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Mol Cell Biol, March 1998, p. 1498-1505, Vol. 18, No. 3
Cell and Molecular Biology Graduate
Program1 and
Department of
Biology,2 University of Nevada, Reno, Nevada
89557
Received 20 June 1997/Returned for modification 19 August
1997/Accepted 15 December 1997
The
0270-7306/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.
Deadenylation-Dependent and -Independent Decay
Pathways for
1-Tubulin mRNA in Chlamydomonas
reinhardtii
- and 
-tubulin mRNAs of Chlamydomonas
reinhardtii exhibit different half-lives under different
conditions: when expressed constitutively, they degrade with
half-lives of about 1 h, whereas when induced by deflagellation,
they degrade with half-lives of only 10 to 15 min. To investigate the
decay pathway(s) used under these two conditions, an 1-tubulin gene
construct which included an insert of 30 guanidylate residues within
the 3' untranslated region was introduced into cells. This transgene
was efficiently expressed in stably transformed cells, and the mRNA
exhibited constitutive and postinduction half-lives like those of the
1-tubulin mRNA. Northern blot analysis revealed the occurrence of a
3' RNA fragment derived from the poly(G)-containing 1-tubulin
transcripts. The 3' fragment was shown to accumulate as full-length
mRNA disappeared in actinomycin D-treated cells, indicating a
precursor-product relationship. Insertion of a second poly(G) tract
upstream of the first resulted in accumulation of only a longer 3'
fragment, suggesting that the decay intermediate is generated by
5'-to-3' exonucleolytic digestion. A translational requirement
for generation of the 3' fragment was demonstrated by experiments in
which cells were deflagellated in the presence of
cycloheximide. Analysis of fragment poly(A) length revealed that the
fragments were, at most, oligoadenylated in nondeflagellated cells but
had a long poly(A) tail in deflagellated cells. These findings suggest
that the oligoadenylated fragment is a decay intermediate in a
deadenylation-dependent, constitutive degradation pathway and that the
requirement for deadenylation is bypassed in deflagellated cells. This
represents the first example in which a single transcript has been
shown to be targeted to different decay pathways under different
cellular conditions.
*
Corresponding author. Mailing address: Department of
Biology/314, University of Nevada, Reno, NV 89557. Phone: (702)
784-6679. Fax: (702) 784-1302. E-mail: ejb{at}med.unr.edu.
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