Byung Joon Lim scite author profile

To make the electrochemical DNA sensors (E-sensor) more robust and reproducible, we have now for the first time adapted the techniques of ratiometric analyses to the field of E-sensors. We did this via the simple expedient way of simultaneously using two redox probes: Methylene blue as the reporter of the conformational change, and ferrocene as an internal control. During the conformational transduction, only the distance between the signal probe and the electrode surface undergoes an appreciable change, while the distance between the control probe and the electrode remains relatively constant. This special design has allowed very reliable target recognition, as illustrated in this report using a human T-lymphotropic virus type I gene fragment. The standard deviation between measurements obtained using different electrodes was an order of magnitude less than that obtained using a classic E-sensor, which we prepared as a control. A limit of detection of 25.1 pM was obtained with our new system, with a single mismatch discrimination factor of 2.33 likewise being observed. Additionally, this concept had general applicability, and preliminary data of a “Signal-On” ratiometric E-sensor are also provided. Taken in concert, these results serve to validate the utility of what we believe will emerge as an easily generalized approach to oligonucleotide recognition and sensing.

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Targetable Tetrazine‐Based Dynamic Nuclear Polarization Agents for Biological Systems

Lim

Ackermann

Debelouchina

2020

ChemBioChem

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Dynamic nuclear polarization (DNP) has shown great promise as a tool to enhance the nuclear magnetic resonance signals of proteins in the cellular environment. As sensitivity increases, the ability to select and efficiently polarize a specific macromolecule over the cellular background has become desirable. Herein, we address this need and present a tetrazine‐based DNP agent that can be targeted selectively to proteins containing the unnatural amino acid (UAA) norbornene‐lysine. This UAA can be introduced efficiently into the cellular milieu by genetic means. Our approach is bio‐orthogonal and easily adaptable to any protein of interest. We illustrate the scope of our methodology and investigate the DNP transfer mechanisms in several biological systems. Our results shed light on the complex polarization‐transfer pathways in targeted DNP and ultimately pave the way to selective DNP‐enhanced NMR spectroscopy in both bacterial and mammalian cells.

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A Comparative Study of Nitroxide‐Based Biradicals for Dynamic Nuclear Polarization in Cellular Environments

et al. 2022

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Dynamic nuclear polarization (DNP) is a powerful tool to enhance the NMR signals of molecules by transferring polarization from unpaired electron spins to nuclei through microwave irradiation. The resulting signal enhancements can enable the analysis of samples that have previously been intractable by NMR spectroscopy, including proteins, nucleic acids, and metabolites in cells. To carry out DNP, the sample is doped with a polarization agent, a biradical containing two nitroxide moieties. DNP applications in cells, however, present significant challenges as nitroxides are often susceptible to the reducing cellular environment. Here, we introduce a novel polarization agent, POPAPOL, that exhibits increased lifetimes under reducing conditions. We also compare its bioresistance and DNP performance with three popular, commercially available polarization agents. Our work indicates that pyrrolidine‐based nitroxides can outperform piperidine‐based nitroxides in cellular environments, and that future polarization agent designs must carefully balance DNP performance and stability for cellular applications.

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Targetable Tetrazine-Based Dynamic Nuclear Polarization Agents for Biological Systems

Lim¹,

Ackermann²,

Debelouchina³

2019

Preprint

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Dynamic nuclear polarization (DNP) has shown great promise as a tool to enhance the nuclear magnetic resonance (NMR) signals of proteins in the cellular environment. As the sensitivity increases, the ability to select and efficiently polarize a specific macromolecule over the cellular background has become desirable. Here, we address this need and present a tetrazine-based DNP polarization agent that can be targeted selectively to proteins containing the unnatural amino acid (UAA) norbornene-lysine. The UAA can be introduced efficiently by genetic means in the cellular milieu. Our approach is bio-orthogonal and easily adaptable to any protein of interest. We illustrate the scope of our methodology and investigate the DNP polarization transfer mechanisms in several biological systems. Our results present the first molecular view of the complex polarization transfer pathways in targeted DNP and ultimately pave the way to selective DNP-enhanced NMR spectroscopy in both bacterial and mammalian cells.

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Synthesis of Ferrocene Derivatives Allowing Linear Free Energy Studies of Redox Potentials

Lim

Hwang

Ellington

et al. 2019

Helvetica Chimica Acta

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A series of ferrocene derivatives, which have diverse redox potentials modulated by functional groups, have been synthesized as potential ‘multi‐potential’ probes. A Hammett constant analysis revealed a linear free energy correlation between the redox potentials and the electron density of the ferrocene derivatives as determined by the choice of functional group used to modify the ferrocene core.

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Byung Joon Lim

Reagentless, Ratiometric Electrochemical DNA Sensors with Improved Robustness and Reproducibility

Targetable Tetrazine‐Based Dynamic Nuclear Polarization Agents for Biological Systems

A Comparative Study of Nitroxide‐Based Biradicals for Dynamic Nuclear Polarization in Cellular Environments

Targetable Tetrazine-Based Dynamic Nuclear Polarization Agents for Biological Systems

Synthesis of Ferrocene Derivatives Allowing Linear Free Energy Studies of Redox Potentials

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