Functional study of genes essential for autogamy and nuclear reorganization in Paramecium.

Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Pawinskiego Street 5a, Warsaw, Poland. jknowak@ibb.waw.pl

Eukaryotic cell 2011 Mar

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Like all ciliates, Paramecium tetraurelia is a unicellular eukaryote that harbors two kinds of nuclei within its cytoplasm. At each sexual cycle, a new somatic macronucleus (MAC) develops from the germ line micronucleus (MIC) through a sequence of complex events, which includes meiosis, karyogamy, and assembly of the MAC genome from MIC sequences. The latter process involves developmentally programmed genome rearrangements controlled by noncoding RNAs and a specialized RNA interference machinery. We describe our first attempts to identify genes and biological processes that contribute to the progression of the sexual cycle. Given the high percentage of unknown genes annotated in the P. tetraurelia genome, we applied a global strategy to monitor gene expression profiles during autogamy, a self-fertilization process. We focused this pilot study on the genes carried by the largest somatic chromosome and designed dedicated DNA arrays covering 484 genes from this chromosome (1.2% of all genes annotated in the genome). Transcriptome analysis revealed four major patterns of gene expression, including two successive waves of gene induction. Functional analysis of 15 upregulated genes revealed four that are essential for vegetative growth, one of which is involved in the maintenance of MAC integrity and another in cell division or membrane trafficking. Two additional genes, encoding a MIC-specific protein and a putative RNA helicase localizing to the old and then to the new MAC, are specifically required during sexual processes. Our work provides a proof of principle that genes essential for meiosis and nuclear reorganization can be uncovered following genome-wide transcriptome analysis.

Citation

Jacek K Nowak, Robert Gromadka, Marek Juszczuk, Maria Jerka-Dziadosz, Kamila Maliszewska, Marie-Hélène Mucchielli, Jean-François Gout, Olivier Arnaiz, Nicolas Agier, Thomas Tang, Lawrence P Aggerbeck, Jean Cohen, Hervé Delacroix, Linda Sperling, Christopher J Herbert, Marek Zagulski, Mireille Bétermier. Functional study of genes essential for autogamy and nuclear reorganization in Paramecium. Eukaryotic cell. 2011 Mar;10(3):363-72