the creation of a strong electromagnetic field (|E/Ein|max = 55 at 633 nm) at sharp edges formed by the contact between the nanoembosses and the silica core. The field formation is supported by measuring the SERS signal of Ru(bpy) encapsulated in the nanoembossing silica nanoparticles. SERS signals as strong as the corresponding fluorescence are obtained. The Raman enhancement factor (EF) is estimated to be up to 10(10) at 633 nm excitation, in addition to a comparable EF at 785 nm laser excitation. The SERS intensity of the nanoembossed nanoshell layer is sufficiently high compared to the outer or the core of the nanoshell. Finally, we fabricate all-in-one nanoparticles with all the three places where the reporter dyes are loaded and acquire the highest SERS intensity to potentially enable bio-medical applications of the nanoembossed AuNS as a sensitive and reliable labeling particle.

Published

2016

153. Effect of dilution rate in continuous production of l-ornithine by an arginine auxotrophic mutant

Author

Bong Hyun Chung, Wuk Sang Ryu, Soon Ook Hwang, Young Hoon Park, and Dae Keon Choi

Subjects

Chromatography, Arginine, biology, Auxotrophy, Ornithine, biology.organism_classification, medicine.disease_cause, Applied Microbiology and Biotechnology, Dilution, chemistry.chemical_compound, chemistry, Biochemistry, Yield (chemistry), medicine, Fermentation, Escherichia coli, Bacteria, Biotechnology

Abstract

Continuous production of l -ornithine by an arginine auxotroph of Brevibacterium ketoglutamicum was carried out in a 2- l jar fermentor. The effects of the dilution rate on the fermentation parameters were investigated under l -arginine limited conditions. The maximum l -ornithine yield and volumetric productivity obtained were 0.213 g/g and 0.313 g/ l /h, respectively. The specific l -ornithine production rate increased with the dilution rate, with a maximum value of 0.084 g/g/h at a dilution rate of 0.125 h −1 .

Published

1995

154. Process development for the production of recombinant hirudin in Saccharomyces cerevisiae: from upstream to downstream

Author

J.-H. Sohn, Eui-Sung Choi, Jin-Ho Seo, D.-J. Youn, Sang Ki Rhee, and Bong Hyun Chung

Subjects

Expression vector, Chromatography, Size-exclusion chromatography, Saccharomyces cerevisiae, Hirudin, Bioengineering, Biology, biology.organism_classification, Applied Microbiology and Biotechnology, Biochemistry, Yeast, law.invention, law, Gene expression, medicine, Recombinant DNA, Fermentation, medicine.drug

Abstract

A gene coding for the anticoagulant hirudin was synthesized and cloned into a yeast expression/secretion vector. The gene expression and secretion of hirudin was directed by the galactose-inducible promoter (GAL10) and mating factor a pre-pro leader sequence. Biologically active hirudin was secreted into the extracellular medium. The initial expression level of hirudin gene in shake-flask culture was, however, very low (2·3 mg/litre). Modification of expression vector and optimization of fermentation conditions greatly improved the hirudin gene expression and secretion level into the culture supernatant more than 200 fold (460 mg/litre). Purification schemes for recombinant hirudin were also developed at a laboratory scale. Among different types of column chromatographies, immobilized metal affinity chromatography (IMAC) was found to be most efficient with respect to the purification fold and yield. Typical purification fold and yield obtained from a series of ion exchange, IMAC and gel filtration columns were 50 fold and 70%, respectively.

Published

1995

155. STEP signaling pathway mediates psychomotor stimulation and morphine withdrawal symptoms, but not for reward, analgesia and tolerance

Author

Hye Yeon Park, Myungchull Rhee, Takuya Murata, Jae-Ran Lee, Kyoung Shim Kim, Young Jun Kang, Yoon-Jung Kim, Hyun-Jun Lee, Dae Yeul Yu, Bong Hyun Chung, Yong-Hoon Kim, Jung Hwan Hwang, Chul-Ho Lee, Yoichi Gondo, and Pyung Lim Han

Subjects

0301 basic medicine, Agonist, Male, medicine.drug_class, Clinical Biochemistry, Drug Resistance, Stimulation, Pharmacology, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Reward, Dopamine, Opioid receptor, medicine, Animals, Point Mutation, Phosphorylation, Receptor, Molecular Biology, Psychomotor Agitation, Mice, Knockout, Morphine, business.industry, Protein Tyrosine Phosphatases, Non-Receptor, Corpus Striatum, Substance Withdrawal Syndrome, Analgesics, Opioid, DAMGO, Disease Models, Animal, 030104 developmental biology, Opioid, chemistry, Receptors, Opioid, Molecular Medicine, Original Article, Female, Signal transduction, Analgesia, business, 030217 neurology & neurosurgery, medicine.drug, Signal Transduction

Abstract

Striatal-enriched protein tyrosine phosphatase (STEP) is abundantly expressed in the striatum, which strongly expresses dopamine and opioid receptors and mediates the effects of many drugs of abuse. However, little is known about the role of STEP in opioid receptor function. In the present study, we generated STEP-targeted mice carrying a nonsense mutation (C230X) in the kinase interaction domain of STEP by screening the N-ethyl-N-nitrosourea (ENU)-driven mutant mouse genomic DNA library and subsequent in vitro fertilization. It was confirmed that the C230X nonsense mutation completely abolished functional STEP protein expression in the brain. STEP(C230X-/-) mice showed attenuated acute morphine-induced psychomotor activity and withdrawal symptoms, whereas morphine-induced analgesia, tolerance and reward behaviors were unaffected. STEP(C230X-/-) mice displayed reduced hyperlocomotion in response to intrastriatal injection of the μ-opioid receptor agonist DAMGO, but the behavioral responses to δ- and κ-opioid receptor agonists remained intact. These results suggest that STEP has a key role in the regulation of psychomotor action and physical dependency to morphine. These data suggest that STEP inhibition may be a critical target for the treatment of withdrawal symptoms associated with morphine.

Published

2016

156. Bifunctional nanoparticles constructed using one-pot encapsulation of a fluorescent polymer and magnetic (Fe3O4) nanoparticles in a silica shell

Author

Chang-Soo, Lee, Hee Hyun, Chang, Pan-Kee, Bae, Juyeon, Jung, and Bong Hyun, Chung

Subjects

Fluorenes, Cell Survival, Polymers, Surface Properties, Drug Compounding, Biocompatible Materials, Silicon Dioxide, Ferrosoferric Oxide, KB Cells, Molecular Imaging, Drug Delivery Systems, Folic Acid, Humans, Folate Receptor 1, Particle Size, Magnetite Nanoparticles

Abstract

Integration of biocompatible silica with a fluorescent polymer (PDDF) and superparamagnetic iron oxide nanoparticles (Fe3 O4 ) to form uniform core-shell nanostructures has the great potential to form particles for use in multimodal bioimaging applications. Core-shell nanoparticles (PDDF/Fe3 O4 @SiO2 ) exhibit fluorescent and magnetic properties that are favorable for their use in magnetic separation and guiding applications, as well as optical and magnetic resonance (MR) imaging capabilities. With the biological analysis in an in vitro intracellular permeation and cytotoxicity test, chemical conjugation of the surface using folic acid (FA) molecules can provide the nanoparticles with cell-targeting properties, localizing the nanoparticles to folate receptors (FRs) on target KB cells that over-express the FRs.

Published

2012

157. Nuclease-resistant DNA aptamer on gold nanoparticles for the simultaneous detection of Pb2+ and Hg2+ in human serum

Author

Chan Ho Chung, Juyeon Jung, Bong Hyun Chung, and Joong Hyun Kim

Subjects

Metal ions in aqueous solution, Aptamer, Biomedical Engineering, Biophysics, Analytical chemistry, Metal Nanoparticles, Biosensing Techniques, Complex Mixtures, Sensitivity and Specificity, chemistry.chemical_compound, Electrochemistry, Humans, Detection limit, Nuclease, Deoxyribonucleases, biology, Chemistry, Oligonucleotide, Reproducibility of Results, General Medicine, Equipment Design, Mercury, Aptamers, Nucleotide, Equipment Failure Analysis, Spectrometry, Fluorescence, Lead, Colloidal gold, biology.protein, Nucleic acid, Gold, DNA, Biotechnology, Nuclear chemistry

Abstract

There has been great progress in the development of functional DNA-based sensors for the detection of metal ions. However, many functional DNAs are vulnerable to hydrolysis by nucleases in human blood. In addition, the detection methods that are based on DNA often exhibit interference due to the high blood concentrations of other ions, such as K(+) and Na(+). Therefore, we selected highly Pb(2+)-specific DNA-aptamer sequences based on CD spectroscopy of 4 G-rich DNA sequences and Hg(2+)-specific T-rich DNA sequences and immobilized them on gold nanoparticles for the simultaneous detection of Pb(2+) and Hg(2+) in human serum. We used gold nanoparticles because these have a superior fluorescence-quenching efficiency over a broad range of wavelengths compared with other organic quenchers. In addition, gold nanoparticles have a stabilizing effect on the immobilized DNA, which makes it more resistant to degradation by nucleases than free DNA. As a result, even in the presence of DNase, we were able to simultaneously detect Pb(2+) and Hg(2+) in serum at concentrations as low as 128 pM and 121 pM, respectively, within 10 min. These detection limits for Pb(2+) and Hg(2+) were 39-fold and 26.4-fold lower, respectively, than the detection limits that were obtained using free DNAs. Given the multi-color-fluorescence quenching capability of the gold nanoparticles and the possibility of developing functional nucleic acids for the detection of other metal ions, this study extends the application of oligonucleotides to a point-of-care detection system for the detection of multiple harmful metal ions in body fluids.

Published

2012

158. Enhanced photoluminescence of porous silicon nanoparticles coated by bioresorbable polymers

Author

Han Lee, Victor Yu. Timoshenko, Liubov A. Osminkina, M. B. Gongalsky, Bong Hyun Chung, Alexander Yu. Kharin, and Jinyoung Jeong

Subjects

Aqueous solution, Materials science, Nano Express, Passivation, Nanochemistry, Nanoparticle, Nanotechnology, Polymer coating, Condensed Matter Physics, Porous silicon, Bioimaging, Polyvinyl alcohol, Silicon nanoparticles, chemistry.chemical_compound, PLGA, Materials Science(all), chemistry, Chemical engineering, General Materials Science, Photoluminescence, Dissolution

Abstract

A significant enhancement of the photoluminescence (PL) efficiency is observed for aqueous suspensions of porous silicon nanoparticles (PSiNPs) coated by bioresorbable polymers, i.e., polylactic-co-glycolic acid (PLGA) and polyvinyl alcohol (PVA). PSiNPs with average size about 100 nm prepared by mechanical grinding of electrochemically etched porous silicon were dispersed in water to prepare the stable suspension. The inner hydrophobic PLGA layer prevents the PSiNPs from the dissolution in water, while the outer PVA layer makes the PSiNPs hydrophilic. The PL quantum yield of PLGA/PVA-coated PSiNPs was found to increase by three times for 2 weeks of the storage in water. The observed effect is explained by taking into account both suppression of the dissolution of PSiNPs in water and a process of the passivation of nonradiative defects in PSiNPs. The obtained results are interesting in view of the potential applications of PSiNPs in bioimaging.

Published

2012

159. Scanometric analysis of DNA microarrays using DNA intercalator-conjugated gold nanoparticles

Author

Bong Hyun Chung, Hyunmin Cho, and Juyeon Jung

Subjects

genetic structures, Swine, Conjugated system, Catalysis, chemistry.chemical_compound, Viral genetics, Influenza A Virus, H1N1 Subtype, Dna genetics, Orthomyxoviridae Infections, Limit of Detection, Materials Chemistry, Animals, Oligonucleotide Array Sequence Analysis, Daunorubicin, Metals and Alloys, General Chemistry, DNA, Molecular biology, eye diseases, Intercalating Agents, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Hemagglutinins, chemistry, Colloidal gold, DNA, Viral, Ceramics and Composites, Nanoparticles, Colorimetry, Naked eye, Gold, DNA microarray, DNA Intercalator

Abstract

We introduce a scanometric detection method for the analysis of DNA microarrays using DNA intercalator-conjugated gold nanoparticles that can be analyzed with the naked eye or with an optical scanner after the enhancement of the AuNPs. Moreover, we successfully detected a hemagglutinin-subtyping DNA array using this method.

Published

2012

160. Crystal structure of xenotropic murine leukaemia virus-related virus(XMRV) ribonuclease H

Author

Raymond L. Erikson, Keum Ran Yu, Sunghyun Kang, Ju Hee Kim, Bong Hyun Chung, Bo Yeon Kim, Sang J. Chung, Seung Jun Kim, and Suk-Kyeong Jung

Subjects

Models, Molecular, MoMLV, Moloney murine leukaemia virus-related virus, Protein Conformation, Xenotropic murine leukemia virus-related virus, Molecular Sequence Data, Ribonuclease H, Biophysics, Biology, Crystallography, X-Ray, S2, Biochemistry, Virus, rms, root-mean-square, chemistry.chemical_compound, Bh, Bacillus halodurans, Protein structure, Catalytic Domain, Escherichia coli, murine leukaemia virus, reverse transcriptase, ribonuclease H, xenotropic murine leukaemia virus-related virus (XMRV), Amino Acid Sequence, RNase H, Molecular Biology, Conserved Sequence, Original Paper, RNase H, retroviral ribonuclease H, RNA-Directed DNA Polymerase, MLV, murine leukaemia virus, RNA, Cell Biology, XMRV, xenotropic murine leukaemia virus-related virus, biology.organism_classification, Virology, Molecular biology, Reverse transcriptase, Protein Structure, Tertiary, chemistry, DTT, dithiothreitol, Mutation, RT, reverse transcriptase, biology.protein, DNA

Abstract

RNase H (retroviral ribonuclease H) cleaves the phosphate backbone of the RNA template within an RNA/DNA hybrid to complete the synthesis of double-stranded viral DNA. In the present study we have determined the complete structure of the RNase H domain from XMRV (xenotropic murine leukaemia virus-related virus) RT (reverse transcriptase). The basic protrusion motif of the XMRV RNase H domain is folded as a short helix and an adjacent highly bent loop. Structural superposition and subsequent mutagenesis experiments suggest that the basic protrusion motif plays a role in direct binding to the major groove in RNA/DNA hybrid, as well as in establishing the co-ordination among modules in RT necessary for proper function.

Published

2012

161. High pressure three-phase equilibria for the carbon dioxide-ethanol-water system

Author

Bong Hyun Chung, Huen Lee, and Ji-Ho Yoon

Subjects

Equation of state, Ethanol, Mixing rule, General Chemical Engineering, General Physics and Astronomy, Thermodynamics, chemistry.chemical_element, chemistry.chemical_compound, Three-phase, chemistry, High pressure, Carbon dioxide, Physical and Theoretical Chemistry, Carbon

Abstract

The three-phase equilibria for the carbon dioxide-ethanol-water system were measured at 313.2 K and pressures of 8.14, 8.21 and 8.27 MPa. The experimental data were correlated by using the Patel-Teja equation of state with the mixing rule of Wilson.

Published

1994

162. Modelling of batch fermentation and estimation of state variables using self-organizing feature maps

Author

Je Hwan Chang, Myeong Seok Park, Yong Keun Chang, and Bong Hyun Chung

Subjects

State variable, Artificial neural network, Batch fermentation, Ecology, business.industry, Mass balance, Experimental data, Pattern recognition, Biology, Applied Microbiology and Biotechnology, Biochemistry, Feature (machine learning), Artificial intelligence, Differential (infinitesimal), business, Interpolation

Abstract

A self-organizing feature map was used for modelling of batch yeast cultures. The model was constructed by training the neural network with experimental data of the specific rates. Estimates of state variables were obtained from the neural network model and differential mass balance equations via integration. They were compared with the experimental data. The neural network model showed a good modelling accuracy and interpolation capability.

Published

1994

163. Expression and secretion of human lipocortin-1 by promoter and signal sequence of STA1 from Saccharomyces diastaticus

Author

Bong Hyun Chung, Soo Wan Nam, Jong Seog Ahn, Byung Moon Kim, and Dae Ook Kang

Subjects

Signal peptide, Saccharomyces cerevisiae, Bioengineering, General Medicine, Biology, Molecular cloning, biology.organism_classification, Applied Microbiology and Biotechnology, Saccharomyces, Molecular biology, Complementary DNA, Gene expression, Secretion, Hybrid plasmid, Biotechnology

Abstract

For the secretion of human lipocortin-1 (LC-1) in yeast, a expression and secretion vector was constructed by using the promoter and signal sequence of glucoamylase gene (STA1) of Saccharomyces diastaticus. After the cDNA of human LC-1 was ligated with the secretion vector, the resulting hybrid plasmid was transformed into S. diastaticus. When the recombinant S. diastaticus was cultivated in YPD medium, LC-1 was expressed and secreted into the extracellular medium, yielding LC-1 protein at a concentration of 2.5 μg/mL.

Published

1994

164. Enhanced metal-affinity partitioning of genetically engineered hirudin variants in polyethylene glycol/dextran two-phase systems

Author

Jung Hoon Sohn, Sang-ki Rhee, Bong Hyun Chung, Yong Keun Chang, and Young Hoon Park

Subjects

Wild type, Hirudin, Polyethylene glycol, Protein engineering, Ligand (biochemistry), Applied Microbiology and Biotechnology, law.invention, chemistry.chemical_compound, chemistry, Biochemistry, law, Protein purification, Recombinant DNA, medicine, Histidine, Biotechnology, medicine.drug

Abstract

Hirudin variants were constructed to exhibit an increased metal-binding affinity in an attempt to apply a metal-affinity partitioning process in a primary separation step for purification of hirudin. The hirudin variants were genetically engineered to contain additional surface-accessible histidines and produced by recombinant Saccharomyces cerevisiae . The partitioning behavior of these variants was compared with that of the wild type with a single surface-accessible histidine at position 51. Upon the addition of a small amount of Cu(II)IDA-PEG (Cu(II)iminodiacetic acid-polyethylene glycol) ligand to PEG/dextran two-phase systems, the hirudin variants with two or three surface-accessible histidines were more selectively partitioned into the PEG-rich phase than the wild type. Integrating protein engineering to metal-affinity partitioning offers the potential for general application of this technique to facilitate protein isolation, but the genetically engineered protein variants should be carefully constructed in a manner to minimize reduction of native protein activity.

Published

1994

165. Color-tunable photoluminescent fullerene nanoparticles

Author

Su-Jin Lim, Jinyoung Jeong, Han Lee, Ju Whan Kim, Juyeon Jung, Sang J. Chung, Bong Hyun Chung, and Mi Jin Choi

Subjects

Ethylene Glycol, Photoluminescence, Aqueous solution, Materials science, Fullerene, Mechanical Engineering, Nanoparticle, Color, Conjugated system, Photochemistry, Molecular electronic transition, Lithium hydroxide, Catalysis, chemistry.chemical_compound, chemistry, Mechanics of Materials, Luminescent Measurements, Lithium Compounds, Organic chemistry, General Materials Science, Fullerenes

Abstract

Highly water-soluble and color-tunable photoluminescent fullerene nanoparticles are synthesized by using tetraethylene glycol (TEG) and lithium hydroxide as a catalyst. The maximum PL emission changes depend on the contents of the remaining π-conjugation in oxidized C(60), which is partially covalently conjugated with TEG. The PL behavior is attributed to an electronic transition change due to the distortion of symmetrical C(60).

Published

2011

166. Susceptibility to gold nanoparticle-induced hepatotoxicity is enhanced in a mouse model of nonalcoholic steatohepatitis

Author

Chul-Ho Lee, Nam Woong Song, Soo Jin Kim, Yong-Hoon Kim, Jung-Ran Noh, Bong Hyun Chung, Gil-Tae Gang, and Jung Hwan Hwang

Subjects

Male, Pathology, medicine.medical_specialty, Antioxidant, medicine.medical_treatment, Blotting, Western, Metal Nanoparticles, Apoptosis, Pharmacology, Toxicology, Superoxide dismutase, chemistry.chemical_compound, Mice, medicine, Animals, Aspartate Aminotransferases, chemistry.chemical_classification, Liver injury, Reactive oxygen species, Methionine, biology, Reverse Transcriptase Polymerase Chain Reaction, Alanine Transaminase, medicine.disease, Gold Compounds, Fatty Liver, Disease Models, Animal, chemistry, Liver, Toxicity, Hepatic stellate cell, biology.protein, Disease Susceptibility, Lipid Peroxidation, Chemical and Drug Induced Liver Injury, Reactive Oxygen Species

Abstract

Although the safety of gold nanoparticle (AuNP) use is of growing concern, most toxicity studies of AuNPs had focused on their chemical characteristics, including their physical dimensions, surface chemistry, and shape. The present study examined the susceptibility of rodents with healthy or damaged livers to AuNP-induced hepatotoxicity. To induce a model of liver injury, mice were fed a methionine- and choline-deficient (MCD) diet for 4 weeks. Sizes and biodistribution of 15-nm PEGylated AuNPs were analyzed by transmission electron microscopy. Levels of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were estimated with an automatic chemical analyzer, and liver sections were subjected to pathological examination. Activities of antioxidant enzymes were determined by biochemical assay. Lateral tail vein injection of MCD diet-fed mice with 5 mg kg−1 AuNPs significantly elevated the serum ALT and AST levels compared to MCD diet-fed mice injected with mPEG (methylpolyethylene glycol). Similarly, severe hepatic cell damage, acute inflammation, and increased apoptosis and reactive oxygen species (ROS) production were observed in the livers of AuNP-injected mice on the MCD diet; these liver injuries were attenuated in mice fed a normal chow diet. The results suggest that AuNPs display toxicity in a stressed liver environment by stimulating the inflammatory response and accelerating stress-induced apoptosis. These conclusions may point to the importance of considering health conditions, including liver damage, in medical applications of AuNPs.

Published

2011

167. Role of Junctin Protein Interactions in Cellular Dynamics of Calsequestrin Polymer upon Calcium Perturbation*

Author

Ki-Sun Kwon, Yeon Soo Kim, Keun Woo Lee, ChulHee Kang, Yu Ran Lee, Chae Young Hwang, Hyun Kyu Park, Do Han Kim, Sung Sup Park, Seung-Goo Lee, Hyesung Jeon, Bong Hyun Chung, Jin-Soo Maeng, Soo Hyun Eom, and Jeong Yi Choi

Subjects

chemistry.chemical_element, Muscle Proteins, macromolecular substances, Calcium, Calsequestrin, Biochemistry, Calcium in biology, Cell Line, Mixed Function Oxygenases, Mice, Live cell imaging, Calcium-binding protein, Animals, Homeostasis, Humans, Molecular Biology, Chemistry, Depolymerization, Endoplasmic reticulum, Calcium-Binding Proteins, technology, industry, and agriculture, Membrane Proteins, Cell Biology, musculoskeletal system, Cell biology, Sarcoplasmic Reticulum, Förster resonance energy transfer, cardiovascular system, Protein Multimerization, tissues

Abstract

Calsequestrin (CSQ), the major intrasarcoplasmic reticulum calcium storage protein, undergoes dynamic polymerization and depolymerization in a Ca(2+)-dependent manner. However, no direct evidence of CSQ depolymerization in vivo with physiological relevance has been obtained. In the present study, live cell imaging analysis facilitated characterization of the in vivo dynamics of the macromolecular CSQ structure. CSQ2 appeared as speckles in the presence of normal sarcoplasmic reticulum (SR) Ca(2+) that were decondensed upon Ca(2+) depletion. Moreover, CSQ2 decondensation occurred only in the stoichiometric presence of junctin (JNT). When expressed alone, CSQ2 speckles remained unchanged, even after Ca(2+) depletion. FRET analysis revealed constant interactions between CSQ2 and JNT, regardless of the SR Ca(2+) concentration, implying that JNT is an essential component of the CSQ scaffold. In vitro solubility assay, electron microscopy, and atomic force microscopy studies using purified recombinant proteins confirmed Ca(2+) and JNT-dependent disassembly of the CSQ2 polymer. Accordingly, we conclude that reversible polymerization and depolymerization of CSQ are critical in SR Ca(2+) homeostasis.

Published

2011

168. Gold patterned biochips for on-chip immuno-MALDI-TOF MS: SPR imaging coupled multi-protein MS analysis

Author

Bong Hyun Chung, Yongwon Jung, Chang-Soo Lee, So Yeon Yi, and Young Eun Kim

Subjects

Immunoassay, Chromatography, Antibody microarray, biology, Chemistry, Protein Array Analysis, Surface Plasmon Resonance, Mass spectrometry, Proteomics, Biochemistry, Analytical Chemistry, Matrix (chemical analysis), Matrix-assisted laser desorption/ionization, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Electrochemistry, biology.protein, Environmental Chemistry, Humans, Protein G, Target protein, Gold, Biochip, Antibodies, Immobilized, Spectroscopy, Biomarkers

Abstract

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) analysis of immuno-captured target protein efficiently complements conventional immunoassays by offering rich molecular information such as protein isoforms or modifications. Direct immobilization of antibodies on MALDI solid support enables both target enrichment and MS analysis on the same plate, allowing simplified and potentially multiplexing protein MS analysis. Reliable on-chip immuno-MALDI-TOF MS for multiple biomarkers requires successful adaptation of antibody array biochips, which also must accommodate consistent reaction conditions on antibody arrays during immuno-capture and MS analysis. Here we developed a facile fabrication process of versatile antibody array biochips for reliable on-chip MALDI-TOF-MS analysis of multiple immuno-captured proteins. Hydrophilic gold arrays surrounded by super-hydrophobic surfaces were formed on a gold patterned biochip via spontaneous chemical or protein layer deposition. From antibody immobilization to MALDI matrix treatment, this hydrophilic/phobic pattern allowed highly consistent surface reactions on each gold spot. Various antibodies were immobilized on these gold spots both by covalent coupling or protein G binding. Four different protein markers were successfully analyzed on the present immuno-MALDI biochip from complex protein mixtures including serum samples. Tryptic digests of captured PSA protein were also effectively detected by on-chip MALDI-TOF-MS. Moreover, the present MALDI biochip can be directly applied to the SPR imaging system, by which antibody and subsequent antigen immobilization were successfully monitored.

Published

2011

169. Cross-linked magnetic nanoparticles from poly(ethylene glycol) and dodecyl grafted poly(succinimide) as magnetic resonance probes

Author

Cw Park Chan-Woo Park, Bh Chung Bong-Hyun Chung, Hm Yang Hee-Man Yang, Sj Lim Su-Jin Lim, Si Park Sung-Il Park, and Jd Kim Jong-Duk Kim

Subjects

Poly ethylene glycol, Materials science, Physics::Medical Physics, Physics::Optics, Nanoparticle, Ferric Compounds, Catalysis, Polyethylene Glycols, chemistry.chemical_compound, Succinimide, Coated Materials, Biocompatible, Polymer chemistry, Materials Chemistry, medicine, Humans, Aspartic Acid, medicine.diagnostic_test, Metals and Alloys, Magnetic resonance imaging, General Chemistry, equipment and supplies, Magnetic Resonance Imaging, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Condensed Matter::Soft Condensed Matter, chemistry, Chemical engineering, Ceramics and Composites, Magnets, Magnetic nanoparticles, Nanoparticles, Peptides, human activities, Hydrophobic and Hydrophilic Interactions, Amphiphilic copolymer, HeLa Cells

Abstract

Cross-linked magnetic nanoparticles were developed to improve the structural stability of amphiphilic polymer coated magnetic nanoparticles. These nanoparticles show strong potential for biomedical applications such as magnetic resonance imaging (MRI).

Published

2011

170. Fluorescent nanoscale detection of biotin-streptavidin interaction using near-field scanning optical microscopy

Author

Hyunkyu Park, Hyun Gyu Park, Anisha Gokarna, Bong Hyun Chung, and John P Hulme

Subjects

Streptavidin, Liposome, Materials science, Mechanical Engineering, Bioengineering, Nanotechnology, General Chemistry, Conjugated system, Fluorescence, law.invention, Nanomaterials, chemistry.chemical_compound, Monomer, chemistry, Optical microscope, Mechanics of Materials, law, General Materials Science, Near-field scanning optical microscope, Electrical and Electronic Engineering

Abstract

We describe a nanoscale strategy for detecting biotin-streptavidin binding using near-field scanning optical microscopy (NSOM) that exploits the fluorescence properties of single polydiacetylene (PDA) liposomes. NSOM is more useful to observe nanomaterials having optical properties with the help of topological information. We synthesized amine-terminated 10,12-pentacosadiynoic acid (PCDA) monomer (PCDA-NH(2)) and used this derivatized monomer to prepare PCDA liposomes. PCDA-NH(2) liposomes were immobilized on an aldehyde-functionalized glass surface followed by photopolymerization by using a 254 nm light source. To measure the biotin-streptavidin binding, we conjugated photoactivatable biotin to immobilized PCDA-NH(2) liposomes by UV irradiation (365 nm) and subsequently allowed them to interact with streptavidin. We analyzed the fluorescence using a fluorescence scanner and observed single liposomes using NSOM. The average height and NSOM signal observed in a single liposome after binding were ∼31.3 to 8.5 ± 0.5 nm and 0.37 to 0.16 ± 0.6 kHz, respectively. This approach, which has the advantage of not requiring a fluorescent label, could prove highly beneficial for single molecule detection technology.

Published

2011

171. Macromol. Biosci. 5/2011

Author

Bong Kuk Lee, Bong Hyun Chung, and Tomoji Kawai

Subjects

Biomaterials, Polymers and Plastics, Materials Chemistry, Bioengineering, Biotechnology

Published

2011

172. Simultaneous in vivo tracking of dendritic cells and priming of an antigen-specific immune response

Author

Yong Taik Lim, Young-Woock Noh, Yong-Suk Jang, Kook-Jin Ahn, and Bong Hyun Chung

Subjects

Indocyanine Green, Male, Cell Survival, Ovalbumin, Polymers, T cell, T-Lymphocytes, Biophysics, Priming (immunology), chemical and pharmacologic phenomena, Bioengineering, Mice, Transgenic, Biology, Cell Line, Biomaterials, Mice, Immune system, Antigen, MHC class I, medicine, Animals, Cells, Cultured, Cell Proliferation, CD86, food and beverages, Dendritic Cells, respiratory system, Flow Cytometry, Cell biology, Mice, Inbred C57BL, Lymphatic system, medicine.anatomical_structure, Mechanics of Materials, Immunology, Ceramics and Composites, biology.protein, Nanoparticles, CD80

Abstract

We report the fabrication of a one-pot antigen system that delivers antigen to dendritic cells (DCs) and tracks their in vivo migration after injection. Multifunctional polymer nanoparticles containing ovalbumin protein, magnetic resonance imaging contrast agents (iron oxide nanoparticles), and near-infrared fluorophores (indocyanine green, ICG), MPN-OVA, were prepared using a double emulsion method. The MPN-OVA was efficiently taken up by the dendritic cells and subsequently localized in the lysosome. Flow cytometry analysis revealed an increase in the uptake of OVA antigen by MPN-OVA at 37 °C, when compared with soluble OVA protein. We found that MPN-OVA had no effect on DC surface expression of MHC class I, costimulatory (CD80, CD86) or adhesion (CD54) molecules or the ability of DCs to mature in response to LPS. Following the uptake of MPN-OVA, exogenous OVA antigen was delivered to the cytoplasm, and OVA peptides were presented on MHC class I molecules, which enhanced OVA antigen-specific cross-presentation to OT-1 T cells and CD8OVA1.3 T cell hybridoma in vitro. The immunization of mice with MPN-OVA-treated DCs induced OVA-specific CTL activity in draining lymph nodes. The presence of MPN allowed us to monitor the migration of DCs via lymphatic drainage using NIR fluorescence imaging, and the homing of DCs into the lymph nodes was imaged using MRI. This system has potential for use as a delivery system to induce T cell priming and to image DC-based immunotherapies.

Published

2011

173. Electric detection of target DNA by fabricating gold nanowire bridges on planar nanogap electrodes

Author

Juyeon Jung, Yongwon Jung, Sang Kyu Kim, Hyunmin Cho, and Bong Hyun Chung

Subjects

Materials science, Nanowire, Metal Nanoparticles, Nanotechnology, Biosensing Techniques, Polymerase Chain Reaction, Catalysis, chemistry.chemical_compound, Planar, Influenza A Virus, H1N1 Subtype, Materials Chemistry, Electrodes, Sequence (medicine), Avian influenza virus, Nanowires, technology, industry, and agriculture, Metals and Alloys, General Chemistry, Asymmetric PCR, Electrochemical Techniques, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, Colloidal gold, Electrode, DNA, Viral, Ceramics and Composites, Gold, DNA Probes, DNA

Abstract

For the electrical detection of target DNA (partial avian influenza virus/H1N1/HA sequence) prepared via asymmetric PCR, we fabricated DNA-templated conducting gold nanowire bridges on planar nanogap electrodes using positively charged gold nanoparticles.

Published

2011

174. Label-free electrochemical detection of human α-thrombin in blood serum using ferrocene-coated gold nanoparticles

Author

Hyunkyung Jeong, Bong Hyun Chung, and Dohyoung Kwon

Subjects

Metallocenes, Aptamer, Biomedical Engineering, Biophysics, Analytical chemistry, Metal Nanoparticles, Biosensing Techniques, Electrochemistry, chemistry.chemical_compound, Blood serum, Humans, Ferrous Compounds, Electrodes, Chemistry, Thrombin, General Medicine, Electrochemical Techniques, Aptamers, Nucleotide, Combinatorial chemistry, Ferrocene, Colloidal gold, Electrode, Differential pulse voltammetry, Gold, Cyclic voltammetry, Biotechnology

Abstract

This paper describes a novel approach to label-free electrochemical detection of human α-thrombin in human blood serum that utilizes ferrocene-coated gold nanoparticles (Fc-AuNPs). Human α-thrombin was specifically bound by the thiolated aptamers immobilized on the electrode. Positively charged Fc-AuNPs were electrostatically bound to the negatively charged aptamers. In principle, a high current peak should be observed in the absence of interactions between the aptamers and the human α-thrombin. This behavior indicates maximum adsorption of Fc-AuNPs by the negatively charged aptamers on the electrode surface. In contrast, when the thrombin–aptamer complex is formed, a low signal is expected because of the blocking capacities of the protein, which hinders the electrostatic binding of the Fc-AuNPs. The electrochemical signal, recorded by cyclic voltammetry and differential pulse voltammetry, indicates whether interactions between aptamers and proteins have occurred. There is a good correlation between the ferrocene oxidation peak intensity readings from our thrombin sensing system and the thrombin concentration, within the range of 1.2 μM–12 pM.

Published

2011

175. Enzymatic tailoring for precise control of plasmonic resonance absorbance of gold nanoparticle assemblies

Author

Bong Hyun Chung, Joong Hyun Kim, and Jung-Won Kim

Subjects

chemistry.chemical_classification, Chemistry, Surface Properties, Carboxylic acid, Hydrolysis, technology, industry, and agriculture, Analytical chemistry, Nanoparticle, Hyaluronoglucosaminidase, Metal Nanoparticles, Nanotechnology, Surface Plasmon Resonance, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Biomaterials, Absorbance, Colloid and Surface Chemistry, Template, Colloidal gold, Enzymatic hydrolysis, Gold, Surface plasmon resonance, Hyaluronic Acid, Particle Size, Plasmon

Abstract

We report an enzymatic method to control the plasmon resonance absorbance of gold nanoparticle (AuNP) arrays assembled on hyaluronic acids. While multiple electrostatic interactions between cysteamine on the AuNPs and the carboxylic acid residues in the whole intact hyaluronic acid induced the formation of large aggregates, precise control of the plasmon absorbance was possible by tailoring the size of the bio-polymeric templates with hyaluronidase, almost over the entire range of the resonant coupling wavelengths. It was possible to precisely tune the position of the second plasmon absorbance by manipulating the amount of the template and the enzymatic hydrolysis time. Finally, we were able to produce a chain-like array of AuNPs, which was nearly one dimensional, with a maximum shift of up to 189 nm in the plasmon absorbance at the optimal hydrolysis time of the templates. This enzymatic method can be used as a useful tool to tailor the plasmonic properties of the nanostructures required for specific applications.

Published

2010

176. Naked eye detection of mutagenic DNA photodimers using gold nanoparticles

Author

Joong Hyun Kim and Bong Hyun Chung

Subjects

DNA damage, Ultraviolet Rays, DNA Mutational Analysis, Biomedical Engineering, Biophysics, Pyrimidine dimer, Photochemistry, chemistry.chemical_compound, Electrochemistry, Humans, Photosensitizer, Chemistry, Oligonucleotide, General Medicine, DNA, Colloidal gold, Ionic strength, Visual Perception, Nanoparticles, Colorimetry, Naked eye, Gold, Dimerization, Biotechnology, DNA Damage

Abstract

We developed a method to detect mutagenic DNA photodimers by the naked eye using gold nanoparticles. The stability of gold nanoparticles in a high ionic strength solution is maintained by straight ssDNA adsorbed physically on the AuNPs. However, we found that UV-irradiated DNA was less adsorptive onto gold nanoparticles because of a conformational change of UV-irradiated DNA. The accumulated deformation of the DNA structure by multiple-dimer formation triggered aggregation of the gold nanoparticles mixed with the UV-irradiated DNA and thus red to purple color changes of the mixture, which allowed colorimetric detection of the DNA photodimers by the naked eye. No fragmented mass and reactive oxygen species production under the UVB irradiation confirmed that the aggregation of gold nanoparticles was solely attributed to the accumulated deformation of the UV irradiated DNA. The degree of gold nanoparticles-aggregation was dependent on the UVB irradiated time and base compositions of the UV-irradiated oligonucleotides. In addition, we successfully demonstrated how to visually qualify the photosensitizing effect of chemical compounds in parallel within only 10 min by applying this new method. Since our method does not require any chemical or biochemical treatments or special instruments for purifying and qualifying the DNA photolesions, it should provide a feasible tool for the studies of the UV-induced mutagenic or carcinogenic DNA dimers and accelerate screening of a large number of drug candidates.

Published

2010

177. Improving Pb2+ detection using DNAzyme-based fluorescence sensors by pairing fluorescence donors with gold nanoparticles

Author

Joong Hyun Kim, Sang Ho Han, and Bong Hyun Chung

Subjects

Metal ions in aqueous solution, Inorganic chemistry, Biomedical Engineering, Biophysics, Deoxyribozyme, Analytical chemistry, Nanoparticle, Biosensing Techniques, Electron Transport, Electrochemistry, Molecule, Nanotechnology, Quenching (fluorescence), Chemistry, General Medicine, DNA, Catalytic, Equipment Design, Fluorescence, Equipment Failure Analysis, Spectrometry, Fluorescence, Lead, Colloidal gold, Nucleic acid, Nanoparticles, Gold, Biotechnology

Abstract

For previously reported fluorescence Pb 2+ sensors, DNAzymes have lead to a significant increase in Pb 2+ detecting sensitivity and specificity. However, these sensors suffer from incomplete fluorescence quenching and require additional steps for annealing DNAzymes and substrates as well as for removing the uncoupled substrates. In this study, we successfully overcome these issues by immobilizing the substrate nucleic acids on gold nanoparticles through thiol linkages. The immobilization of the substrate molecules to the gold nanoparticles lead to almost-complete fluorescence quenching and fast Pb 2+ detection, without altering the Pb 2+ specificity of the DNAzymes. After optimizing the concentration of DNAzymes, reaction time and pH, we could detect Pb 2+ as low as 5 nM within 20 min without the preliminary and the post treatments. Considering the multi-color-fluorescence quenching capability of gold nanoparticles and the to-be-developed functional nucleic acids for other metal ions, this study could extend the application of DNAzymes to the detection of multiple heavy metal ions.

Published

2010

178. Perfluorodecalin/[InGaP/ZnS quantum dots] nanoemulsions as 19F MR/optical imaging nanoprobes for the labeling of phagocytic and nonphagocytic immune cells

Author

Young-Woock Noh, Yong Taik Lim, Ji-Hyun Kang, Jee-Hyun Cho, Mi Young Cho, Jin Woong Chung, Bong Hyun Chung, and Kwan Soo Hong

Subjects

Fluorescence-lifetime imaging microscopy, Materials science, Cell Survival, Biophysics, Nanoprobe, Nanoparticle, Contrast Media, Bioengineering, Nanotechnology, Pancreatitis-Associated Proteins, Cell Line, Biomaterials, chemistry.chemical_compound, Mice, Quantum Dots, medicine, Animals, Humans, Fluorocarbons, medicine.diagnostic_test, Macrophages, technology, industry, and agriculture, Magnetic resonance imaging, Fluorine, equipment and supplies, Fluorescence, Magnetic Resonance Imaging, Molecular Imaging, Killer Cells, Natural, Perfluorodecalin, chemistry, Microscopy, Fluorescence, Mechanics of Materials, Quantum dot, Ceramics and Composites, Emulsions, Molecular imaging

Abstract

Multimodal imaging contrast agents with unique magnetic resonance (MR) and optical imaging capabilities have great potentials in the diagnosis and therapy of disease. Using a rational materials design approach, the bimodal imaging contrast agent, perfluorodecalin (PFD)/[InGaP/ZnS quantum dots (QDs)] composite nanoemulsions is developed in this study. 19 F molecules in the PFD/[InGaP/ZnS QDs] nanoemulsions provide a 19 F-based MR imaging capability, while fluorescent QDs dispersed in PFD nanodroplets provide an optical imaging modality. This study also demonstrates that these bimodal imaging contrast agents can be delivered easily into both phagocytic and nonphagocytic immune cells. Internalization of multifunctional PFD/[InGaP/ZnS QDs] nanoemulsions into immunotherapeutic cells permits the labeled cells to be imaged by both magnetic resonance and fluorescence imaging with little effect on cell viability and function. The results of our study highlight the potential of PFD/[InGaP/ZnS QDs] nanoemulsion as a bimodal imaging nanoprobe for molecular imaging in immune cell-based cancer therapies.

Published

2010

179. Size-dependent tissue kinetics of PEG-coated gold nanoparticles

Author

Minjung Cho, Jin Hong, Hyung-Seon Shin, Mina Choi, Jinyoung Jeong, Bong Hyun Chung, Wan-Seob Cho, Beom Seok Han, Myung-Haing Cho, and Jayoung Jeong

Subjects

Male, Pathology, medicine.medical_specialty, Kupffer Cells, Metal Nanoparticles, Spleen, Toxicology, Polyethylene Glycols, Mice, In vivo, PEG ratio, medicine, Cytochrome P-450 CYP1A1, Mesenteric lymph nodes, Animals, Particle Size, Lymph node, Pharmacology, Mice, Inbred BALB C, Chemistry, Mononuclear phagocyte system, Metabolism, medicine.anatomical_structure, Liver, Colloidal gold, Cytochrome P-450 CYP2B1, Biophysics, Metabolic Detoxication, Phase I, Gold, Lymph Nodes, Lysosomes

Abstract

Gold nanoparticles (AuNPs) can be used in various biomedical applications, however, very little is known about their size-dependent in vivo kinetics. Here, we performed a kinetic study in mice with different sizes of PEG-coated AuNPs. Small AuNPs (4 or 13 nm) showed high levels in blood for 24 h and were cleared by 7 days, whereas large (100 nm) AuNPs were completely cleared by 24 h. All AuNPs in blood re-increased at 3 months, which correlated with organ levels. Levels of small AuNPs were peaked at 7 days in the liver and spleen and at 1 month in the mesenteric lymph node, and remained high until 6 months, with slow elimination. In contrast, large AuNPs were taken up rapidly (∼ 30 min) into the liver, spleen, and mesenteric lymph nodes with less elimination phase. TEM showed that AuNPs were entrapped in cytoplasmic vesicles and lysosomes of Kupffer cells and macrophages of spleen and mesenteric lymph node. Small AuNPs transiently activated CYP1A1 and 2B, phase I metabolic enzymes, in liver tissues from 24 h to 7 days, which mirrored with elevated gold levels in the liver. Large AuNPs did not affect the metabolic enzymes. Thus, propensity to accumulate in the reticuloendothelial organs and activation of phase I metabolic enzymes, suggest that extensive further studies are needed for practical in vivo applications.

Published

2009

180. Multiplexed imaging of therapeutic cells with multispectrally encoded magnetofluorescent nanocomposite emulsions

Author

Bong Hyun Chung, Kwan Soo Hong, Yong-Hoon Cho, Jung Hyun Han, Anisha Gokarna, Ji-Na Kwon, Yong Taik Lim, Bang Sil Choi, Young-Woock Noh, and Jee-Hyun Cho

Subjects

Aqueous solution, Nanocomposite, Biocompatibility, Chemistry, Nanotechnology, General Chemistry, Selective excitation, Biochemistry, Catalysis, Specific fluorescence, Magnetics, Colloid and Surface Chemistry, Optical imaging, Quantum dot, Emulsions, Mr images, Fluorescent Dyes

Abstract

Here, we describe the fabrication of multispectrally encoded nanoprobes, perfluorocarbon (PFC)/quantum dots (QDs) nanocomposite emulsions, which could provide both multispectral MR and multicolor optical imaging modalities. Our strategy exploited the combination of the multispectral MR properties of four different PFC materials and the multicolor emission properties of three different colored CdSe/ZnS QDs. The PFC/QDs nanocomposite emulsions were fabricated by exchanging hydrophobic ligands coated onto CdSe/ZnS QDs using 1H,1H,2H,2H-perfluorooctanethiol, which renders the QDs to be dispersible in the PFC liquids. To provide biocompatibility, the PFC liquids containing QDs were emulsified into aqueous solutions with the aid of phospholipids. The distinct (19)F-based MR images of PFC/QDs nanocomposite emulsions were obtained by selective excitation of the nanocomposite emulsions with magnetic resonance frequency of each PFC, while a specific fluorescence image of them could be selected using appropriate optical filters. The uptake of PFC/QDs nanocomposite emulsions was high in phagocytic cells such as macrophages (90.55%) and dendritic cells (85.34%), while it was low in nonphagocytic T cells (33%). We have also shown that the nanocomposite emulsions were successfully applied to differentially visualize immunotherapeutic cells (macrophages, dendritic cells, and T cells) in vivo. The PFC/QDs nanocomposite emulsions are expected to be a promising multimodality nanoprobe for the multiplexed detection and imaging of therapeutic cells both in vitro and in vivo.

Published

2009

181. Near-infrared emitting fluorescent nanocrystals-labeled natural killer cells as a platform technology for the optical imaging of immunotherapeutic cells-based cancer therapy

Author

Jin Woong Chung, Bong Hyun Chung, Yong Taik Lim, Mi Young Cho, and Young-Woock Noh

Subjects

Cytotoxicity, Immunologic, Fluorescence-lifetime imaging microscopy, Materials science, Cell Survival, Infrared Rays, medicine.medical_treatment, Cell, Mice, Nude, Bioengineering, Nanotechnology, Immunotherapy, Adoptive, Antibodies, Fluorescence, Cell Line, Mice, Neoplasms, Quantum Dots, medicine, Animals, Humans, General Materials Science, Interferon gamma, Viability assay, Electrical and Electronic Engineering, Staining and Labeling, Mechanical Engineering, Cancer, General Chemistry, Immunotherapy, medicine.disease, CD56 Antigen, Molecular Imaging, Killer Cells, Natural, medicine.anatomical_structure, Mechanics of Materials, Cell culture, Cancer research, Nanoparticles, Female, Molecular imaging, medicine.drug

Abstract

This study describes the development of near-infrared optical imaging technology for the monitoring of immunotherapeutic cell-based cancer therapy using natural killer (NK) cells labeled with fluorescent nanocrystals. Although NK cell-based immunotherapeutic strategies have drawn interest as potent preclinical or clinical methods of cancer therapy, there are few reports documenting the molecular imaging of NK cell-based cancer therapy, primarily due to the difficulty of labeling of NK cells with imaging probes. Human natural killer cells (NK92MI) were labeled with anti-human CD56 antibody-coated quantum dots (QD705) for fluorescence imaging. FACS analysis showed that the NK92MI cells labeled with anti-human CD56 antibody-coated QD705 have no effect on the cell viability. The effect of anti-human CD56 antibody-coated QD705 labeling on the NK92MI cell function was investigated by measuring interferon gamma (IFN-gamma) production and cytolytic activity. Finally, the NK92MI cells labeled with anti-human CD56 antibody-coated QD705 showed a therapeutic effect similar to that of unlabeled NK92MI cells. Images of intratumorally injected NK92MI cells labeled with anti-human CD56 antibody-coated could be acquired using near-infrared optical imaging both in vivo and in vitro. This result demonstrates that the immunotherapeutic cells labeled with fluorescent nanocrystals can be a versatile platform for the effective tracking of injected therapeutic cells using optical imaging technology, which is very important in cell-based cancer therapies.

Published

2009

182. Novel poly(dimethylsiloxane) bonding strategy via room temperature 'chemical gluing'

Author

Nae Yoon Lee and Bong Hyun Chung

Subjects

Chemistry, Polymers, Surface Properties, X-Rays, Analytical chemistry, Cell Culture Techniques, Temperature, Substrate (chemistry), Surfaces and Interfaces, Adhesion, Microfluidic Analytical Techniques, Silanes, Condensed Matter Physics, Contact angle, Spectrometry, Fluorescence, Chemical engineering, Spectrophotometry, Electrochemistry, Cell Adhesion, General Materials Science, Dimethylpolysiloxanes, Spectroscopy

Abstract

Here we propose a new scheme for bonding poly(dimethylsiloxane) (PDMS), namely, a "chemical gluing", at room temperature by anchoring chemical functionalities on the surfaces of PDMS. Aminosilane and epoxysilane are anchored separately on the surfaces of two PDMS substrates, the reaction of which are well-known to form a strong amine-epoxy bond, therefore acting as a chemical glue. The bonding is performed for 1 h at room temperature without employing heat. We characterize the surface properties and composition by contact angle measurement, X-ray photoelectron spectroscopy analysis, and fluorescence measurement to confirm the formation of surface functionalities and investigate the adhesion strength by means of pulling, tearing, and leakage tests. As confirmed by the above-mentioned analyses and tests, PDMS surfaces were successfully modified with amine and epoxy functionalities, and a bonding based on the amine-epoxy chemical gluing was successfully realized within 1 h at room temperature. The bonding was sufficiently robust to tolerate intense introduction of liquid whose per minute injection volume was almost 2000 times larger than the total internal volume of the microchannel used. In addition to the bonding of PDMS-PDMS homogeneous assembly, the bonding of the PDMS-poly(ethylene terephthalate) heterogeneous assembly was also examined. We also investigate the potential use of the multifunctionalized walls inside the microchannel, generated as a consequence of the chemical gluing, as a platform for the targeted immobilization.

Published

2009

183. Synapse formation regulated by protein tyrosine phosphatase receptor T through interaction with cell adhesion molecules and Fyn

Author

Dae Gwin Jeong, Eunha Park, Seong Eon Ryu, Jae-Ran Lee, Myung Kyu Lee, Pyung Keun Myung, Seung Jun Kim, So Hee Lim, Seok-Kyu Kwon, Jeonghee Moon, Sang Chul Lee, Byung Chul Park, Dae Yeul Yu, Bong Hyun Chung, and Eunjoon Kim

Subjects

Guinea Pigs, Protein tyrosine phosphatase, Biology, Proto-Oncogene Proteins c-fyn, Models, Biological, Synaptic Transmission, General Biochemistry, Genetics and Molecular Biology, Article, chemistry.chemical_compound, Mice, FYN, Animals, Humans, Tyrosine, Phosphorylation, RNA, Small Interfering, Cell adhesion, Molecular Biology, PTPRT, Cells, Cultured, Neurons, General Immunology and Microbiology, General Neuroscience, Receptor-Like Protein Tyrosine Phosphatases, Class 2, Brain, Tyrosine phosphorylation, Cell biology, Rats, chemistry, Synapses, Tyrosine kinase, Cell Adhesion Molecules, Protein Binding

Abstract

The receptor-type protein tyrosine phosphatases (RPTPs) have been linked to signal transduction, cell adhesion, and neurite extension. PTPRT/RPTPrho is exclusively expressed in the central nervous system and regulates synapse formation by interacting with cell adhesion molecules and Fyn protein tyrosine kinase. Overexpression of PTPRT in cultured neurons increased the number of excitatory and inhibitory synapses by recruiting neuroligins that interact with PTPRT through their ecto-domains. In contrast, knockdown of PTPRT inhibited synapse formation and withered dendrites. Incubation of cultured neurons with recombinant proteins containing the extracellular region of PTPRT reduced the number of synapses by inhibiting the interaction between ecto-domains. Synapse formation by PTPRT was inhibited by phosphorylation of tyrosine 912 within the membrane-proximal catalytic domain of PTPRT by Fyn. This tyrosine phosphorylation reduced phosphatase activity of PTPRT and reinforced homophilic interactions of PTPRT, thereby preventing the heterophilic interaction between PTPRT and neuroligins. These results suggest that brain-specific PTPRT regulates synapse formation through interaction with cell adhesion molecules, and this function and the phosphatase activity are attenuated through tyrosine phosphorylation by the synaptic tyrosine kinase Fyn.

Published

2009

184. Synthesis and characterization of a photoluminescent nanoparticle based on fullerene-silica hybridization

Author

Mi-Young Cho, Jinyoung Jeong, Nam Woong Song, Yong Taik Lim, and Bong Hyun Chung

Subjects

Photoluminescence, Fullerene, Cell Membrane Permeability, Luminescence, Luminescent Agents, Chemistry, Cell Survival, Macrophages, Nanoparticle, Nanotechnology, General Medicine, General Chemistry, Silicon Dioxide, Catalysis, Characterization (materials science), Mice, Cell Line, Tumor, Animals, Nanoparticles, Fullerenes

Abstract

Strahlemanner: Fulleren-Siliciumdioxid-Hybridnanopartikel verfugen uber helle Photolumineszenz, hohe Photobestandigkeit und geringe Zelltoxizitat – alles Vorteile bei der Verwendung als Bildgebungsagentien fur biologische Proben. Die Photolumineszenz der Nanopartikel beruht auf den C-O-Si-Bindungen (siehe Bild).

Published

2009

185. Enhanced immobilization of hexa-arginine-tagged esterase on gold nanoparticles using mixed self-assembled monolayers

Author

Bong Hyun Chung, Chang-Soo Lee, Jinyoung Jeong, and Sang J. Chung

Subjects

Immobilized enzyme, Ligand, Chemistry, Esterases, Metal Nanoparticles, Bioengineering, Self-assembled monolayer, General Medicine, Enzymes, Immobilized, Combinatorial chemistry, Catalysis, Hydrophobic effect, Ultraviolet visible spectroscopy, Colloidal gold, Monolayer, Organic chemistry, Surface modification, Gold, Peptides, Biotechnology

Abstract

Mixed self-assembled monolayers (MSAMs) composed of diverse ligands offer a mechanism for the specific binding of biomolecules onto solid surfaces. In this study, we examined the formation of MSAMs on gold nanoparticles (AuNPs) and the immobilization of hexa-arginine-tagged esterase (Arg(6)-esterase) on the surfaces of the resulting particles. The functionalization of AuNPs with MSAMs was achieved by introducing a mixture of tethering and shielding ligands into an AuNP solution. The formation of self-assembled monolayers (SAMs) on the AuNP surface was characterized by UV/visible spectroscopy, transmission electron microscopy, and Fourier-transform infrared spectroscopy. Arg(6)-esterase was immobilized in a highly specific manner onto AuNPs treated with mixed SAMs (MSAM-AuNPs) by providing a shielding ligand which reduce the non-specific adsorption of enzymes caused by hydrophobic interaction compared to AuNPs treated with single-component SAMs (SSAM-AuNPs). Moreover, Arg(6)-esterase immobilized on MSAM-AuNPs showed substantially enhanced catalytic activity up to an original activity compared to that on SSAM-AuNPs (58%).

Published

2009

186. Metal-affinity partitioning of phosphoproteins in PEG/dextran two-phase systems

Author

Bong Hyun Chung and Frances H. Arnold

Subjects

Aqueous solution, Chromatography, Iminodiacetic acid, Bioengineering, General Medicine, Phosvitin, Applied Microbiology and Biotechnology, Metal, Partition coefficient, chemistry.chemical_compound, Dextran, chemistry, visual_art, Phase (matter), PEG ratio, visual_art.visual_art_medium, Biotechnology, Nuclear chemistry

Abstract

Ferric ion (Fe3+) complexed to iminodiacetic acid (IDA)-polyethylene glycol enhances the partitioning of phosphoproteins in PEG/dextran aqueous two-phase systems. The ratio of partition coefficients in the presence and absence of Fe(III)IDA-PEG, K/K0, is highly sensitive to pH, increasing in the pH range of 3.0 to 5.0 and decreasing rapidly with a further increase in pH. The steep decline in partition coefficients above pH 5 can be explained by inhibitory binding of hydroxyl ions to ferric ion. In metal-affinity partitioning of phosvitin, the most highly phosphorylated protein known, K/K0≫1,000 was obtained. This is one of the highest values reported for affinity partitioning.

Published

1991

187. Production of recombinant human interleukin-z by Escherichia coli with computer controlled temperature induction

Author

Sun Bok Lee, Young Hoon Park, Moon Hi Han, Dong Jin Seo, and Bong Hyun Chung

Subjects

Chromatography, Expression vector, biology, Strain (chemistry), Cell growth, Industrial fermentation, medicine.disease_cause, biology.organism_classification, Applied Microbiology and Biotechnology, Biochemistry, Enterobacteriaceae, Microbiology, law.invention, law, Yield (chemistry), medicine, Recombinant DNA, Escherichia coli

Abstract

The amount of alkali added to the fermentation broth of a recombinant Escherichia coli strain for pH control was monitored on-line by an electronic balance interfaced to a computer. It was successfully correlated with the cell mass, and consequently the cell growth could be well estimated. Using this cell growth estimation technique, an automatic temperature induction was successfully carried out to produce human interleukin-2 in a high yield from E. coli harbouring a temperature controlled expression vector system.

Published

1991

188. Multifunctional silica nanocapsule with a single surface hole

Author

Bong Hyun Chung, Yong Taik Lim, Young-Woock Noh, Mi Young Cho, and Jin Kyeong Kim

Subjects

Surface (mathematics), Materials science, Surface Properties, Nanoparticle, Mice, Nude, General Chemistry, Silicon Dioxide, Ammonium compounds, Magnetic field, Biomaterials, Magnetics, Mice, Chemical engineering, Nanocapsules, Animals, General Materials Science, Female, Functional polymers, Cells, Cultured, Biotechnology

Published

2008

189. Paramagnetic gold nanostructures for dual modal bioimaging and phototherapy of cancer cells

Author

Jung Min Lee, Yong Taik Lim, Bang Sil Choi, Mi Young Cho, and Bong Hyun Chung

Subjects

Optics and Photonics, Nanostructure, Materials science, genetic structures, Gadolinium, chemistry.chemical_element, Metal Nanoparticles, Nanotechnology, Breast Neoplasms, Catalysis, Paramagnetism, Magnetics, Cell Line, Tumor, Materials Chemistry, Humans, Metal nanoparticles, Plasmon, business.industry, Metals and Alloys, General Chemistry, Phototherapy, Magnetic Resonance Imaging, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, Colloidal gold, Cancer cell, Ceramics and Composites, Optoelectronics, Breast cancer cells, Gold, business

Abstract

Paramagnetic gold nanostructures were synthesized by combining the paramagnetism of gadolinium with the plasmonic properties of gold nanoparticles and used for dual modal (MRI and optical) imaging and phototherapy of breast cancer cells.

Published

2008

190. Surface Plasmon Resonance

Author

Moonil Kim, Yong-Beom Shin, and Bong Hyun Chung

Subjects

Materials science, Nuclear magnetic resonance, Surface plasmon resonance

Published

2008

191. Biocompatible polymer-nanoparticle-based bimodal imaging contrast agents for the labeling and tracking of dendritic cells

Author

Bong Hyun Chung, Kwon-Ha Yoon, Young-Woock Noh, Yong Taik Lim, Jung Hyun Han, and Quan-Yu Cai

Subjects

Indocyanine Green, Biocompatible polymers, Materials science, media_common.quotation_subject, Nanoparticle, Contrast Media, Biocompatible Materials, Tracking (particle physics), Ferric Compounds, Biomaterials, chemistry.chemical_compound, Mice, Imaging, Three-Dimensional, Polylactic Acid-Polyglycolic Acid Copolymer, Contrast (vision), Animals, Humans, General Materials Science, Lactic Acid, Serum Albumin, media_common, Polylactic acid-polyglycolic acid copolymer, Staining and Labeling, General Chemistry, Dendritic Cells, Biocompatible material, Fluorescence, Magnetic Resonance Imaging, Lactic acid, Glycolates, Mice, Inbred C57BL, chemistry, Nanoparticles, Polyglycolic Acid, Biotechnology, Biomedical engineering

Published

2008

192. Simultaneous intracellular delivery of targeting antibodies and functional nanoparticles with engineered protein G system

Author

Yong Taik Lim, Jung Min Lee, Mi Young Cho, Bong Hyun Chung, and Sang J. Chung

Subjects

Materials science, media_common.quotation_subject, Biophysics, Intracellular Space, Nanoparticle, Bioengineering, Nanotechnology, Peptide, Nerve Tissue Proteins, Protein Engineering, Antibodies, Biomaterials, Drug Delivery Systems, Quantum Dots, Humans, Internalization, media_common, chemistry.chemical_classification, biology, Biomolecule, Recombinant Proteins, chemistry, Microscopy, Fluorescence, Mechanics of Materials, Ceramics and Composites, biology.protein, Surface modification, Nanoparticles, Protein G, Antibody, Intracellular, HeLa Cells

Abstract

Cellular internalization of functional nanoparticles that have optical and magnetic properties is very important in the cellular imaging and manipulation of specifically targeted biomolecules. In this study, a robust method to deliver functional nanoparticles and targeting antibodies into cells was suggested. The engineered protein G system, which contains an affinity tag and a cell penetration peptide in the N- and C-terminals, respectively, can capture surface-modified nanoparticles and antibodies without chemical reaction, and then non-invasively deliver them into the cells. Finally, gold-coated iron oxide nanoparticle/engineered protein G hybrid systems were successfully employed as multifunctional cargo systems for the targeting, imaging, and manipulation of mitochondria.

Published

2008

193. Recent advances in immobilization methods of antibodies on solid supports

Author

Yongwon Jung, Jinyoung Jeong, and Bong Hyun Chung

Subjects

biology, Antigen-antibody reactions, Chemistry, Antibody combining site, Antibodies, Monoclonal, Nanotechnology, Immunologic Tests, Biochemistry, Analytical Chemistry, Antigen-Antibody Reactions, Antibodies monoclonal, Electrochemistry, biology.protein, Environmental Chemistry, Humans, Gold surface, Adsorption, Antibody, Antigens, Spectroscopy

Abstract

Antibody immobilization on a solid support is an essential process for the development of most immune-based assay systems. The choice of the immobilization method greatly affects antibody–antigen interactions on the assay surface. For the past several years, numerous strategies have been reported to control antibody immobilization, mainly by directing the orientation, stability, and density of bound antibodies on different assay platforms. Here we discuss recent developments in antibody immobilization methods with a particular focus on the strengths and limitations of reported approaches, and thereby provide a useful guideline for the selection of suitable antibody coupling procedures.

Published

2008

194. Biotechnology in the Asian-Pacific Region

Author

Rolf D. Schmid, Bong-Hyun Chung, Alan J. Jones, Susono Saono, Jeannie Scriven, and Jane H. J. Tsai

Published

2008

195. Construction of protein chip to detect binding of Mitf protein (microphthalmia transcription factor) and E-box DNA

Author

Eun-Ki Kim, Bong-Hyun Chung, Jeonghyun Shin, Hae Jong Kim, Seung-Hak Baek, Eun-Young Kwak, Sang-Hee Yang, and Jung-Sun Han

Subjects

DNA, Bacterial, Two-hybrid screening, Recombinant Fusion Proteins, Protein Array Analysis, Bioengineering, E-box, Applied Microbiology and Biotechnology, Biochemistry, Maltose-Binding Proteins, E-Box Elements, chemistry.chemical_compound, Maltose-binding protein, Escherichia coli, Humans, Molecular Biology, Transcription factor, Microphthalmia-Associated Transcription Factor, integumentary system, biology, Binding protein, General Medicine, Microphthalmia-associated transcription factor, Molecular biology, body regions, Immobilized Proteins, Spectrometry, Fluorescence, chemistry, biology.protein, Protein microarray, Carrier Proteins, DNA, Biotechnology, Protein Binding

Abstract

A protein chip was constructed to detect the binding of microphthalmia-associated transcription factor (Mitf) and E-box DNA. Mitf, a key regulatory transcriptional factor of pigmentation-related genes such as tyrosinase, binds to specific sequence (CATGTG) in E-box DNA within the promoter of tyrosinase in the melanocytes. We produced Mitf as a maltose-binding protein (MBP) fusion protein in Escherichia coli, purified it using an affinity column, and immobilized it on beta-cyclodextrin-coated glass plate. Binding of Mitf to its target DNA, E-box oligomer, was monitored by surface plasmon resonance (SPR), SPR imaging (SPRi), and fluorescence-based system. Among these detection methods, fluorescence method was the most reliable. In this method, fluorescent intensity was proportional to the DNA concentration (up to 20 microM) and Mitf (up to 500 microg/ml). Kinetics of DNA binding with Mitf showed Langmuir isotherm, and its kinetic constants were determined. It is expected that Mitf-E-box DNA chip can be used as a screening tool for depigmenting agents in the cosmetic industry.

Published

2007

196. Stress-governed expression and purification of human type II hexokinase in Escherichia coli

Author

Eun-Ju, Jeong, Kyoungsook, Park, So Yeon, Yi, Hyo-Jin, Kang, Sang J, Chung, Chang-Soo, Lee, Jin Woong, Chung, Dai-Wu, Seol, Bong Hyun, Chung, and Moonil, Kim

Subjects

Solubility, Osmotic Pressure, Hexokinase, Genetic Vectors, Escherichia coli, Temperature, Humans, Recombinant Proteins

Abstract

The full encoding sequence for human type II hexokinase (HXK II) was cloned into the E. coli expression vector pET 21b and expressed as a C-terminally hexahistidine-tagged protein in the BL21 (DE3) strain. The IPTG-induced HXK II approximately accounted for 17% of the total E. coli proteins, and 81% of HXK II(6xHis) existed in inclusion bodies. To improve the production of soluble recombinant HXK II protein, in the functionally active form, we used low temperature, and the osmotic stress expression method. When expressed at 18 degrees C, about 83% of HXK II(6xHis) existed in the soluble fraction, which amounted to a 4.1-fold yield over that expressed at 37 degrees C. The soluble form of HXK II(6xHis) was also highly produced in the presence of 1 M sorbitol under the standard condition (37 degrees C), which indicated that temperature downshift and low water potentials were required to improve the yield of active recombinant HXK II protein. The expressed protein was purified by metal chelate affinity chromatography performed in an IDA Excellose column charged with Ni2+ ions, resulting in about 40 mg recombinant HXK II protein obtained with purity over 89% from 5 l of E. coli culture. The identity of HXK II(6xHis) was confirmed by Western blotting analysis. Taken together, using the stress-governed expression described in this study, human active HXK II can be purified in sufficient amounts for biochemical and biomedical studies.

Published

2007

197. Self-directed and self-oriented immobilization of antibody by protein G-DNA conjugate

Author

Bong Hyun Chung, Yongwon Jung, Hyungil Jung, and Jeong Min Lee

Subjects

Models, Molecular, G protein, Surface Properties, Metal Nanoparticles, Peptide, Nerve Tissue Proteins, Antibodies, Analytical Chemistry, chemistry.chemical_compound, Protein structure, Animals, Antigens, chemistry.chemical_classification, biology, Chemistry, Oligonucleotide, DNA, Surface Plasmon Resonance, Protein Structure, Tertiary, Biochemistry, biology.protein, Cattle, Protein G, Gold, Linker, Conjugate

Abstract

A versatile biolinker for efficient antibody immobilization was prepared by site-specific coupling of protein G to DNA oligonucleotide. This protein G-DNA conjugate ensures the controlled immobilization of an antibody to the intended area on the surface of bioassay chips or particles, while maintaining the activity and orientation of the bound antibody. Streptococcus protein G tagged with a cysteine residue at the N-terminus was chemically linked to amine-modified, single-stranded DNA. SPR analysis indicated that the protein G-DNA conjugates sequence-specifically bind to complementary surface-bound DNA probes. More importantly, the resulting protein G, which is hybridized onto the DNA surface, possesses a greater antibody/antigen binding ability than even properly oriented protein G linked on the chip surface by chemical bonding. Antibody targeting on glass slides could also be achieved by using this linker system without modifying or spotting antibodies. Moreover, the protein G-DNA conjugate provided a simple but effective method to label DNA-functionalized gold nanoparticles with target antibodies. The DNA-linked protein G construct introduced in this study offers a useful strategy to manage antibody immobilization in many immunoassay systems.

Published

2007

198. Photoreactive immobilization of 11-(2,4-dinitro-5-fluorobenzene)undecenamide on a hydrogenated silicon (100) surface for protein immobilizations

Author

Tai Hwan Ha, Hye Jung Park, Mi-ra Park, Bong Hyun Chung, Guncheol Kim, Moon Seop Hyun, and Jae-Sik Choi

Subjects

Silicon, Photochemistry, Surface Properties, chemistry.chemical_element, Conjugated system, Catalysis, chemistry.chemical_compound, Nucleophile, Amide, Monolayer, Alkanes, Materials Chemistry, Ions, Molecular Structure, Fluorobenzene, Metals and Alloys, Ethyleneimine, Proteins, Water, General Chemistry, Amides, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Fluorobenzenes, chemistry, Ceramics and Composites, Stearic acid, Hydrogen

Abstract

Several nucleophiles such as proteins or poly(ethyleneimine) could be easily conjugated with a 11-(2,4-dinitro-5-fluorobenzene)undecenamide (DFUA) monolayer photochemically prepared on a silicon (100) surface.

Published

2007

199. The Korean researchdevelopment program on micro-electro-mechanical systems (MEMS) in medical applications

Author

Tae Song Kim, Seon Hee Park, Sung June Kim, Kyung Hwa Yoo, and Bong Hyun Chung

Subjects

Microelectromechanical systems, Endoscopes, Engineering, Korea, Miniaturization, Nano devices, business.industry, Research, Monitoring, Ambulatory, Nanotechnology, Prostheses and Implants, Medical research, Telemedicine, Electronics, Medical, Equipment and Supplies, Systems engineering, Humans, Surgery, Research development, Electronics, business

Abstract

Non or minimally invasive approaches for medical applications are very important for the alleviation of patient complaints. The miniaturization of medical devices using micro & nano technologies might be one of the possible solutions. Several national research and development (R&D) programs have been launched by the Korean government to further the development of biological & medical micro/nano devices in this country. This paper gives an overview of the current status of national R&D programs which are related to the development of micro‐electro‐mechanical systems (MEMS)/Nano technology in biological and medical applications and discusses the main activities of each program

Published

2007

200. Direct immobilization of protein g variants with various numbers of cysteine residues on a gold surface

Author

Sun Ok Jung, Hyun Kyu Park, Bong Hyun Chung, Jin Kyeong Kim, Jeong Min Lee, and Yongwon Jung

Subjects

G protein, Surface Properties, Peptide, Nerve Tissue Proteins, Microscopy, Atomic Force, Sensitivity and Specificity, Antibodies, Analytical Chemistry, Antigen-Antibody Reactions, Antigen, Protein A/G, Humans, Cysteine, Binding site, chemistry.chemical_classification, Binding Sites, biology, Chemistry, Streptococcus, Surface Plasmon Resonance, Fragment crystallizable region, Recombinant Proteins, Biochemistry, biology.protein, Nanoparticles, Protein G, Adsorption, Gold, Antibody

Abstract

Protein G is an antibody binding protein, which specifically targets the Fc region of an antibody. It therefore has been widely used to immobilize different types of antibodies in numerous immunoassays. Here, we have engineered Streptococcus protein G to contain various numbers of cysteine residues at the N-terminus and therefore to form well-oriented protein G films on bare gold. SPR and SPR imaging analyses indicated that a gold surface treated with cysteine-tagged protein G possesses a superior antibody binding ability compared to one treated with tag-free protein G. AFM images indicated a higher surface coverage by antibody binding on the cysteine-tagged protein G surface than the intact protein G surface. The proper orientation of cysteine-tagged protein G on a gold surface also afforded better orientation of immobilized antibodies, resulting in enhanced antigen detection. Moreover, the protein G surfaces maintained their high antibody binding ability during multiple rounds of antibody interaction tests. The cysteine-tagged protein G constructed in this study can be a valuable link for oriented antibody immobilization in a variety of immunosensors.

Published

2007