Determinants of half-site spacing preferences that distinguish AP-1 and ATF/CREB bZIP domains

doi:10.1093/nar/23.13.2531

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Nucleic Acids Research, 1995, Vol. 23, No. 13 2531-2537
© 1995

MOLECULAR BIOLOGY

Determinants of half-site spacing preferences that distinguish AP-1 and ATF/CREB bZIP domains

Joon Kim⁺ and Kevin Struhi^*

Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School Boston, MA 02115, USA

^*To whom correspondence should be addressed

Received February 28, 1995. Accepted April 20, 1995.

The AP-1 and ATF/CREB families of eukaryotic transcription factorsare dimeric DNA-binding proteins that contain the bZIP structuralmotif. The AP-1 and ATF/CREB proteins are structurally relatedand recognize Identical half-sites (TGAC), but they differ intheir requirements for half-site spacing. AP-1 proteins suchas yeast GCN4 preferentially bind to sequences with overlappinghalf-sites, whereas ATF/CREB proteins bind exclusively to sequenceswith adjacent half-sites. Here we investigate the distinctionsbetween AP-1 and ATF/CREB proteins by determining the DNA-bindingproperties of mutant and hybrid proteins. First, analysis ofGCN4-ATF1 hybrid proteins indicates that a short surface spanningthe basic and fork regions of the bZIP domain is the major determinantof half-site spacing. Replacement of two GCN4 residues on thissurface (Ala244 and Leu247) by their ATF1 counterparts largelyconverts GCN4 into a protein with ATF/CREB specificity. Secondly,analysis of a Fos derivative containing the GCN4 leuclne zipperindicates that Fos represents a novel intermediate between AP-1and ATF/CREB proteins. Thirdly, we examine the effects of mutationsin the invariant arginine residue of GCN4 (Arg243) that contactsthe central base pair(s) of the target sites. While most mutationsabolish DNA binding, substitution of a histldine residue resultsin a GCN4 derivative with ATF/CREB binding specificity. Theseresults suggest that the AP-1 and ATF/CREB proteins differ inpositioning a short surface that includes the invariant arginineand that AP-1 proteins may represent a subclass (and perhapsevolutionary offshoot) of ATF/CREB proteins that can tolerateoverlapping half-sites.

⁺Present address: Department of Biology, College of Science,Korea University, Seiyk 136-701, Korea

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