By using site-specific protein-DNA photocrosslinking, we define the positions of TATA-binding protein, transcription factor IIB, transcription factor IIF, and subunits of RNA polymerase II (RNAPII) relative to promoter DNA within the human transcription preinitiation complex. The results indicate that the interface between the largest and second-largest subunits of RNAPII forms an extended, Ϸ240 Å channel that interacts with promoter DNA both upstream and downstream of the transcription start. By using electron microscopy, we show that RNAPII compacts promoter DNA by the equivalent of Ϸ50 bp. Together with the published structure of RNAPII, the results indicate that RNAPII wraps DNA around its surface and suggest a specific model for the trajectory of the wrapped DNA.Transcription initiation at a eukaryotic protein-encoding gene involves assembly on promoter DNA of a complex consisting of RNA polymerase II (RNAPII) and six general transcription factors: IIA, IIB, IID (or TATA-element binding protein, TBP), IIE, IIF, and IIH (1-3). A subcomplex containing TBP, IIB, IIF, RNAPII, and promoter DNA is stable (4, 5), and, under certain conditions (e.g., conditions that promote DNA melting), is fully competent for transcription initiation (6-11). Results of DNA footprinting experiments indicate that the TBP-IIB-IIF-RNAPII-promoter complex with linear DNA at 30°C involves interactions both upstream and downstream of the transcription start (positions Ϫ42 to ϩ17; H. Lu and D.R., unpublished data) and involves unmelted DNA (11). Thus, the TBP-IIB-IIF-RNAPII-promoter complex with linear DNA at 30°C appears to correspond to the RNA polymerase-promoter ''intermediate complex'' characterized in studies of Escherichia coli RNA polymerase (RP i or RP c2 ; refs. 12-15).The TBP-IIB-IIF-RNAPII-promoter complex contains at least 14 distinct polypeptides (one in TBP, one in IIB, two in IIF, and at least 10 in RNAPII) and has a molecular mass in excess of 700 kDa (1-3). High-resolution structures have been determined for the TBP-DNA and TBP-IIB-DNA complexes (16-18). However, the TBP-IIB-IIF-RNAPII-promoter complex is too large for high-resolution structure determination by current methods. Therefore, information about the structure of the TBP-IIB-IIF-RNAPII-promoter complex must rely on low-resolution structure determination (19,20) supplemented by biochemical and imaging data.In the work in this report, we have used site-specific protein-DNA photocrosslinking and electron microscopy to define protein-DNA interactions within the human TBP-IIB-IIF-RNAPIIpromoter complex.
MATERIALS AND METHODSDerivatized Promoter DNA Fragments. Derivatized promoter DNA fragments were prepared essentially as in ref. 21. Oligodeoxyribonucleotides containing phosphorothioate 5Ј to the third nucleotide were synthesized by using solid-phase -cyanoethylphosphoramidite chemistry and tetraethylthiuram disulfide (Applied Biosystems), purified on OPC (Applied Biosystems), and derivatized with azidophenacyl bromide (Sigma; ref. 22). Derivatized oligodeo...
