The high mobility group (HMG) box domain has defined a family of proteins, mostly transcription factors, that specifically interacts with DNA on the minor groove and sharply bends it. The founding member of the family, HMG1, does not specifically recognize regular B-DNA but is recruited to DNA by interaction with other transcription factors and TATA box-binding protein (TBP). However, conflicting effects of HMG1 on transcription have been reported. We show that the interaction between HMG1 and TBP is species-specific. This interaction in turn affects the interaction of TBP with transcription factor (TF) IIB and is competed by TFIIA. A primary binding site was mapped to the H2 ␣-helix in the highly conserved core domain of human TBP. On HMG1, the primary binding site was only in the HMG box A, and HMG box A was also sufficient to interact with native TFIID. Both HMG boxes efficiently repressed transcription in vitro as fusions to the Gal4-DNA binding domain. Additionally, HMG box B showed a weak level of activation at very low amounts. These results suggest a general involvement of HMG1 at the early stages of polymerase II transcription that may result in subtle activation or repression of individual genes.
High mobility group protein 1 (HMG1)1 is an abundant, highly conserved nuclear protein found in practically all eukaryotes. It is structured in three domains, one C-terminal highly acidic domain and two basic domains, A and B. The structures of the A and B domains have been solved in solution by NMR (1, 2). Both domains adopt a very similar L-shaped structure, formed by two short and one long ␣-helix, that is known as the HMG box domain. An increasing number of proteins containing one or more HMG box domains have been described; the HMG box domains for which the structure has been solved, such as the ones in LEF-1 or SRY, are very similar to the HMG box domains of HMG1 (3, 4). However, whereas SRY and LEF-1 interact with DNA in the minor groove with a certain sequence specificity, HMG1 (and the related protein HMG2) does not interact specifically with regular B-DNA. Nevertheless, HMG1 shows a clear preference for binding angled structures in the DNA without any sequence specificity, such as cisplatin-modified DNA, bulged DNA, or four-way DNA junctions (5, 6). Structure-specific DNA recognition has also been observed for the HMG box domains of several other proteins such as UBF and SRY (7,8).The HMG boxes of HMG1 are also a place for protein-protein interactions. Both HMG1 domains A and B have been reported to interact with the POU domains of Oct2 and HOXD9 (9, 10), and full-length HMG1 has been shown to interact with TBP (11) and recently with p53 (12) and steroid hormone receptors (13).The fact that many members of the HMG box family are transcription factors (14), along with the interactions of HMG1/2 with several transcription factors, has suggested a role for HMG1/2 in transcription. In this respect, enhancement of progesterone receptor binding to specific DNA sequences (15), reversible repression of basal...
