Do Hoon Kwon scite author profile

N 6 -methyladenosine (m 6 A) is the most abundant internal modification in RNAs and plays regulatory roles in a variety of biological and physiological processes. Despite its important roles, the molecular mechanism underlying m 6 A-mediated gene regulation is poorly understood. Here, we show that m 6 A-containing RNAs are subject to endoribonucleolytic cleavage via YTHDF2 (m 6 A reader protein), HRSP12 (adaptor protein), and RNase P/MRP (endoribonucleases). We demonstrate that HRSP12 functions as an adaptor to bridge YTHDF2 and RNase P/MRP, eliciting rapid degradation of YTHDF2-bound RNAs. Transcriptome-wide analyses show that m 6 A RNAs that are preferentially targeted for endoribonucleolytic cleavage have an HRSP12-binding site and a RNase P/MRP-directed cleavage site upstream and downstream of the YTHDF2-binding site, respectively. We also find that a subset of m 6 A-containing circular RNAs associates with YTHDF2 in an HRSP12-dependent manner and is selectively downregulated by RNase P/MRP. Thus, our data expand the known functions of RNase P/MRP to endoribonucleolytic cleavage of m 6 A RNAs.

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Optical planar chiral metamaterial designs for strong circular dichroism and polarization rotation

Kwon

2008

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Planar chiral metamaterials comprising double-layer dielectricmetal- dielectric resonant structures in the shape of a gammadion are presented in the near-infrared regime. The unit cell of the doubly-periodic metamaterial design is optimized using the genetic algorithm for maximum circular dichroism and for maximum optical activity. A circular dichroism value in excess of 50% is predicted for the optimized design. Maximum polarization rotatory powers in terms of the minimum allowed transmittances are also obtained and presented.

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Transformation optical designs for wave collimators, flat lenses and right-angle bends

2008

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Heat-dependent opening of TRPV1 in the presence of capsaicin

Kwon

Zhang

Suo

et al. 2021

Nat Struct Mol Biol

130

108

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Structural basis for recognition of autophagic receptor NDP52 by the sugar receptor galectin-8

et al. 2013

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Infectious bacteria are cleared from mammalian cells by host autophagy in combination with other upstream cellular components, such as the autophagic receptor NDP52 and sugar receptor galectin-8. However, the detailed molecular basis of the interaction between these two receptors remains to be elucidated. Here, we report the biochemical characterization of both NDP52 and galectin-8 as well as the crystal structure of galectin-8 complexed with an NDP52 peptide. The unexpected observation of nicotinamide adenine dinucleotide located at the carbohydrate-binding site expands our knowledge of the sugar-binding specificity of galectin-8. The NDP52-galectin-8 complex structure explains the key determinants for recognition on both receptors and defines a special orientation of N-and C-terminal carbohydrate recognition domains of galectin-8. Dimeric NDP52 forms a ternary complex with two monomeric galectin-8 molecules as well as two LC3C molecules. These results lay the groundwork for understanding how host cells target bacterial pathogens for autophagy.

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Do Hoon Kwon

Endoribonucleolytic Cleavage of m6A-Containing RNAs by RNase P/MRP Complex

Optical planar chiral metamaterial designs for strong circular dichroism and polarization rotation

Transformation optical designs for wave collimators, flat lenses and right-angle bends

Heat-dependent opening of TRPV1 in the presence of capsaicin

Structural basis for recognition of autophagic receptor NDP52 by the sugar receptor galectin-8

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