The DNA binding specificity of the basic region of the yeast transcriptional activator GCN4 can be changed by substitution of a single amino acid.

The X-ray structure of a GCN4 DNA complex (1) shows, that specific DNA binding of the GCN4 basic region is mediated by a complicated network of base pair and DNA backbone contacts. According to the X-ray structure, alanine -14 of the basic region of GCN4 (we define the first leucine of the leucine zipper as +1) makes a hydrophobic contact to the methyl group of the thymine next to the center of the GCN4 binding site 5' ATGACTCAT 3'. We tested the DNA binding properties of the nineteen derivatives of GCN4, which carry all possible amino acids in position -14 of the basic region. Substitution of alanine -14 of GCN4 by either asparagine or cysteine changes the DNA binding specificity. Serine in this position broadens the specificity for position 1 of the target, whereas other amino acids either retain or decrease GCN4 specificity

72 residues of gal repressor fused to beta-galactosidase repress the gal operon of E. coli.

An active gene has been constructed which produces a chimera consisting of the N-terminal domain of the gal repressor and all but the first five residues of beta-galactosidase. Seventy two residues of gal repressor fused to beta-galactosidase as tetrameric core are sufficient to repress the gal operon in vivo and to bind to the gal operator in vitro