Gunhee Park scite author profile

Gunhee Park

5Publications

66Citation Statements Received

47Citation Statements Given

How they've been cited

163

How they cite others

289

Affiliations

California Institute of Technology, Korea Advanced Institute of Science and Technology, University of Cambridge

Publications

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CTCF-mediated chromatin looping provides a topological framework for the formation of phase-separated transcriptional condensates

Lee

Kang

Kim

et al. 2021

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CTCF is crucial to the organization of mammalian genomes into loop structures. According to recent studies, the transcription apparatus is compartmentalized and concentrated at super-enhancers to form phase-separated condensates and drive the expression of cell-identity genes. However, it remains unclear whether and how transcriptional condensates are coupled to higher-order chromatin organization. Here, we show that CTCF is essential for RNA polymerase II (Pol II)-mediated chromatin interactions, which occur as hyperconnected spatial clusters at super-enhancers. We also demonstrate that CTCF clustering, unlike Pol II clustering, is independent of liquid-liquid phase-separation and resistant to perturbation of transcription. Interestingly, clusters of Pol II, BRD4, and MED1 were found to dissolve upon CTCF depletion, but were reinstated upon restoration of CTCF, suggesting a potent instructive function for CTCF in the formation of transcriptional condensates. Overall, we provide evidence suggesting that CTCF-mediated chromatin looping acts as an architectural prerequisite for the assembly of phase-separated transcriptional condensates.

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Ideal refocusing of an optically active spin qubit under strong hyperfine interactions

et al. 2023

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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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A Passively Adaptable Toroidal Continuously Variable Transmission Combined with Twisted String Actuator

Shin

Park

et al. 2022

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Real-time evolution of Anderson impurity models via tensor network influence functionals

Park

Millis

et al. 2023

Phys. Rev. B

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Gunhee Park

CTCF-mediated chromatin looping provides a topological framework for the formation of phase-separated transcriptional condensates

Ideal refocusing of an optically active spin qubit under strong hyperfine interactions

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

A Passively Adaptable Toroidal Continuously Variable Transmission Combined with Twisted String Actuator

Real-time evolution of Anderson impurity models via tensor network influence functionals

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