Research Interests
Diversity-oriented Organic Synthesis (DOS), High Throughput Screening (HTS) and Chemical Biology
Diversity-oriented Organic Synthesis (DOS), High Throughput Screening (HTS) and Chemical Biology
Diversity-oriented Organic Synthesis (DOS)
Development of new reaction pathway to access natural-product-like complex small molecules
Cheminformatics approach for intelligently designed small molecule library to maximize the diversity
Library realization for biological evaluation
Cheminformatics approach for intelligently designed small molecule library to maximize the diversity
Library realization for biological evaluation
High Throughput Screening (HTS)
Reverse Chemical Genetics using small molecule microarray screening (Chemical chip approach)
Protein-small molecule affinity study using Surface Plasmon Resonance (Biacore approach)
Forward Chemical Genetics using cell- or enzyme-based fuctional assay (Microtiter-plate approach)
Tracking down the biological targets for bioactive small molecules
Protein-small molecule affinity study using Surface Plasmon Resonance (Biacore approach)
Forward Chemical Genetics using cell- or enzyme-based fuctional assay (Microtiter-plate approach)
Tracking down the biological targets for bioactive small molecules
Chemical Biology
The alternation of protein function using bioactive small molecule to emulate or study biological system
Development of new therapeutic agents or biological tools
Development of protein heterodimerizer using small molecules to pertub their functions
Development of non-peptidic NES for the control of protein shuttling between necleus and cytoplasm
Development of new therapeutic agents or biological tools
Development of protein heterodimerizer using small molecules to pertub their functions
Development of non-peptidic NES for the control of protein shuttling between necleus and cytoplasm
ETC.
"화합물로 보는 INTERCELLULAR-화학생물학적 접근을 통해 다양한 질병과 관련된 단백질 신호 전달망 규명" , 화학세계, 2015, 1, 39-43.