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Molecular and Cellular Biology, April 2006, p. 2688-2696, Vol. 26, No. 7
0270-7306/06/$08.00+0     doi:10.1128/MCB.26.7.2688-2696.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

cis- and trans-Acting Determinants of Transcription Termination by Yeast RNA Polymerase II

Eric J. Steinmetz, Sarah B. H. Ng, Joseph P. Cloute, and David A. Brow^*

Department of Biomolecular Chemistry, University of Wisconsin Medical School, Madison, Wisconsin 53706-1532

Received 1 December 2005/ Returned for modification 23 December 2005/ Accepted 13 January 2006

Most eukaryotic genes are transcribed by RNA polymerase II (Pol II), including those that produce mRNAs and many noncoding functional RNAs. Proper expression of these genes requires efficient termination by Pol II to avoid transcriptional interference and synthesis of extended, nonfunctional RNAs. We previously described a pathway for yeast Pol II termination that involves recognition of an element in the nascent transcript by the essential RNA-binding protein Nrd1. The Nrd1-dependent pathway appears to be used primarily for nonpolyadenylated transcripts, such as the small nuclear and small nucleolar RNAs (snoRNAs). mRNAs are thought to use a distinct pathway that is coupled to cleavage and polyadenylation of the transcript. Here we show that the terminator elements for two yeast snoRNA genes also direct polyadenylated 3'-end formation in the context of an mRNA 3' untranslated region. A selection for cis-acting terminator readthrough mutations identified conserved features of these elements, some of which are similar to cleavage and polyadenylation signals. A selection for trans-acting mutations that induce readthrough of both a snoRNA and an mRNA terminator yielded mutations in the Rpb3 and Rpb11 subunits of Pol II that define a remarkably discrete surface on the trailing end of the enzyme. Our results suggest that, at least in budding yeast, protein-coding and noncoding Pol II-transcribed genes use similar mechanisms to direct termination and that the termination signal is transduced through the Rpb3/Rpb11 heterodimer.

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* Corresponding author. Mailing address: Department of Biomolecular Chemistry, University of Wisconsin Medical School, 1300 University Avenue, Madison, WI 53706-1532. Phone: (608) 262-1475. Fax: (608) 262-5253. E-mail: dabrow{at}wisc.edu.

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Molecular and Cellular Biology, April 2006, p. 2688-2696, Vol. 26, No. 7
0022-538X/06/$08.00+0     doi:10.1128/MCB.26.7.2688-2696.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

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