NMR chemical shift perturbation mapping of dna binding by a zinc‐finger domain from the yeast transcription factor ADR1

Abstract

Mutagenesis studies have revealed that the minimal DNA-binding domain of the yeast transcription factor ADR1 consists of two Cys₂-His₂ zinc fingers plus an additional 20 residues proximal and N-terminal to the fingers. We have assigned NMR ¹'H, ¹⁵N, and ¹³C chemical shifts for the entire minimal DNA-binding domain of ADR1 both free and bound to specific DNA. ¹H chemical shift values suggest little structural difference between the zinc fingers in this construct and in single-finger constructs, and ¹³C_α chemical shift index analysis indicates little change in finger structure upon DNA binding. ¹H chemical shift perturbations upon DNA binding are observed, however, and these are mapped to define the protein-DNA interface. The two zinc fingers appear to bind DNA with different orientations, as the entire helix of finger 1 is perturbed, while only the extreme N-terminus of the finger 2 helix is affected. Furthermore, residues N-terminal to the first finger undergo large chemical shift changes upon DNA binding suggesting a role at the protein-DNA interface. A striking correspondence is observed between the protein-DNA interface mapped by chemical shift changes and that previously mapped by mutagenesis.