Histone Folds Mediate Selective Heterodimerization of Yeast TAFII25 with TFIID Components yTAFII47 and yTAFII65 and with SAGA Component ySPT7

Abstract

We show that the yeast TFIID (yTFIID) component yTAF_II47 contains a histone fold domain (HFD) with homology to that previously described for hTAF_II135. Complementation in vivo indicates that the yTAF_II47 HFD is necessary and sufficient for vegetative growth. Mutation of highly conserved residues in the α1 helix of the yTAF_II47 HFD results in a temperature-sensitive phenotype which can be suppressed by overexpression of yTAF_II25, as well as by yTAF_II40, yTAF_II19, and yTAF_II60. In yeast two-hybrid and bacterial coexpression assays, the yTAF_II47 HFD selectively heterodimerizes with yTAF_II25, which we show contains an HFD with homology to the hTAF_II28 family We additionally demonstrate that yTAF_II65 contains a functional HFD which also selectively heterodimerizes with yTAF_II25. These results reveal the existence of two novel histone-like pairs in yTFIID. The physical and genetic interactions described here show that the histone-like yTAF_IIs are organized in at least two substructures within TFIID rather than in a single octamer-like structure as previously suggested. Furthermore, our results indicate that ySPT7 has an HFD homologous to that of yTAF_II47 which selectively heterodimerizes with yTAF_II25, defining a novel histone-like pair in the SAGA complex.