Tae Lim Park scite author profile

Tae Lim Park

5Publications

10Citation Statements Received

225Citation Statements Given

How they've been cited

How they cite others

170

207

Affiliations

Korea Advanced Institute of Science and Technology

Publications

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Effects of Transcription-Dependent Physical Perturbations on the Chromosome Dynamics in Living Cells

Park

Goo

et al. 2022

Front. Cell Dev. Biol.

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Recent studies with single-particle tracking in live cells have revealed that chromatin dynamics are directly affected by transcription. However, how transcription alters the chromatin movements followed by changes in the physical properties of chromatin has not been elucidated. Here, we measured diffusion characteristics of chromatin by targeting telomeric DNA repeats with CRISPR-labeling. We found that transcription inhibitors that directly block transcription factors globally increased the movements of chromatin, while the other inhibitor that blocks transcription by DNA intercalating showed an opposite effect. We hypothesized that the increased mobility of chromatin by transcription inhibition and the decreased chromatin movement by a DNA intercalating inhibitor is due to alterations in chromatin rigidity. We also tested how volume confinement of nuclear space affects chromatin movements. We observed decreased chromatin movements under osmotic pressure and with overexpressed chromatin architectural proteins that compact chromatin.

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Visualization of chromatin higher-order structures and dynamics in live cells

Park

Lee

Cho

2021

BMB Rep

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Topology of gene regulatory compartments relative to the nuclear matrix

Park

Ryu

Lee

et al. 2022

Preprint

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Summary ParagraphInside the nucleus, there are special compartments with characterized functions, some of which are involved in gene expression1. These compartments include transcriptional condensates and nuclear speckles, which contain factors required for transcription and splicing, respectively. While the characteristics of these intranuclear compartments were extensively investigated, spatial relationship between them is yet unclear. Meanwhile, RNA-protein structural network named the nuclear matrix has been observed inside the nucleus and suggested as a framework for the spatial segregation of the intranuclear space2–6. However, concept of the nuclear matrix was not widely accepted due to its lack of in vivo evidence7. Here, we report visualization of the nuclear matrix and intranuclear compartments using super-resolution fluorescence microscopy. We found the nuclear matrix is dynamic in live cells and easily disrupted upon transcription inhibition. Remarkably, we observed an orderly layered distribution of transcriptional condensates and nuclear speckles relative to the nuclear matrix. We also observed a separation of chromosome territories from transcriptional condensates and nuclear speckles by the nuclear matrix. Based on our findings, we propose a topological model for the regulation of transcription across the nuclear matrix.

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Dynamics of gene expression regulatory proteins in the living cell nucleus

Shim

Park

Cho

2021

J. Korean Phys. Soc.

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The intricate physical interaction of transcription factors with specific target genes in the genome has long been regarded as a fundamental mechanism of cell-type specific gene expression. However, due to insufficient spatiotemporal resolution of microscopy techniques, direct visualization of protein dynamics within the nuclei of living cells had not been achieved for decades. Resolving existing limitations, recent advances in imaging techniques enabled the direct observation of protein dynamics, even at a single-molecule level. In addition, the new imaging techniques accomplished capturing higher-order chromatin structures that influence gene expression regulation along with transcription factor dynamics. This review discusses the recent applications of microscopy techniques to investigate the dynamics of nuclear proteins in living cells and their achievements.

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Dynamics of mitochondria promote stress granule fusion

Park

Cho²

2023

Biophysical Journal

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Tae Lim Park

Effects of Transcription-Dependent Physical Perturbations on the Chromosome Dynamics in Living Cells

Visualization of chromatin higher-order structures and dynamics in live cells

Topology of gene regulatory compartments relative to the nuclear matrix

Dynamics of gene expression regulatory proteins in the living cell nucleus

Dynamics of mitochondria promote stress granule fusion

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