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Your search keyword '"Cho, Nam-Joon"' showing total 17 results
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17 results on '"Cho, Nam-Joon"'

1. Multistep Compositional Remodeling of Supported Lipid Membranes by Interfacially Active Phosphatidylinositol Kinases

Author

Tabaei, Seyed R, Guo, Feng, Rutaganira, Florentine U, Vafaei, Setareh, Choong, Ingrid, Shokat, Kevan M, Glenn, Jeffrey S, and Cho, Nam-Joon

Subjects
Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Generic health relevance, 1-Phosphatidylinositol 4-Kinase, Enzyme Inhibitors, Lipid Bilayers, Membrane Proteins, Phosphatidylinositol 4, 5-Diphosphate, Phosphatidylinositol Phosphates, Phosphotransferases (Alcohol Group Acceptor), Quartz Crystal Microbalance Techniques, Analytical Chemistry, Other Chemical Sciences
Abstract

The multienzyme catalytic phosphorylation of phosphatidylinositol (PI) in a supported lipid membrane platform is demonstrated for the first time. One-step treatment with PI 4-kinase IIIβ (PI4Kβ) yielded PI 4-phosphate (PI4P), while a multistep enzymatic cascade of PI4Kβ followed by PIP 5-kinase produced PI-4,5-bisphosphate (PI(4,5)P2 or PIP2). By employing quartz crystal microbalance with dissipation monitoring, we were able to track membrane association of kinase enzymes for the first time as well as detect PI4P and PI(4,5)P2 generation based on subsequent antibody binding to the supported lipid bilayers. Pharmacologic inhibition of PI4Kβ by a small molecule inhibitor was also quantitatively assessed, yielding an EC50 value that agrees well with conventional biochemical readout. Taken together, the development of a PI-containing supported membrane platform coupled with surface-sensitive measurement techniques for kinase studies opens the door to exploring the rich biochemistry and pharmacological targeting of membrane-associated phosphoinositides.

Published
2016

2. Alpha-helical peptide-induced vesicle rupture revealing new insight into the vesicle fusion process as monitored in situ by quartz crystal microbalance-dissipation and reflectometry

Author

Cho, Nam-Joon, Wang, Guoliang, Edvardsson, Malin, Glenn, Jeffrey S., Hook, Fredrik, and Frank, Curtis W.

Subjects
Peptides -- Properties, Vacuoles -- Properties, Quartz crystals -- Properties, Reflection (Optics) -- Measurement, Nuclear fusion -- Research, Chemistry
Abstract

We have used simultaneous quartz crystal microbalance-dissipation (QCM-D) monitoring and four-detector optical reflectometry to monitor in situ the structural transformation of intact vesicles to a lipid bilayer on a gold surface. The structural transformation of lipid vesicles to a bilayer was achieved by introducing a particular amphiphathic, [alpha]-helical (AH) peptide. The combined experimental apparatus allows us to simultaneously follow the acoustic and optical property changes of the vesicle rupturing process upon interaction with AH peptides. While QCM-D and reflectometry have similar sensitivities in terms of mass and thickness resolution, there are unique advantages in operating these techniques simultaneously on the same substrate. These advantages permit us to (1) follow the complex interaction between AH peptides and intact vesicles with both acoustic and optical mass measurements, (2) calculate the amount of dynamically coupled water during the interaction between AH peptides and intact vesicles, (3) demonstrate that the unexpectedly large increase of both adsorbed mass and the film's energy dissipation is mainly caused by swelling of the vesicles during the binding interaction with AH peptides, and (4) permit us to understand the structural transformation from intact vesicles to a bilayer via the AH peptide interaction by monitoring viscoelastic properties, acoustic mass, optical mass, and thickness changes of both the binding and destabilization processes. From the deduced 'hydration signature' we followed the complex transformation of lipid assemblies. On the basis of this information, a mechanism of this structural transformation is proposed that provides new insight into the process of vesicle fusion on solid substrates.

Published
2009

3. Employing two different quartz crystal microbalance models to study changes in viscoelastic behavior upon transformation of lipid vesicles to a bilayer on a gold surface

Author

Cho, Nam-Joon, Kanazawa, Kay K., Glenn, Jeffrey S., and Frank, Curtis W.

Subjects
Lipid membranes -- Chemical properties, Quartz crystals -- Usage, Viscoelasticity -- Evaluation, Chemistry
Abstract

By analyzing the viscoelastic properties of two distinct layers, a layer of 'soft' vesicles and a 'rigid' bilayer, we have created a model system to permit the study of film behavior in the region of nonlinear mass and frequency change (non-Sauerbrey). The structural transformation of lipid vesicles to a bilayer is shown to be accompanied by significant changes in their physical properties. After the adsorption and saturation of intact vesicles on gold surfaces, the adsorbed vesicle layer exhibits a soft, water-rich, viscoelastic state. The AH peptide, a vesicle-destabilizing agent, is then added to trigger the formation of a much thinner (~5 nm), compact, and rigid bilayer. In this study, we used the quartz crystal microbalance with dissipation technique. Large non-Sauerbrey frequency and energy dissipation changes characterize the viscoelastic nature of adsorbed intact vesicle films thicker than ~10 nm. Once the transformation is complete, the frequency changes along with zero energy dissipation for sufficiently thin films (t ~ 5 nm) were effectively modeled with the Sauerbrey equation. Furthermore, we checked the validity of the Voigt-Voinova model in which the quartz substrate is treated as a Voigt element, which is beyond the Sauerbrey description. The calculations treating the film as having a constant viscosity agreed well with the Voigt-Voinova model. These results were compared to calculations done using the electromechanical (EM) model, which does not require a series expansion. The VoigtVoinova results were in excellent agreement with the EM model, providing evidence that the expansion used in their study is quite accurate.

Published
2007

15. Detection of Amphipathic Viral Peptide on Screen-Printed Electrodes by Liposome Rupture Impact Voltammetry

Author

Nasir, Muhammad Zafir Mohamad, Jackman, Joshua A., Cho, Nam-Joon, Ambrosi, Adriano, and Pumera, Martin

Abstract

Detection of infectious viruses and disease biomarkers is of utmost importance in clinical screening for effective identification and treatment of diseases. We demonstrate here the use of liposome rupture impact voltammetry for the qualitative detection of model amphipathic viral peptide on a screen-printed electrode. This novel, proof-of-concept method was proposed for the quick and reliable detection of viruses by nonfaradaic liposome rupture impact voltammetry with the aid of 1,2-dioleoyl-sn-glycero-3-phosphocholine liposomes. This provides an avenue for the development of future on-site, point-of-care detection devices for medical and biological applications.

Published
2024
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