BACKGROUND: Terminal deoxynucleotidyltransferase (TdT) is a DNA polymerase that enhances the Ig and TcR gene diversity in the N region at the junctions of variable (V), diversity (D) and joining (J) segments in B- and T-cells. TdT synthesizes the N region in concert with many proteins including DNA-PKcs, Ku70 and Ku86. To elucidate the molecular mechanism of the N region synthesis, we first attempted to isolate the genes with products that directly interact with TdT. RESULTS: Using a yeast two-hybrid system, we isolated a cDNA clone encoding a novel nuclear protein that interacts with TdT. This protein was designated as TdT interacting factor 2 (TdIF2). The confined region of the C-terminal in TdIF2 is involved in specific interaction with the entire C-terminal in TdT. TdIF2 contains an acidic region comprised of 42 residues. TdIF2 was shown to bind specifically to a core histone by pull down assay using specific antibodies against TdIF2. When a TdT/TdIF2 complex was applied on to a DNA-cellulose column, only TdT bound to the column while TdIF2 passed through. TdIF2 reduces the TdT activity to 46% of its maximum value in vitro assay system using activated DNA as primer. CONCLUSIONS: TdIF2 binds directly to TdT and core histone. Furthermore, TdT, TdIF2 and core histone form a ternary complex. TdIF2 liberates H2A/H2B from a core histone in correlation with PCNA. The enzymatic consequence of the TdIF2/TdT complex is the reduction of TdT activity in vitro. TdIF2 would function as a chromatin remodeling protein at the N region synthesis.

To understand the mechanism by which estrogen receptor (ER) activates transcription in a tissue specific fashion, we isolated ERalpha binding protein (ERBP) by performing yeast two-hybrid screening with human mammary gland cDNA library. ERBP is a nuclear protein and its mRNA is ubiquitously expressed. The in vitro interaction of ERBP with ERalpha was demonstrated by GST pull-down assay and this interaction was enhanced by estrogen. In addition, ERBP also bound to PPARgamma, RXRalpha, and ERbeta. ERBP interacted with the DNA binding domain and the hinge region of ERalpha. There are two ERalpha binding regions on ERBP. The binding of ERBP region at C-terminus to ERalpha is increased by estrogen while the binding of ERBP region at N-terminus is not affected by estrogen. The interaction of ERBP with ERalpha was further confirmed in vivo by immunoprecipitation. Transient transfection experiment demonstrated that ERBP enhanced the transcriptional activity of ERalpha.