Two novel Drosophila TAF(II)s have homology with human TAF(II)30 and are differentially regulated during development

TFIID is a multiprotein complex composed of the TATA binding protein (TBP) and TBP-associated factors (TAF(II)s). The binding of TFIID to the promoter is the first step of RNA polymerase II preinitiation complex assembly on protein-coding genes. Yeast (y) and human (h) TFIID complexes contain 10 to 13 TAF(II)s. Biochemical studies suggested that the Drosophila (d) TFIID complexes contain only eight TAF(II)s, leaving a number of yeast and human TAF(II)s (e.g., hTAF(II)55, hTAF(II)30, and hTAF(II)18) without known Drosophila homologues. We demonstrate that Drosophila has not one but two hTAF(II)30 homologues, dTAF(II)16 and dTAF(II)24, which are encoded by two adjacent genes. These two genes are localized in a head-to-head orientation, and their 5' extremities overlap. We show that these novel dTAF(II)s are expressed and that they are both associated with TBP and other bona fide dTAF(II)s in dTFIID complexes. dTAF(II)24, but not dTAF(II)16, was also found to be associated with the histone acetyltransferase (HAT) dGCN5. Thus, dTAF(II)16 and dTAF(II)24 are functional homologues of hTAF(II)30, and this is the first demonstration that a TAF(II)-GCN5-HAT complex exists in Drosophila. The two dTAF(II)s are differentially expressed during embryogenesis and can be detected in both nuclei and cytoplasm of the cells. These results together indicate that dTAF(II)16 and dTAF(II)24 may have similar but not identical functions.     

An in vitro enzymatic assay coupled to proteomics analysis reveals a new DNA processing activity for Ewing sarcoma and TAF(II)68 proteins

Based on structural and functional similarities, translocated in liposarcoma/fusion (TLS/FUS) protein, Ewing sarcoma (EWS) protein and human TATA binding protein-associated factor (hTAF(II)68) have been grouped in the TLS-EWS-TAF(II)68 (TET) protein family. Translocations involving their genes lead to sarcomas. Polypyrimidine tract-binding protein-associated splicing factor (PSF), although not grouped in this family, presents structural and functional similarities with TET proteins and is involved in translocation leading to carcinoma. Beside their role in RNA metabolism, the precise cellular functions of these multifunctional proteins are not yet fully elucidated. We previously showed that both TLS/FUS and PSF display activities able to pair homologous DNA on membrane in an in vitro assay. In the present study, we address the question whether EWS and hTAF(II)68 also display pairing on membrane activities, and to a larger extent whether other proteins also exhibit such activity. We applied the pairing on membrane assay to 2-DE coupled to MS analysis for a global screening of DNA pairing on membrane activities. In addition to TLS/FUS and PSF, this test allowed us to identify EWS and hTAF(II)68, but no other proteins, indicating a feature specific to a protein family whose members share extensive structural similarities. This common activity suggests a role for TET proteins and PSF in genome plasticity control.