Assembly of four modules onto a tetraazide platform by consecutive 1,2,3-triazole formations.

Efficient consecutive 1,2,3-triazole formations using multiazide platforms are disclosed. On the basis of unique clickability of the 1-adamantyl azido group, a four-step synthesis of tetrakis(triazole)s was achieved from a tetraazide platform molecule. This method was applied to a convergent synthesis of tetrafunctionalized probes in a modular synthetic manner.

(Hexafluoroacetylacetonato)copper(I)-cycloalkyne complexes as protected cycloalkynes.

A protection method for cycloalkynes by the formation of (hexafluoroacetylacetonato)copper(i)-cycloalkyne complexes is disclosed. Various complexes having functional groups were efficiently prepared, which are easily purified by silica-gel column chromatography. Selective click reactions were realized through the complexation of cycloalkynes with copper.

Cell-based HTS identifies a chemical chaperone for preventing ER protein aggregation and proteotoxicity.

The endoplasmic reticulum (ER) is responsible for folding secretory and membrane proteins, but disturbed ER proteostasis may lead to protein aggregation and subsequent cellular and clinical pathologies. Chemical chaperones have recently emerged as a potential therapeutic approach for ER stress-related diseases. Here, we identified 2-phenylimidazo[2,1-]benzothiazole derivatives (IBTs) as chemical chaperones in a cell-based high-throughput screen.

A facile preparation of functional cycloalkynes via an azide-to-cycloalkyne switching approach.

A facile method for preparing various functional cycloalkynes, including proteins incorporated with a cycloalkyne moiety, from the corresponding azides is developed. Treatment of diynes bearing strained and terminal alkyne moieties with a copper salt enabled terminal alkyne-selective click conjugation with azides, whereas a more azidophilic strained alkyne moiety was transiently protected from the click reaction via complexation with copper.

Expanding the synthesizable multisubstituted benzo[]thiophenes 6,7-thienobenzynes generated from -silylaryl triflate-type precursors.

Various 2,3-disubstituted 6,7-thienobenzynes have been efficiently generated from the corresponding -silylaryl triflate-type precursors by activation with fluoride ions. The method has expanded the scope of synthesizable multisubstituted benzothiophenes, including those with various heteroatom substituents, and can be applied to the synthesis of EP4 antagonist analogs.