Synthesis of Zwitterionic Phospholipid-Connected Silane Coupling Agents and Their Hybridization with Graphene Oxide.

The hybridization of lipids with graphene is expected to produce a promising, novel biomaterial. However, there are limited examples of the covalent introduction of lipid molecules, especially the immobilization of lipid molecules, onto graphene on a substrate. Therefore, we investigated the hybridization of a silane coupling agent having phospholipid moieties with graphene oxide on substrates prepared by photo-oxidation using chlorine dioxide.

Epoxidized graphene grid for highly efficient high-resolution cryoEM structural analysis.

Functionalization of graphene is one of the most important fundamental technologies in a wide variety of fields including industry and biochemistry. We have successfully achieved a novel oxidative modification of graphene using photoactivated ClO as a mild oxidant and confirmed the oxidized graphene grid is storable with its functionality for at least three months under N atmosphere. Subsequent chemical functionalization enabled us to develop an epoxidized graphene grid (EG-grid™), which effectively adsorbs protein particles for electron cryomicroscopy (cryoEM) image analysis.

Structural insights into the rational design of a nanobody that binds with high affinity to the SARS-CoV-2 spike variant.

The continuous emergence of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) variants associated with the adaptive evolution of the virus is prolonging the global coronavirus disease 2019 (COVID-19) pandemic. The modification of neutralizing antibodies based on structural information is expected to be a useful approach to rapidly combat emerging variants. A dimerized variable domain of heavy chain of heavy chain antibody (VHH) P17 that has highly potent neutralizing activity against SARS-CoV-2 has been reported but the mode of interaction with the epitope remains unclear.

Visible-light-induced phosgenation of amines by chloroform oxygenation using chlorine dioxide.

We report the visible-light-induced preparation of COCl through the oxygenation of chloroform in the presence of chlorine dioxide, which leads to the safe constructions of carbamoyl chlorides with good-to-high yields and wide substrate scopes. In addition, this method can also be applied to the synthesis of various carbonates.

Expression of recombinant apopholasin using a baculovirus-silkworm multigene expression system and activation via dehydrocoelenterazine.

Pholasin is a photoprotein derived from the glowing bivalve mollusk, Pholas dactylus. Even though the chemical structure of the prosthetic group (chromophore) responsible for the light emission character of the mollusk remains unknown, research has shown that the presence of dehydrocoelenterazine (DCL) increased light emission and that the dithiothreitol adduct of DCL was isolated from Pholasin®. To date, our research has been focused on activating apopholasin, the naturally occurring apoprotein of Pholasin®, using DCL.