Biochemical and Biophysical Research Communications, Vol.330, No.1, 247-252, 2005
Site-specific DNA cleavage by artificial zinc finger-type nuclease with cerium-binding peptide
The addition of a new function to native proteins is one of the most attractive protein-based designs. In this study, we have converted a C2H2-type zinc finger as a DNA-binding motif into a novel zinc finger-type nuclease by connecting two distinct zinc finger proteins (Sp1 and GLI) with a functional linker possessing DNA cleavage activity. As a DNA cleavage domain, we chose an analogue of the metal-binding loop (12 amino acid residues), peptide P1, which has been reported to exhibit a strong binding affinity for a lanthanide ion and DNA cleavage ability in the presence of Ce(IV). Our newly designed nucleases, Sp1(PI)GLI and Sp1(P1G)GLI, can strongly bind to a lanthanide ion and show a unique DNA cleavage pattern, in which certain positions between the two DNA-binding sites are specifically cleaved. The present result provides useful information for expanding the design strategy for artificial nucleases. (c) 2005 Elsevier Inc. All rights reserved.
Keywords:zinc finger protein;lanthanide ion;calcium-binding loop;DNA binding;DNA cleavage;artificial nuclease