Cotranslational assembly of the yeast SET1C histone methyltransferase complex.
PDF (995K)
+7 authors
Journal: 2009/November - EMBO Journal
ISSN: 1460-2075
Abstract:
While probing the role of RNA for the function of SET1C/COMPASS histone methyltransferase, we identified SET1RC (SET1 mRNA-associated complex), a complex that contains SET1 mRNA and Set1, Swd1, Spp1 and Shg1, four of the eight polypeptides that constitute SET1C. Characterization of SET1RC showed that SET1 mRNA binding did not require associated Swd1, Spp1 and Shg1 proteins or RNA recognition motifs present in Set1. RNA binding was not observed when Set1 protein and SET1 mRNA were derived from independent genes or when SET1 transcripts were restricted to the nucleus. Importantly, the protein-RNA interaction was sensitive to EDTA, to the translation elongation inhibitor puromycin and to the inhibition of translation initiation in prt1-1 mutants. Taken together, our results support the idea that SET1 mRNA binding was dependent on translation and that SET1RC assembled on nascent Set1 in a cotranslational manner. Moreover, we show that cellular accumulation of Set1 is limited by the availability of certain SET1C components, such as Swd1 and Swd3, and suggest that cotranslational protein interactions may exert an effect in the protection of nascent Set1 from degradation.
Open in
PUBMED | DOI | PMC | Google Scholar | Wikipedia
Relations:
Content
Citations
(2)
Drugs
(1)
Chemicals
(6)
Genes
(6)
Organisms
(1)
Processes
(4)
Similar articles
Articles by the same authors
Discussion board
EMBO J 28(19): 2959-2970
PMID: 19713935

Cotranslational assembly of the yeast SET1C histone methyltransferase complex

+3 authors

Supplementary Material

Supplementary Data

Review Process File

Institute of Molecular Biology, University of Zürich, Zürich, Switzerland
PhD Program in Molecular Life Sciences of the University of Zürich and the ETH Zürich, Zürich, Switzerland
Institute of Pharmaceutical Sciences, ETH Zürich, Zürich, Switzerland
Instabilité du Génome et Cancérogénèse (ICG), CNRS, Marseille, Cedex 20, France
Department for Physiological Chemistry, Genomics Laboratory, UMC Utrecht, Utrecht, The Netherlands
Institute of Molecular Biology, University of Zürich, Winterthurer Strasse 190, Zürich 8057, Switzerland. Tel.: +41 44 635 3160; Fax: +41 44 635 6811; E-mail: hc.hzu.oiblom@lthciD.drahnreB
These authors contributed equally to this work.
Received 2008 Sep 14; Accepted 2009 Jul 28.
Copyright © 2009, European Molecular Biology Organization

Abstract

While probing the role of RNA for the function of SET1C/COMPASS histone methyltransferase, we identified SET1RC (SET1 mRNA-associated complex), a complex that contains SET1 mRNA and Set1, Swd1, Spp1 and Shg1, four of the eight polypeptides that constitute SET1C. Characterization of SET1RC showed that SET1 mRNA binding did not require associated Swd1, Spp1 and Shg1 proteins or RNA recognition motifs present in Set1. RNA binding was not observed when Set1 protein and SET1 mRNA were derived from independent genes or when SET1 transcripts were restricted to the nucleus. Importantly, the protein–RNA interaction was sensitive to EDTA, to the translation elongation inhibitor puromycin and to the inhibition of translation initiation in prt1-1 mutants. Taken together, our results support the idea that SET1 mRNA binding was dependent on translation and that SET1RC assembled on nascent Set1 in a cotranslational manner. Moreover, we show that cellular accumulation of Set1 is limited by the availability of certain SET1C components, such as Swd1 and Swd3, and suggest that cotranslational protein interactions may exert an effect in the protection of nascent Set1 from degradation.

Keywords: COMPASS, complex assembly, Saccharomyces cerevisiae, SET1C complex, translation
Abstract
Click here to view.(1.2M, doc)Click here to view.(199K, pdf)

Acknowledgments

We are grateful to T Scherrer for help with DNA microarray analysis and polysomal gradients, to Werner Boll for assistance in fluorescence microscopy and to Erica Bogan for improving the paper. We thank F Stewart, A Roguev and A Hinnebusch for yeast strains; P Nagy for anti-Set1 and D Shore for anti-Rap1 antibodies, as well as R Erdmann and R Rucktäschel for anti-Pgk1 antibodies; M Rosbash for T7 RNAP plasmids, E Hurt for the ProteinA-fusion vector and Mai Thuong Pham for the HA–Set1 construct. IG was supported by a Müller fellowship through the Zürich Molecular Life Sciences PhD Program. APG was supported by a Career Development Award from the International Human Frontier Science Program Organization (HFSP). The study conducted in V Géli's laboratory is supported by ‘La Ligue Nationale contre le Cancer' (équipe labellisée). This study was supported by the University of Zürich and by grants from the Swiss National Science Foundation to BD (PP00A-102941 and PP00A3_120490/1).

Acknowledgments
Collaboration tool especially designed for Life Science professionals.Drag-and-drop any entity to your messages.