Characterization of the interaction of plant transcription factors using a bacterial repressor protein.

Transcription initiation from a eukaryotic polymerase II promoter requires a functional interaction of regulatory transcriptional activators with at least one of the basal transcription factors binding in the vicinity of the TATA box. To characterize this type of interaction in vivo, we have inserted the bacterial Tet repressor-operator complex in nine different positions between an enhancer element (as-1) and the TATA box of the cauliflower mosaic virus (CaMV) 35S RNA promoter. A direct contact between the transcriptional activator ASF-1, which binds to as-1, and the transcriptional machinery should be affected by a repressor protein bound between them, as the spacing of only 34 base pairs (bp) between as-1 and the TATA box is too short to allow looping of the DNA around the repressor. In each construct, the distance of 34 bp was kept constant, while the position of the 19-bp tet operator relative to the TATA box differed by 2 bp. Thus, the position of the Tet repressor relative to the plant transcription factors was consecutively changed by 72 degrees, which allowed us to investigate whether repression depended on the stereospecific alignment of the repressor with the transcription factors. Binding of the Tet repressor to the operator blocked transcription only when the operator was inserted less tha 5 bp from the TATA box. In all other promoter derivatives, no inhibitory effect of the repressor was observed, which suggests that ASF-1 does not directly interact with the general transcription machinery.