Alternating zinc finger motifs in the male-associated protein ZFY: defining architectural rules by mutagenesis and design of an "Aromatic Swap" second-site revertant

Abstract

We describe spectroscopic and biochemical studies of native and mutant Zn finger peptides from ZFY, a putative transcription factor encoded by the sex-determining region of the human Y chromosome. The parent peptide, based on ZFY domain 6, exhibits metal-dependent helix formation within a rigid tertiary framework. Nonaromatic substitutions of the consensus aromatic group (Tyr 10 .fwdarw. Ser or Lys) are surprisingly compatible with native architecture but result in loss of stability to pH or guanidine denaturation. Remarkably, these perturbations are reverted by a second-site mutation in which an alternative aromatic residue is introduced (Ser 12 .fwdarw. Phe). Design of the second-site revertant ("aromatic swap") is based on the ZFY two-finger repeat, a conserved symmetry among the ZFY-related zinc finger proteins, and is in accord with recent 2D NMR structures of Zn finger peptides. These experiments suggest general rules for metal-dependent folding of the Zn finger motif.