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Genetics, Vol. 179, 69-81, May 2008, Copyright © 2008
doi:10.1534/genetics.107.086546
Diversification of the Core RNA Interference Machinery in Chlamydomonas reinhardtii and the Role of DCL1 in Transposon Silencing
J. Armando Casas-Mollano1, Jennifer Rohr1, Eun-Jeong Kim, Eniko Balassa, Karin van Dijk2 and Heriberto Cerutti3
School of Biological Sciences and Plant Science Initiative, University of Nebraska, Lincoln, Nebraska 68588
3 Corresponding author: School of Biological Sciences and Plant Science Initiative, University of Nebraska, E211 Beadle Center, Lincoln, NE 68588-0666.
E-mail: hcerutti1{at}unl.edu
Small RNA-guided gene silencing is an evolutionarily conserved process that operates by a variety of molecular mechanisms. In multicellular eukaryotes, the core components of RNA-mediated silencing have significantly expanded and diversified, resulting in partly distinct pathways for the epigenetic control of gene expression and genomic parasites. In contrast, many unicellular organisms with small nuclear genomes seem to have lost entirely the RNA-silencing machinery or have retained only a basic set of components. We report here that Chlamydomonas reinhardtii, a unicellular eukaryote with a relatively large nuclear genome, has undergone extensive duplication of Dicer and Argonaute polypeptides after the divergence of the green algae and land plant lineages. Chlamydomonas encodes three Dicers and three Argonautes with DICER-LIKE1 (DCL1) and ARGONAUTE1 being more divergent than the other paralogs. Interestingly, DCL1 is uniquely involved in the post-transcriptional silencing of retrotransposons such as TOC1. Moreover, on the basis of the subcellular distribution of TOC1 small RNAs and target transcripts, this pathway most likely operates in the nucleus. However, Chlamydomonas also relies on a DCL1-independent, transcriptional silencing mechanism(s) for the maintenance of transposon repression. Our results suggest that multiple, partly redundant epigenetic processes are involved in preventing transposon mobilization in this green alga.
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