Abstract
Zinc-finger nucleases (ZFNs) are a powerful tool for manipulation of genomic DNA. Recently, we reported a new ZFN composed of one artificial zinc-finger protein (AZP) and a single-chain FokI dimer (scFokI) that refines ZFN technology. While AZP–scFokI cleaved DNA specifically around the AZP-target site, several nucleotide positions were cleaved due to the mobility of the scFokI domain. In the present study, we aimed to improve the DNA-cleavage specificity at the nucleotide level. To this end, we sandwiched a scFokI domain between two AZPs to reduce the mobility of the scFokI moiety when bound to DNA. We demonstrated that the AZP-sandwiched scFokI cleaved DNA at a single nucleotide position of a target plasmid, in which two AZP-binding sites were connected with a 6-bp spacer, with multiple turnovers. Further improvement of AZP-sandwiched scFokI will lead to development of ideal artificial meganucleases.
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