Tra1 is an essential component of the SAGA/SLIK and NuA4 complexes in S. cerevisiae, recruiting these co-activator complexes to specific promoters. As a PIKK family member, Tra1 is characterized by a C-terminal phosphoinositide 3-kinase (PI3K) domain. Unlike other PIKK family members (e.g., Tor1, Tor2, Mec1, Tel1), Tra1 has no demonstrable kinase activity. We identified three conserved arginine residues in Tra1 that reside proximal or within the cleft between the N- and C-terminal subdomains of the PI3K domain. To establish a function for Tra1's PI3K domain and specifically the cleft region, we characterized a tra1 allele where these three arginine residues are mutated to glutamine. The half-life of the Tra1$${}_{\hbox{ Q }3}$$ protein is reduced but its steady state level is maintained at near wild-type levels by a transcriptional feedback mechanism. The tra1$${}_{Q\mathit{3}}$$ allele results in slow growth under stress and alters the expression of genes also regulated by other components of the SAGA complex. Tra1$${}_{\hbox{ Q }3}$$ is less efficiently transported to the nucleus than the wild-type protein. Likely related to this, Tra1$${}_{\hbox{ Q }3}$$ associates poorly with SAGA/SLIK and NuA4. The ratio of Spt7SLIK to Spt7SAGA increases in the tra1$${}_{Q\mathit{3}}$$ strain and truncated forms of Spt20 become apparent upon isolation of SAGA/SLIK. Intragenic suppressor mutations of tra1$${}_{Q\mathit{3}}$$ map to the cleft region further emphasizing its importance. We propose that the PI3K domain of Tra1 is directly or indirectly important for incorporating Tra1 into SAGA and NuA4 and thus the biosynthesis and/or stability of the intact complexes.
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