Abstract
We determined that the tandem SH2 domain of S. cerevisiae Spt6 binds the linker region of the RNA polymerase II subunit Rpb1 rather than the expected sites in its heptad repeat domain. The 4 nM binding affinity requires phosphorylation at Rpb1 S1493 and either T1471 or Y1473. Crystal structures showed that pT1471 binds the canonical SH2 pY site while pS1493 binds an unanticipated pocket 70 Å distant. Remarkably, the pT1471 phosphate occupies the phosphate-binding site of a canonical pY complex, while Y1473 occupies the position of a canonical pY side chain, with the combination of pT and Y mimicking a pY moiety. Biochemical data and modeling indicate that pY1473 can form an equivalent interaction, and we find that pT1471/pS1493 and pY1473/pS1493 combinations occur in vivo. ChIP-seq and genetic analyses demonstrate the importance of these interactions for recruitment of Spt6 to sites of transcription and for the maintenance of repressive chromatin.
Highlights
RNAPII is the twelve-subunit complex that transcribes mRNAs and many noncoding RNAs in eukaryotes (Kornberg, 1999)
Purified RNAPII proteins were transferred to a membrane and probed with purified recombinant GST-Spt61223-1451 (GST-tandem SH2 (tSH2)) in a
It was generally assumed that Spt6 binds to the phosphorylated heptad repeats of the RNAPII C-terminal domain (CTD) (Yoh et al, 2007; Yoh et al, 2008)
Summary
RNAPII is the twelve-subunit complex that transcribes mRNAs and many noncoding RNAs in eukaryotes (Kornberg, 1999). Phosphorylation of CTD residues is thought to recruit multiple co-factors, including the essential and conserved transcription factor Spt, which directly binds to and co-localizes with RNAPII at sites of transcription (Andrulis et al, 2000; Kaplan et al, 2005; Kaplan et al, 2000; Kim et al, 2004; Mayer et al, 2010; Perales et al, 2013; Yoh et al, 2007; Yoh et al, 2008). Spt has been implicated in multiple steps of gene expression including transcription, mRNA processing and export, histone post-translational modification, and nucleosome positioning (Duina, 2011).
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