Genetic Evidence Supports a Role for the Yeast CCR4-NOT Complex in Transcriptional Elongation

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Genetic Evidence Supports a Role for the Yeast CCR4-NOT Complex in Transcriptional Elongation

Clyde L. Denis^a, Yueh-Chin Chiang^a, Yajun Cui^a, and Junji Chen^a
^a Department of Biochemistry and Molecular Biology, University of New Hampshire, Durham, New Hampshire 03824

Corresponding author: Clyde L. Denis, Department of Biochemistry and Molecular Biology, Rudman Hall, University of New Hampshire, Durham, NH 03824., cldenis{at}christa.unh.edu (E-mail)

Communicating editor: M. HAMPSEY

The CCR4-NOT complex is involved in the regulation of gene expressionboth positively and negatively. The repressive effects of thecomplex appear to result in part from restricting TBP accessto noncanonical TATAA binding sites presumably through interactionwith multiple TAF proteins. We provide here genetic evidencethat the CCR4-NOT complex also plays a role in transcriptionalelongation. First, defects in CCR4-NOT components as well asoverexpression of the NOT4 gene elicited 6-azauracil (6AU) andmycophenolic acid sensitivities, hallmarks of transcriptionalelongation defects. A number of other transcription initiationfactors known to interact with the CCR4-NOT complex did notelicit these phenotypes nor did defects in factors that reducedmRNA degradation and hence the recycling of NTPs. Second, deletionof ccr4 resulted in severe synthetic effects with mutationsor deletions in the known elongation factors RPB2, TFIIS, andSPT16. Third, the ccr4 deletion displayed allele-specific interactionswith rpb1 alleles that are thought to be important in the controlof elongation. Finally, we found that a ccr4 deletion as wellas overexpression of the NOT1 gene specifically suppressed thecold-sensitive phenotype associated with the spt5-242 allele.The only other known suppressors of this spt5-242 allele arefactors involved in slowing transcriptional elongation. Thesegenetic results are consistent with the model that the CCR4-NOTcomplex, in addition to its known effects on initiation, playsa role in aiding the elongation process.

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