The elongating, hyperphosphorylated form of RNA polymerase II is associated with the Elongator complex, which has the histone acetyltransferase (HAT) Elp3 as a subunit. Here we show that, in contrast to the isolated Elp3 subunit, the activity of intact Elongator complex is directed specifically toward the amino-terminal tails of histone H3 and H4, and that Elongator can acetylate both core histones and nucleosomal substrates. The predominant acetylation sites are lysine-14 of histone H3 and lysine-8 of histone H4. The three smallest Elongator subunits-Elp4, Elp5, and Elp6 -are required for HAT activity, and Elongator binds to both naked and nucleosomal DNA. By using chromatin immunoprecipitation, we show that the levels of multiply acetylated histone H3 and H4 in chromatin are decreased in vivo in yeast cells lacking ELP3.
The mammalian BTG/Tob family comprises six proteins (BTG1, BTG2/PC3/Tis21, BTG3/ANA, BTG4/PC3B, Tob1/Tob and Tob2), which regulate cell cycle progression in a variety of cell types. They are characterised by the conserved N-terminal domain spanning 104-106 amino acids. Recent biochemical and structural data indicate that the conserved BTG domain is a protein-protein interaction module, which is capable of binding to DNA-binding transcription factors as well as the paralogues CNOT7 (human Caf1/Caf1a) and CNOT8 (human Pop2/Calif/Caf1b), two deadenylase subunits of the Ccr4-Not complex. Consistent with this finding, several members of the BTG/Tob family are shown to be implicated in transcription in the nucleus and cytoplasmic mRNA deadenylation and turnover. The C-terminal regions are less conserved and appear to mediate protein-protein interactions that are unique to each family member. The human and mouse BTG/Tob proteins will be the focus of this review and structural aspects of BTG/Tob interactions with components of the Ccr4-Not complex, and the role of the BTG/Tob proteins in the regulation of gene expression, tumourigenesis and cancer will be discussed.
Human Elongator complex was purified to virtual homogeneity from HeLa cell extracts. The purified factor can exist in two forms: a six-subunit complex, holo-Elongator, which has histone acetyltransferase activity directed against histone H3 and H4, and a three-subunit core form, which does not have histone acetyltransferase activity despite containing the catalytic Elp3 subunit. Elongator is a component of early elongation complexes formed in HeLa nuclear extracts and can interact directly with RNA polymerase II in solution. Several human homologues of the yeast Elongator subunits were identified as subunits of the human Elongator complex, including StIP1 (STAT-interacting protein 1) and IKAP (IKK complex-associated protein). Mutations in IKAP can result in the severe human disorder familial dysautonomia, raising the possibility that this disease might be due to compromised Elongator function and therefore could be a transcription disorder.
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