Hyo-Min Kim scite author profile

Hyo-Min Kim

5Publications

58Citation Statements Received

301Citation Statements Given

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271

298

Affiliations

Pohang University of Science and Technology

Publications

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The Poly(C) Motif in the Proximal Promoter Region of the D Site-Binding Protein Gene (Dbp) Drives Its High-Amplitude Oscillation

Kwon

Kim

et al. 2019

Molecular and Cellular Biology

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The D site-binding protein (Dbp) supports the rhythmic transcription of downstream genes, in part by displaying high-amplitude cycling of its own transcripts compared to other circadian-clock genes. However, the underlying mechanism remains elusive. Here, we demonstrated that the poly(C) motif within the Dbp proximal promoter, in addition to an E-box element, provoked transcriptional activation. Furthermore, we generated a cell line with poly(C) deleted to demonstrate the endogenous effect of the poly(C) motif within the Dbp promoter. We investigated whether RNA polymerase 2 (Pol2) recruitment on the Dbp promoter was decreased in the cell line with poly(C) deleted. Next, assay for transposase-accessible chromatin (ATAC)-quantitative PCR (qPCR) showed that the poly(C) motif induced greater chromatin accessibility within the region of the Dbp promoter. Finally, we determined that the oscillation amplitude of endogenous Dbp mRNA of the cell line with poly(C) deleted was decreased, which affected the oscillation of other clock genes that are controlled by Dbp. Taken together, our results provide new insights into the function of the poly(C) motif as a novel cis-acting element of Dbp, along with its significance in the regulation of circadian rhythms.

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hnRNP K Supports High-Amplitude D Site-Binding Protein mRNA (Dbp mRNA) Oscillation To Sustain Circadian Rhythms

Kwon

Lee

Kim

et al. 2020

Molecular and Cellular Biology

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Circadian gene expression is defined by the gene-specific phase and amplitude of daily oscillations in mRNA and protein levels. D site-binding protein mRNA (Dbp mRNA) shows high-amplitude oscillation; however, the underlying mechanism remains elusive. Here, we demonstrate that heterogeneous nuclear ribonucleoprotein K (hnRNP K) is a key regulator that activates Dbp transcription via the poly(C) motif within its proximal promoter. Biochemical analyses identified hnRNP K as a specific protein that directly associates with the poly(C) motif in vitro. Interestingly, we further confirmed the rhythmic binding of endogenous hnRNP K within the Dbp promoter through chromatin immunoprecipitation as well as the cycling expression of hnRNP K. Finally, knockdown of hnRNP K decreased mRNA oscillation in both Dbp and Dbp-dependent clock genes. Taken together, our results show rhythmic protein expression of hnRNP K and provide new insights into its function as a transcriptional amplifier of Dbp.

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hnRNP K supports the maintenance of RORγ circadian rhythm through ERK signaling

et al. 2021

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Most living organisms on Earth have a circadian rhythm, which gives them the ability to adapt to daily changes. The circadian rhythm regulates gene expression, metabolism, and physiology to sustain biological systems. 1,2 The expressions of genes that participate in the circadian rhythm, which are called clock genes, are delicately regulated by multiple processes such as transcriptional regulation and post-transcriptional regulation. 3-5 Recently, it was reported that heterogeneous nuclear ribonucleoprotein K (hnRNP K) controls the expressions of clock genes such as Dbp and Per3. 6,7 Here, we investigate transcriptional activation of RORγ by hnRNP K, which interacts with the poly(C) motif of RORγ. hnRNP K is known as a durable poly(C)-binding protein 7-11 that controls multiple gene expression processes such

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Forkhead box protein D2 suppresses colorectal cancer by reprogramming enhancer interactions

Kim

Kang

Park

et al. 2023

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Somatic stem cells contribute to normal tissue homeostasis, and their epigenomic features play an important role in regulating tissue identities or developing disease states. Enhancers are one of the key players controlling chromatin context-specific gene expression in a spatial and temporal manner while maintaining tissue homeostasis, and their dysregulation leads to tumorigenesis. Here, epigenomic and transcriptomic analyses reveal that forkhead box protein D2 (FOXD2) is a hub for the gene regulatory network exclusive to large intestinal stem cells, and its overexpression plays a significant role in colon cancer regression. FOXD2 is positioned at the closed chromatin and facilitates mixed-lineage leukemia protein-4 (MLL4/KMT2D) binding to deposit H3K4 monomethylation. De novo FOXD2-mediated chromatin interactions rewire the regulation of p53-responsive genes and induction of apoptosis. Taken together, our findings illustrate the novel mechanistic details of FOXD2 in suppressing colorectal cancer growth and suggest its function as a chromatin-tuning factor and a potential therapeutic target for colorectal cancer.

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Technical advances in pluripotent stem cell-derived and tumorigenic organoids

et al. 2022

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Cell culture systems have been widely used to address fundamental questions in biology without sacrificing animals. Three-dimensional (3D) organoids provide more information on in vivo conditions than traditional culture systems because multiple cell types in organoids interact with each other in 3D structures. Despite extensive research and advances in the organoid field, some important limitations remain and need further consideration. In this review, we summarize how organoids are generated from pluripotent stem cells and describe the recent technical progress that has made organoids more similar to in vivo tissues for the application of organoids to modeling cancer. Lastly, we briefly discuss some limitations that have been raised in this field.

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Hyo-Min Kim

The Poly(C) Motif in the Proximal Promoter Region of the D Site-Binding Protein Gene (Dbp) Drives Its High-Amplitude Oscillation

hnRNP K Supports High-Amplitude D Site-Binding Protein mRNA (Dbp mRNA) Oscillation To Sustain Circadian Rhythms

hnRNP K supports the maintenance of RORγ circadian rhythm through ERK signaling

Forkhead box protein D2 suppresses colorectal cancer by reprogramming enhancer interactions

Technical advances in pluripotent stem cell-derived and tumorigenic organoids

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