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  • 1.
    Djupedal, Ingela
    et al.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Portoso, M
    University of Edinburgh, Edinburgh, UK.
    Spåhr, H
    Karolinska Institutet.
    Bonilla, Carolina
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Gustafsson, C M
    Karolinska Institutet.
    Allshire, R C
    University of Edinburgh, Edinburgh, UK.
    Ekwall, Karl
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    RNA Pol II subunit Rpb7 promotes centromeric transcription and RNAi-directed chromatin silencing2005In: Genes & Development, ISSN 0890-9369, E-ISSN 1549-5477, Vol. 19, no 19, p. 2301-2306Article in journal (Refereed)
    Abstract [en]

    Fission yeast centromeric repeats are transcribed into small interfering RNA (siRNA) precursors (pre-siRNAs), which are processed by Dicer to direct heterochromatin formation. Recently, Rpb1 and Rpb2 subunits of RNA polymerase II (RNA Pol II) were shown to mediate RNA interference (RNAi)-directed chromatin modification but did not affect pre-siRNA levels. Here we show that another Pol II subunit, Rpb7 has a specific role in presiRNA transcription. We define a centromeric presiRNA promoter from which initiation is exquisitely sensitive to the rpb7-G150D mutation. In contrast to other Pol II subunits, Rpb7 promotes pre-siRNA transcription required for RNAi-directed chromatin silencing.

  • 2. Lundström, A
    et al.
    Gallio, Marco
    Södertörn University, School of Chemistry, Biology, Geography and Environmental Science.
    Englund, C
    Steneberg, P
    Hemphälä, J
    Aspenström, P
    Keleman, K
    Falileeva, L
    Dickson, B J
    Samakovlis, C
    Vilse, a conserved Rac/Cdc42 GAP mediating Robo repulsion in tracheal cells and axons2004In: Genes & Development, ISSN 0890-9369, E-ISSN 1549-5477, Vol. 18, no 17, p. 2161-2171Article in journal (Refereed)
    Abstract [en]

    Slit proteins steer the migration of many cell types through their binding to Robo receptors, but how Robo controls cell motility is not clear. We describe the functional analysis of vilse, a Drosophila gene required for Robo repulsion in epithelial cells and axons. Vilse defines a conserved family of RhoGAPs (Rho GTPase-activating proteins), with representatives in flies and vertebrates. The phenotypes of vilse mutants resemble the tracheal and axonal phenotypes of Slit and Robo mutants at the CNS midline. Dosage-sensitive genetic interactions between vilse, slit, and robo mutants suggest that vilse is a component of robo signaling. Moreover, overexpression of Vilse in the trachea of robo mutants ameliorates the phenotypes of robo, indicating that Vilse acts downstream of Robo to mediate midline repulsion. Vilse and its human homolog bind directly to the intracellular domains of the corresponding Robo receptors and promote the hydrolysis of RacGTP and, less efficiently, of Cdc42GTP. These results together with genetic interaction experiments with robo, vilse, and rac mutants suggest a mechanism whereby Robo repulsion is mediated by the localized inactivation of Rac through Vilse.

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