Sewon Kim
KAERI
51 Papers
76 Citations
Sewon Kim is an academic researcher from KAERI. The author has contributed to research in topics: Arabidopsis & Gene. The author has an hindex of 12, co-authored 46 publications. Previous affiliations of Sewon Kim include Texas A&M University & Gyeongsang National University.
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Papers
Exploring desiccation cracks in soils using a 2D profile laser device
TL;DR: In this paper, a 2D profile laser that is coupled with a motion controller and electronic balance is used to measure the water loss and volume change of a drying soil during desiccation.
103
Role of Arabidopsis CHL27 protein for photosynthesis, chloroplast development and gene expression profiling.
Woo Young Bang,In Sil Jeong,Dae Won Kim,Chak Han Im,Chen Ji,Sung Min Hwang,Sewon Kim,Young Sim Son,Joa Jeong,Takashi Shiina,Jeong Dong Bahk +10 more
TL;DR: It is reported that the Arabidopsis chl27-t knock-down mutant exhibits retarded growth and chloroplast developmental defects that are caused by damage to PSII reaction centers, and implied that there is cross-talk in the Chl biosynthetic pathway among the PORA, AtFRO6 and CHL27 proteins.
MYB3 plays an important role in lignin and anthocyanin biosynthesis under salt stress condition in Arabidopsis
TL;DR: Nuclear-localized Arabidopsis MYB3 functions as a transcriptional repressor for regulation of lignin and anthocyanin biosynthesis under high salt conditions as discussed by the authors .
The Arabidopsis thaliana carboxyl-terminal domain phosphatase-like 2 regulates plant growth, stress and auxin responses.
Akihiro Ueda,Pinghua Li,Yue Feng,Meenu Vikram,Sewon Kim,Chang Ho Kang,Chang Ho Kang,Jae Sook Kang,Jeong Dong Bahk,Sang Yeol Lee,Toshiyuki Fukuhara,Paul E. Staswick,Alan E. Pepper,Hisashi Koiwa +13 more
TL;DR: CPL2 is established as a multifunctional regulator that modulates plant growth, stress, and auxin responses and is shown to have a focal role for growth.
55
Arabidopsis Carboxyl-Terminal Domain Phosphatase-Like Isoforms Share Common Catalytic and Interaction Domains But Have Distinct in Planta Functions
Woo Young Bang,Sewon Kim,Akihiro Ueda,Meenu Vikram,Dae-Jin Yun,Ray A. Bressan,Paul M. Hasegawa,Jeong Dong Bahk,Hisashi Koiwa +8 more
TL;DR: Results indicate CPL3 and CPL4 are a paralogous pair of general transcription regulators with similar biochemical properties, but are required for the distinct developmental and environmental responses.