Research

International

• Expanding the Scope of RibosomeMediated Biosynthesis iin vitroi using tRNAAminoacylating Ribozyme, Israel Journal of Chemistry, , 64, - (2024 )
• CellFree Systems Ideal Platforms for Accelerating the Discovery and Production of PeptideBased Antibiotics, INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, , 25, - (2024 )
• Cellfree Biosynthesis of Peptidomimetics, Biotechnology and Bioprocess Engineering, , , - (2023 )
• Ribosomemediated biosynthesis of pyridazinone oligomers in vitro, Nature Communications, , 13, - (2022 )
• Threedimensional structureguided evolution of a ribosome with tethered subunits, Nature Chemical Biology, , 18, 990-998 (2022 )
• Programmable Synthesis of Biobased Materials Using CellFree Systems, Advanced Materials, , , - (2022 )
• Ribosomemediated incorporation of fluorescent amino acids into peptides in vitro, Chemical Communications, , 57, 2661-2664 (2021 )
• Engineering molecular translation systems, Cell Systems, , 12, 593-607 (2021 )
• A human protein hydroxylase that accepts Dresidues, Communications Chemistry, , 3, - (2020 )
• Ribosomemediated polymerization of long chain carbon and cyclic amino acids into peptides in vitro, Nature Communications, , 11, - (2020 )
• Ribosomal incorporation of cyclic betaamino acids into peptides using in vitro translation, Chemical Communications, , 56, 5597-5600 (2020 )
• Expanding the limits of the second genetic code with ribozymes, Nature Communications, , 10, - (2019 )
• Semisynthetic Nanoreactor for Reversible SingleMolecule Covalent Chemistry, ACS Nano, , 10, 8843-8850 (2016 )
• De novo assembly and nextgeneration sequencing to analyse fulllength gene variants from codonbarcoded libraries, NATURE COMMUNICATIONS, , 6, - (2015 )
• Semisynthetic protein nanoreactor for singlemolecule chemistry, Proceedings of the National Academy of Sciences of the United States of America, , 112, 13768-13773 (2015 )
• Human oxygen sensing may have origins in prokaryotic elongation factor Tu prolylhydroxylation, Proceedings of the National Academy of Sciences of the United States of America, , 111, 13331-13336 (2014 )
• ‘Shotgun DNA synthesis’ for the highthroughput construction of large DNA molecules, Nucleic Acids Research, , 40, - (2012 )
• Use of model peptides reaction for the characterization of a kineticallycontrolled ligation, Bioconjugate Chemistry, , 22, 1645-1649 (2011 )
• NiSiO2yolkshell nanoreactor catalysts High temperature stability and recyclability, Journal of Materials Chemistry, , 20, 1239-1246 (2009 )
• A nanoreactor framework of AuSiO2 yolkshell structure for catalytic reduction of pnitrophenol, Advanced Materials, , 20, - (2008 )
• Precise tuning of porosity and surface functionality in AuSiO2 nanoreactors for high catalytic efficiency, Chemistry of Materials, , 20, 5839-5844 (2008 )

Invited Talk or Presentations

• Enabling new chemistry by cellfree systems, , 0, 0, - (2024)
• Ribosomemediated biosynthesis of pharmacophores, , 0, 0, - (2023)
• Ribosomemediated biosynthesis of pharmacophore, , 0, 0, - (2023)
• Engineering Molecular Translation Systemsfor Biosynthesis of HighValue Materials in vitro, , 0, 0, - (2023)
• Ribosomemediated biosynthesis of pharmacophores, , 0, 0, - (2023)
• Ribosomemediated biosynthesis of pharmacophores, , 0, 0, - (2023)
• Ribosomemediated biosynthesis in vitro, , 0, 0, - (2022)
• Ribosomemediated biosynthesis in vitro, , 0, 0, - (2022)
• Ribosomemediated polymerization with novel chemistries, , 0, 0, - (2022)
• Engineering Molecular Translation Systems, , 0, 0, - (2022)
• Engineering Molecular Translation Systems, , 0, 0, - (2022)
• Engineering Molecular Translation Systems, , 0, 0, - (2022)
• Engineering Molecular Translation Systems, , 0, 0, - (2022)
• Engineering Molecular Translation Systems, , 0, 0, - (2022)
• Engineering Molecular Translation Systems, , 0, 0, - (2021)
• "Engineering Molecular Translation Systems ", , 0, 0, - (2021)
• Expanding the limits of the second genetic code with ribozymes, , 0, 0, - (2021)
• 스무색 만으로 완성하지 못하는 단백질 디자인, , 0, 0, - (2021)