Kwang Hyun Park scite author profile

Kwang Hyun Park

4Publications

74Citation Statements Received

104Citation Statements Given

How they've been cited

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130

Affiliations

Korea Research Institute of Bioscience and Biotechnology

Publications

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Efficient Transcriptional Gene Repression by Type V-A CRISPR-Cpf1 from Eubacterium eligens

Kim

Ahn

et al. 2017

ACS Synth. Biol.

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Clustered regularly interspaced short palindromic repeats interference (CRISPRi) is an emerging technology for artificial gene regulation. Type II CRISPR-Cas endonuclease Cas9 is the most widely used protein for gene regulation with CRISPRi. Here, we present type V-A CRISPR-Cas endonuclease Cpf1-based CRISPRi. We constructed an l-rhamnose-inducible CRISPRi system with DNase-deactivated Cpf1 from Eubacterium eligens (EedCpf1) and compared its performance with catalytically deactivated Cas9 from Streptococcus pyogenes (SpdCas9). In contrast to SpdCas9, EedCpf1 showed stronger gene repression when it was targeted to the template strand than when it was targeted to the nontemplate strand of the 5' untranslated region or coding DNA sequences. EedCpf1 exhibited no strand bias when targeted to the promoter, and preferentially used the 5'-TTTV-3' (V = A, G, or C) protospacer adjacent motif. Multiplex repression of the EedCpf1-based CRISPRi system was demonstrated using episomal and chromosomal gene targets. Our findings will guide an efficient EedCpf1-mediated CRISPRi genetic control.

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In vitro assembly of thermostable Csm complex in CRISPR–Cas type III/A system

Park

Woo

2019

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WUSCHEL controls genotype-dependent shoot regeneration capacity in potato

Park

et al. 2023

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Plant cells can reprogram their fate. The combinatorial actions of auxin and cytokinin dedifferentiate somatic cells to regenerate organs, which can develop into individual plants. As transgenic plants can be generated from genetically modified somatic cells through these processes, cell fate transition is an unavoidable step in crop genetic engineering. However, regeneration capacity closely depends on the genotype, and the molecular events underlying these variances remain elusive. In the present study, we demonstrated that WUSCHEL (WUS) —a homeodomain transcription factor—determines regeneration capacity in different potato (Solanum tuberosum) genotypes. Comparative analysis of shoot regeneration efficiency and expression of genes related to cell fate transition revealed that WUS expression coincided with regeneration rate in different potato genotypes. Moreover, in a high-efficiency genotype, WUS silencing suppressed shoot regeneration. Meanwhile, in a low-efficiency genotype, regeneration could be enhanced through the supplementation of a different type of cytokinin that promoted WUS expression. Computational modeling of cytokinin receptor-ligand interactions suggested that the docking pose of cytokinins mediated by hydrogen bonding with the core residues may be pivotal for WUS expression and shoot regeneration in potatoes. Furthermore, our whole genome sequencing analysis revealed core sequence variations in the WUS promoters that differentiate low- and high-efficiency genotypes. The present study revealed that cytokinin responses, particularly WUS expression, determine shoot regeneration efficiency in different potato genotypes.

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Crystal structure of the mouse endonuclease G

Park

Yoon

Song

et al. 2020

Biochemical and Biophysical Research Communications

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Kwang Hyun Park

Efficient Transcriptional Gene Repression by Type V-A CRISPR-Cpf1 from Eubacterium eligens

In vitro assembly of thermostable Csm complex in CRISPR–Cas type III/A system

WUSCHEL controls genotype-dependent shoot regeneration capacity in potato

Crystal structure of the mouse endonuclease G

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