Sho Hee Park scite author profile

Sho Hee Park

4Publications

9Citation Statements Received

346Citation Statements Given

How they've been cited

How they cite others

276

346

Affiliations

Seoul National University

Publications

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Dynamic G Protein-Coupled Receptor Signaling Probed by Solution NMR Spectroscopy

Park

Lee

2020

Biochemistry

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Nuclear magnetic resonance (NMR) spectroscopy is a powerful tool for investigating various dynamic features of G protein-coupled receptor (GPCR) signaling. In this Perspective, we focus on NMR techniques to characterize ligand-dependent conformational dynamics of GPCRs as well as the interaction of GPCRs with their environment and ligands. We also describe circumstances under which each technique should be applied, their advantages and disadvantages, and how they can be combined with other strategies to deepen the understanding of GPCR signaling at the molecular level.

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High-Resolution Diffusion Measurements of Proteins by NMR under Near-Physiological Conditions

et al. 2020

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Measuring the translational diffusion of proteins under physiological conditions can be very informative, especially when multiple diffusing species can be distinguished. Diffusion NMR or diffusion-ordered spectroscopy (DOSY) is widely used to study molecular diffusion, where protons are used as probes, which can be further edited by the proton-attached heteronuclei to provide additional resolution. For example, the combination of the backbone amide protons (1HN) to measure diffusion with the well-resolved 1H/15N correlations has afforded high-resolution DOSY experiments. However, significant amide–water proton exchange at physiological temperature and pH can affect the accuracy of diffusion data or cause complete loss of DOSY signals. Although aliphatic protons do not exchange with water protons, and thus are potential probes to measure diffusion rates, 1H/13C correlations are often in spectral overlap or masked by the water signal, which hampers the use of these correlations. In this report, a method was developed that separates the nuclei used for diffusion (α protons, 1Hα) and those used for detection (1H/15N and 13C′/15N correlations). This approach enables high-resolution diffusion measurements of polypeptides in a mixture of biomolecules, thereby providing a powerful tool to investigate coexisting species under physiologically relevant conditions.

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Selective detection of protein acetylation by NMR spectroscopy

Lee

Park

Lee

2022

Journal of Magnetic Resonance

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Evolutionary spread of protein L-(iso)aspartylO-methyltransferases guides the discovery of distinct isoaspartate-containing peptides, pimtides

Lee

Park

Kim

et al. 2023

Preprint

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Ribosomally synthesized and post-translationally modified peptides (RiPPs) are a structurally diverse class of natural products with a distinct biosynthetic logic, the enzymatic modification of genetically encoded precursor peptides. Although their structural and biosynthetic diversity remains largely underexplored, the identification of novel subclasses with unique structural mo- tifs and biosynthetic pathways has been challenging. Here, we report that protein L-(iso)aspartyl O-methyltransferases (PIMTs) present in several RiPP subclasses are highly homologous. Importantly, we discovered that the apparent evolutionary transmission of the PIMT gene could serve as a basis to identify a novel RiPP subclass. Biochemical and structural analyses suggest that these homologous PIMTs commonly convert aspartate to isoaspartate via aspartyl-O-methyl ester and aspartimide intermediates, and often require cyclic or hairpin-like structures for modification. By conducting homology-based bioinformatic analysis of PIMTs, we identified over 2,800 biosynthetic gene clusters (BGCs) for known RiPP subclasses in which PIMTs install a secondary modification, and over 1,500 BGCs in which PIMTs function as a primary modification enzyme, thereby defining a new RiPP subclass, named pimtides. Our results suggest that the genome mining of proteins with secondary biosynthetic roles could be an effective strategy for discovering novel biosynthetic pathways of RiPPs.

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Sho Hee Park

Dynamic G Protein-Coupled Receptor Signaling Probed by Solution NMR Spectroscopy

High-Resolution Diffusion Measurements of Proteins by NMR under Near-Physiological Conditions

Selective detection of protein acetylation by NMR spectroscopy

Evolutionary spread of protein L-(iso)aspartylO-methyltransferases guides the discovery of distinct isoaspartate-containing peptides, pimtides

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