Abstract
Eukaryotic 3'-->5' exonucleolytic activities are essential for a wide variety of reactions of RNA maturation and metabolism, including processing of rRNA, small nuclear RNA, and small nucleolar RNA, and mRNA decay. Two related but distinct forms of a complex containing 10 3'-->5' exonucleases, the exosome, are found in yeast nucleus and cytoplasm, respectively, and related complexes exist in human cells. Here we report on the characterization of the AtRrp41p, an Arabidopsis thaliana homolog of the Saccharomyces cerevisiae exosome subunit Rrp41p (Ski6p). Purified recombinant AtRrp41p displays a processive phosphorolytic exonuclease activity and requires a single-stranded poly(A) tail on a substrate RNA as a "loading pad." The expression of the Arabidopsis RRP41 cDNA in yeast rescues the 5.8 S rRNA processing and 3'-->5' mRNA degradation defects of the yeast ski6-100 mutant. However, neither of these defects can explain the conditional lethal phenotype of the ski6-100 strain. Importantly, AtRrp41p shares additional function(s) with the yeast Rrp41p which are essential for cell viability because it also rescues the rrp41 (ski6) null mutant. AtRrp41p is found predominantly in a high molecular mass complex in Arabidopsis and in yeast cells, and it interacts in vitro with the yeast Rrp44p and Rrp4p exosome subunits, suggesting that it can participate in evolutionarily conserved interactions that could be essential for the integrity of the exosome complex.
Highlights
A large number of eukaryotic RNA species require 3Ј35Ј exonucleolytic activities either for processing from their respective precursor forms or for their turnover
Given the ability of AtRrp41p to interact with the conserved yeast exosome proteins and to rescue its molecular functions that require the intact complex, we propose that the high molecular mass complex detected with antibodies against the AtRrp41p in the Arabidopsis cells is a plant exosome
We present the characterization of the A. thaliana homolog of the yeast exosome subunit Rrp41p (Ski6p)
Summary
An Arabidopsis cDNA library derived from immature flower buds described in [30] was obtained from the Arabidopsis Biological Resource Center at Ohio State University. An AtRRP41 probe used to screen the cDNA library was obtained by PCR amplification of the AtRRP41 sequence fragment contained within EST T43164 and overlapping with it EST 116G11XP, using oligonucleotides oDB464 (5Ј-CAAGAGCCAGCAAAAGAAGAA-3Ј) and oDB465 (5Ј-TTATGCAGCTCGGCGATACTC-3Ј). The AtRRP41 open reading frame was amplified with the Pfu DNA polymerase using oligonucleotides oDB474 (5Ј-atggatccATGGAGTACGTAAACCCTGAA-3Ј; nucleotides that are not part of the AtRRP41 sequence are shown in lowercase) and oDB465 (5Ј-TTATGCAGCTCGGCGATACTC-3Ј). The amplified fragment was blunt end cloned into the SmaI site of the plasmid p112A1NE [24], yielding the construct pDB460, in which the AtRRP41 sense strand is transcribed from the ADH1 promoter. For the expression of AtRrp41p as a fusion to the maltose-binding protein (MBP), the AtRrp41p open reading frame was cloned into pMALc2 (New England Biolabs) to create pDB512
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