Associate Professor
Kim, Seokhee
Laboratory of Biomolecular Diversity
LAB Website
LAB Website
OFFICE
503-222
/
+82-2-880-4123
LAB
503-202
/
+82-2-880-4124
E-MAIL seokheekim@snu.ac.kr
RESEARCH AREAS
Research Topic
We are interested in understanding the molecular logic by which Nature generates the diversity of biomolecules and applying the acquired knowledge and tools to the problems of biotechnology and medicine. Biomolecular diversity in many levels underlies not only the complexity of biological systems, but the adaptation and evolution of organisms in a new environment. The living organisms, therefore, have developed sophisticated mechanisms to generate and manipulate diverse biomolecules. For example, bacteria and fungi synthesize a vast number of structurally-diverse secondary metabolites (or natural products) by elegantly-organized biosynthetic processes, and mammalian immune system handles enormous number of different antibodies via a multitude of controlled genetic and cellular processes. Our research aims at dissecting various aspects of biomolecular diversity generation, and exploiting these Nature’s processes for practical applications.
Education
- Ph.D. Chemistry and Chemical Biology, Harvard University, USA, 2008
- B.S. Chemistry, Seoul National Univerity, Seoul, Korea, 2001
Career
- Assistant/Associate Professor, Department of Chemistry, Seoul National University, Korea, 2014-present
- Postdoctoral Associate/Fellow, MIT, USA, 2008-2013
Papers
- Eom, G.; Lee, H.; Kim, S. Development of a genome-targeting mutator for the adaptive evolution of microbial cells. Nucleic Acids Res. 2022, 50(7), e38
- Song, I.; Kim, Y.; Yu, J.; Go, S.Y.; Lee, H.G.; Song, W.J.; Kim, S. Molecular mechanism underlying substrate recognition of the peptide macrocyclase PsnB. Nature Chemical Biology, 2021, 17(11), 1123–1131.
- Park, H.; Kim, S. Gene-specific mutagenesis enables rapid continuous evolution of enzymes in vivo. Nucleic Acids Res. 2021, 49(6), e32.
- Cho, H.; Choi, Y.; Min, K.; Son, J. B.; Park, H.; Lee, H. H.; Kim, S. Over-Activation of a Nonessential Bacterial Protease DegP as an Antibiotic Strategy. Commun. Biol. 2020, 3 (1), 547.
- Lee, H.; Choi, M.; Park, J.-U.; Roh, H.; Kim, S. Genome Mining Reveals High Topological Diversity of ω-Ester-Containing Peptides and Divergent Evolution of ATP-Grasp Macrocyclases. J. Am. Chem. Soc. 2020, 142 (6), 3013–3023.
Search Papers
Chanwoo Lee, Hyunbin Lee, Jung-Un Park, Seok hee Kim
Heejin Roh, Yeji Han, Hyunbin Lee, Seok hee Kim
Ga-eul Eom, Seok hee Kim
Sungjae Kim, Inseok Song, Gaeul Eom, Seok hee Kim
HyojinPark, Yurie T.Kim, Chulwon Choi, Seok hee Kim
Hyunbin Lee, Youngseon Park, Seok hee Kim
Anna K. de Regt, Seok hee Kim, Jungsan Sohn, Robert A. Grant, Tania A. Baker, Robert T. Sauer
Seok hee Kim, Robert T. Sauer
Seok hee Kim, Robert T. Sauer
Proceedings of the National Academy of Sciences of the United States of America, 2012, 109, 19, (2012-05-08) Link
Seok hee Kim, Robert A. Grant, Robert T. Sauer