Contribution of domain structure to the RNA 3′ end processing and degradation functions of the nuclear exosome subunit Rrp6p

Phillips, Seasson N.; Butler, J. Scott

doi:10.1261/rna.5560903

Cited by 61 publications

(99 citation statements)

References 34 publications

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“…Rrp6 contains three domains required for nuclear localization, exoribonuclease activity, and RNA substrate specificity (43). Although a number of mRNAs are deregulated in the absence of Rrp6 (Dataset S2) it seems that protein-coding transcripts are recognized by the protein as substrates only in mutants that fail to export them from the nucleus (44).…”

Section: Rrp6 Function Is Important For the Transition From Mitosis Tmentioning

confidence: 99%

Execution of the meiotic noncoding RNA expression program and the onset of gametogenesis in yeast require the conserved exosome subunit Rrp6

Lardenois

Liu

Walther

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

126

217

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Budding yeast noncoding RNAs (ncRNAs) are pervasively transcribed during mitosis, and some regulate mitotic protein-coding genes. However, little is known about ncRNA expression during meiotic development. Using high-resolution profiling we identified an extensive meiotic ncRNA expression program interlaced with the protein-coding transcriptome via sense/antisense transcript pairs, bidirectional promoters, and ncRNAs that overlap the regulatory regions of genes. Meiotic unannotated transcripts (MUTs) are mitotic targets of the conserved exosome component Rrp6, which itself is degraded after the onset of meiosis when MUTs and other ncRNAs accumulate in successive waves. Diploid cells lacking Rrp6 fail to initiate premeiotic DNA replication normally and cannot undergo efficient meiotic development. The present study demonstrates a unique function for budding yeast Rrp6 in degrading distinct classes of meiotically induced ncRNAs during vegetative growth and the onset of meiosis and thus points to a critical role of differential ncRNA expression in the execution of a conserved developmental program.

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Section: Rrp6 Function Is Important For the Transition From Mitosis Tmentioning

confidence: 99%

Execution of the meiotic noncoding RNA expression program and the onset of gametogenesis in yeast require the conserved exosome subunit Rrp6

Lardenois

Liu

Walther

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

126

217

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“…5 Structurefunction studies of Rrp6 proteins with point mutations in the exonuclease domain confirmed the two-metal ion mechanism and suggested that, like the exonuclease domains of DNA polymerases, Rrp6 utilizes a phenylalanine to stabilize the hydroxyl anion intermediate activated for phosphodiester bond cleavage. 6,7 Unlike Dis3/Rrp44, whose activity is attenuated by interaction with Exo9, Rrp6 retains its characteristic properties in the Exo11 complex. 8 Rrp6 contains two HRDC (Helicase RNaseD Cterminal) domains, only one of which was predicated by sequence homology.…”

Section: Structure and Activity Of Rrp6mentioning

confidence: 99%

Rrp6, Rrp47 and Cofactors of the Nuclear Exosome

Butler

Mitchell

2010

Advances in Experimental Medicine and Biology

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This chapter reviews the present state of knowledge on the activity of enzymes that function with the RNA exosome in the nucleus. In this compartment, the exosome interacts physically and functionally with the exoribonuclease Rrp6 and several cofactors, most prominently Rrp47 and the TRAMP complex. These interactions decide the fate of RNA precursors from transcription through the formation of mature ribonucleoprotein particles (RNPs) and the export of the RNPs to the cytoplasm. The nuclear exosome catalyzes the formation of the mature 3' ends of many of these RNAs, but in other cases degrades the RNAs to mononucleotides. Co-factors such as Mpp6, TRAMP and the Nrd1/Nab3 complex play important roles in determining the outcome of the interaction of RNPs with the nuclear exosome. The details that govern the specificity of these decisions remain a rich source for future investigation.4

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“…The D238A single amino acid substitution disrupts the coordination of metal ions in the active site whereas the Y361A mutation prevents the activation of the hydrolytic water and thereby presumably abolishes exonucleolytic activity of the enzyme, while the D457A mutation in the conserved helicase and RNase D Cterminal (HRDC) domain alters protein interdomain contacts, possibly affecting coordination of the RNA substrate (Phillips and Butler 2003;Midtgaard et al 2006). In addition, deletion of the first 128 amino acids of Rrp6p has been shown to disrupt its interaction with Rrp47p (Stead et al 2007).…”

Section: In Vitro Characterization Of Rrp6p Mutantsmentioning

confidence: 99%

Exonucleolysis is required for nuclear mRNA quality control in yeast THO mutants

Assenholt

Mouaikel²,

Andersen³

et al. 2008

RNA

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Production of aberrant messenger ribonucleoprotein particles (mRNPs) is subject to quality control (QC). In yeast strains carrying mutations of the THO complex, transcription induction triggers a number of interconnected QC phenotypes: (1) rapid degradation of several mRNAs; (2) retention of a fraction of THO-dependent mRNAs in transcription site-associated foci; and (3) formation of a high molecular weight DNA/protein complex in the 39-ends of THO target genes. Here, we demonstrate that the 39-59 exonucleolytic domain of the nuclear exosome factor Rrp6p is necessary for establishing all QC phenotypes associated with THO mutations. The N terminus of Rrp6p is also important presumably through its binding to the Rrp6p co-factor Rrp47p. Interestingly, the 39-59 exonucleolytic activity of Dis3p, the only other active exonuclease of the nuclear exosome, can also contribute to RNA QC in THO mutants, while other nuclear 39-59 exonucleases cannot. Our data show that exonucleolytic attack by the nuclear exosome is needed both for provoking mRNP QC and for its ensuing elimination of faulty RNA.

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Contribution of domain structure to the RNA 3′ end processing and degradation functions of the nuclear exosome subunit Rrp6p

Cited by 61 publications

References 34 publications

Execution of the meiotic noncoding RNA expression program and the onset of gametogenesis in yeast require the conserved exosome subunit Rrp6

Execution of the meiotic noncoding RNA expression program and the onset of gametogenesis in yeast require the conserved exosome subunit Rrp6

Rrp6, Rrp47 and Cofactors of the Nuclear Exosome

Exonucleolysis is required for nuclear mRNA quality control in yeast THO mutants

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