Nickel(ii)-promoted specific hydrolysis of zinc finger proteins.

In this work we demonstrate that the previously described reaction of sequence specific Ni(ii)-dependent hydrolytic peptide bond cleavage can be performed in complex metalloprotein molecules, such as the Cys2His2 zinc finger proteins. The cleavage within a zinc finger unit possessing a (Ser/Thr)-X-His sequence is not hindered by the presence of the Zn(ii) ions. It results in loss of the Zn(ii) ion, oxidation of the SH groups and thus, in a collapse of the functional structure.

De Novo Modular Development of a Foldameric Protein-Protein Interaction Inhibitor for Separate Hot Spots: A Dynamic Covalent Assembly Approach.

Protein-protein interactions stabilized by multiple separate hot spots are highly challenging targets for synthetic scaffolds. Surface-mimetic foldamers bearing multiple recognition segments are promising candidate inhibitors. In this work, a modular bottom-up approach is implemented by identifying short foldameric recognition segments that interact with the independent hot spots, and connecting them through dynamic covalent library (DCL) optimization.