1. Zn(II) Binding and DNA Binding Properties of Ligand-Substituted CXHH-Type Zinc Finger Proteins.
- Author
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Imanishi, Miki, Matsumura, Kazushi, Tsuji, Shogo, Nakaya, Tomohiro, Negi, Shigeru, Futaki, Shiroh, and Sugiura, Yukio
- Subjects
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ZINC-finger proteins , *DNA-binding proteins , *EUKARYOTES , *PHYSIOLOGICAL effects of cysteine , *ASPARTIC acid metabolism , *LIGAND binding (Biochemistry) , *TRANSCRIPTION factors , *PROTEIN folding , *PHYSIOLOGY - Abstract
CCHH-type zinc fingers are among the most common DNA binding motifs found in eukaryotes. In previous report, we substituted the second ligand cysteine residue with aspartic acid, producing Zn(II)-responsive transcription factor; this indicates that a ligand substitution is a possible design target of an engineered zinc finger peptide. Despite the importance of Zn(II) binding with respect to the folding and DNA binding properties of a zinc finger peptide, no study about the effects of ligand substitution on both Zn(II) binding and DNA binding properties has been reported. Here, we substituted a conserved cysteine (C) with other zinc-coordinated amino acid residues, histidine (H), aspartic acid (D), and glutamic acid (E), to create CXHH-type zinc finger peptides (X = C, H, D, and E). The Zn(II)-dependent conformational change was observed in oil peptides; however, the Zn(II) binding affinity and metal coordination geometry of the peptides were different. Gel mobility shift assays showed that the Zn(II)-bound forms of the ligand-substituted derivatives retain DNA binding ability, while the DNA binding affinity decreased in the following manner: CCHH CDHH > CEHH >> CHHH. The DNA binding sequence preferences of the ligand-substituted derivatives were similar to that of the wild type in the contest of the full three-finger DNA-binding domain of transcription factor Zif268. These results indicate that artificial zinc finger proteins with various DNA binding affinities that respond to a diverse range of Zn(II) concentrations can be designed by substituting the Zn(II) ligand. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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