Deletion of the nuclear exosome component RRP6 leads to continued accumulation of the histone mRNA HTB1 in S-phase of the cell cycle in Saccharomyces cerevisiae.
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Canavan, R and U. Bond, Deletion of the nuclear exosome component RRP6 leads to continued accumulation of the histone mRNA HTB1 in S-phase of the cell cycle in Saccharomyces cerevisiae., Nucleic Acids Research, 35, 18, 2007, 6268 - 6279
Abstract
The nuclear exosome, a macromolecular complex of
3
’
to 5
’
exonucleases, is required for the post-
transcriptional processing of a variety of RNAs
including rRNAs and snoRNAs. Additionally,
this complex forms part of a nuclear surveillance
network where it acts to degrade any aberrantly
processed mRNAs in the nucleus. The exosome
complex has been implicated in the biogenesis
pathway of general messenger RNAs through its
interaction with the 3
’
-end processing machinery.
During the cell cycle, yeast histone mRNAs accu-
mulate in the S-phase and are rapidly degraded
as cells enter the G2-phase. To determine if the
exosome contributes to the cyclic turnover of yeast
histone mRNAs, we examined the pattern of accu-
mulation of ‘HTB1’ mRNA during the cell cycle in a
deletion strain of ‘RRP6’, a component of the
nuclear exosome. Our results show that cells
lacking Rrp6p continue to accumulate HTB1 mRNA
as the cell cycle proceeds. This continued accumu-
lation appears to result from a delay in exit from
S-phase in
rrp6
cells. The accumulation of HTB1
mRNA in
rrp6
cells is influenced by the interaction of
the nuclear exosome with the 3
’
-end processing
machinery although there is no evidence for differ-
ential regulation of histone mRNA 3
’
-end processing
during the yeast cell cycle
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Author's Homepage: http://people.tcd.ie/ubond
Type of material: Journal Article

