Tae Yeong Jeong scite author profile

Tae Yeong Jeong

3Publications

46Citation Statements Received

61Citation Statements Given

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Korea University

Publications

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Targeted mutagenesis in mouse cells and embryos using an enhanced prime editor

et al. 2021

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Prime editors, novel genome-editing tools consisting of a CRISPR-Cas9 nickase and an engineered reverse transcriptase, can induce targeted mutagenesis. Nevertheless, much effort is required to optimize and improve the efficiency of prime-editing. Herein, we introduce two strategies to improve the editing efficiency using proximal dead sgRNA and chromatin-modulating peptides. We used enhanced prime-editing to generate Igf2 mutant mice with editing frequencies of up to 47% and observed germline transmission, no off-target effects, and a dwarf phenotype. This improved prime-editing method can be efficiently applied to cell research and to generate mouse models.

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Targeted Mutagenesis in Mice Using a Base Editor

Jeong

Lim

Seong

et al. 2023

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Subcellular progression of mesenchymal transition identified by two discrete synchronous cell lines derived from the same glioblastoma

Kim

Park

Chowdhury

et al. 2022

Cell. Mol. Life Sci.

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Glioblastomas (GBM) exhibit intratumoral heterogeneity of various oncogenic evolutional processes. We have successfully isolated and established two distinct cancer cell lines with different morphological and biological characteristics that were derived from the same tissue sample of a GBM. When we compared their genomic and transcriptomic characteristics, each cell line harbored distinct mutation clusters while sharing core driver mutations. Transcriptomic analysis revealed that one cell line was undergoing a mesenchymal transition process, unlike the other cell line. Furthermore, we could identify four tumor samples containing our cell line-like clusters from the publicly available single-cell RNA-seq data, and in a set of paired longitudinal GBM samples, we could confirm three pairs where the recurrent sample was enriched in the genes specific to our cell line undergoing mesenchymal transition. The present study provides direct evidence and a valuable source for investigating the ongoing process of subcellular mesenchymal transition in GBM, which has prognostic and therapeutic implications.

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Tae Yeong Jeong

Targeted mutagenesis in mouse cells and embryos using an enhanced prime editor

Targeted Mutagenesis in Mice Using a Base Editor

Subcellular progression of mesenchymal transition identified by two discrete synchronous cell lines derived from the same glioblastoma

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