Enhanced inhibitory activity of compounds containing purine scaffolds compared to protein kinase CK2α considering crystalline water.

We recently reported novel purine-based CK2α inhibitors using the solvent ordering-based method as virtual screening. Among these, the X-ray crystal structure of a complex with CK2α was determined. The results showed that the crystalline water molecules observed in many previously reported complex structures of CK2α and its inhibitors had been eliminated.

Asymmetric Michael addition catalysed by copper-amyloid complexes.

We developed self-assembled peptides containing a partial amyloid β protein sequence and a metal-coordination site. The amyloid fibril-copper complexes exhibited excellent reactivity and moderate enantioselectivity in Michael addition reactions with 2-azachalcone and dimethylmalonate. The catalytic amyloids were characterized using various measurements to confirm their amyloid-like nanofibre structures.

Dielectrophoretic trapping of nanosized biomolecules on plasmonic nanohole arrays for biosensor applications: simple fabrication and visible-region detection.

Surface plasmon resonance is an optical phenomenon that can be applied for label-free, real-time sensing to directly measure biomolecular interactions and detect biomarkers in solutions. Previous studies using plasmonic nanohole arrays have monitored and detected various biomolecules owing to the propagating surface plasmon polaritons (SPPs). Extraordinary optical transmission (EOT) that occurs in the near-infrared (NIR) and infrared (IR) regions is usually used for detection.

An artificial metallolyase with pliable 2-His-1-carboxylate facial triad for stereoselective Michael addition.

We repurposed the metal-binding site of a cupin superfamily protein into the 2-His-1-carboxylate facial triad, which is one of the common motifs in natural non-heme enzymes, to construct artificial metalloenzymes that can catalyze new-to-nature reactions. The Cu-H52A/H58E variant catalyzed the stereoselective Michael addition reaction and was found to bear a flexible metal-binding site in the high-resolution crystal structure. Furthermore, the H52A/H58E/F104W mutant accommodated a water molecule, which was supported by Glu58 and Trp104 residues hydrogen bonding, presumably leading to high stereoselectivity.