DIMERIZATION AND THE CONTROL OF TRANSCRIPTION BY KRUPPEL

KRUPPEL (KR), a Drosophila zinc finger-type1 transcription factor2-4, can both activate and repress gene expression through interaction with a single DNA-binding site4. The opposite regulatory effects of KR are concentration-dependent, and they require distinct portions of KR suc h as the N-terminal region for activation and the C-terminal region fo r repression4. Here we show that KR is able to form homodimers through sequences located within the C terminus. When these sequences were fu sed to separated functional parts of the yeast transcription factor GA L4(5), they reconstituted a functional transcriptional activator on di merization in vivo. Our results suggest that the KR monomer is a trans criptional activator. At higher concentration KR forms a homodimer and becomes a repressor that functions through the same target sequences as the activator.