Tianxiang Shen scite author profile

Translocation through nuclear pore complexes (NPCs) requires interactions between receptor-cargo complexes and phenylalanine-glycine (FG) repeats in multiple FG domain-containing NPC proteins (FG-Nups). We have systematically deleted the FG domains of 11 Saccharomyces cerevisiae FG-Nups in various combinations. All five asymmetrically localized FG domains deleted together were non-essential. However, specific combinations of symmetrically localized FG domains were essential. Over half the total mass of FG domains could be deleted without loss of viability or the NPC's normal permeability barrier. Significantly, symmetric deletions caused mild reductions in Kap95-Kap60-mediated import rates, but virtually abolished Kap104 import. These results suggest the existence of multiple translocation pathways.

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The GLFG Regions of Nup116p and Nup100p Serve as Binding Sites for Both Kap95p and Mex67p at the Nuclear Pore Complex

Strawn

Shen

Wente

2001

Journal of Biological Chemistry

113

108

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Our previous studies have focused on a family of Saccharomyces cerevisiae nuclear pore complex (NPC) proteins that contain domains composed of repetitive tetrapeptide glycine-leucine-phenylalanine-glycine (GLFG) motifs. We have previously shown that the GLFG regions of Nup116p and Nup100p directly bind the karyopherin transport factor Kap95p during nuclear protein import. In this report, we have further investigated potential roles for the GLFG region in mRNA export. The subcellular localizations of green fluorescent protein (GFP)-tagged mRNA transport factors were individually examined in yeast cells overexpressing the Nup116-GLFG region. The essential mRNA export factors Mex67-GFP, Mtr2-GFP, and Dbp5-GFP accumulated in the nucleus. In contrast, the localizations of Gle1-GFP and Gle2-GFP remained predominantly associated with the NPC, as in wild type cells. The localization of Kap95p was also not perturbed with GLFG overexpression. Coimmunoprecipitation experiments from yeast cell lysates resulted in the isolation of a Mex67p-Nup116p complex. Soluble binding assays with bacterially expressed recombinant proteins confirmed a direct interaction between Mex67p and the Nup116-GLFG or Nup100-GLFG regions. Mtr2p was not required for in vitro binding of Mex67p to the GLFG region. To map the Nup116-GLFG subregion(s) required for Kap95p and/or Mex67p association, yeast two-hybrid analysis was used. Of the 33 Nup116-GLFG repeats that compose the domain, a central subregion of nine GLFG repeats was sufficient for binding either Kap95p or Mex67p. Interestingly, the first 12 repeats from the fulllength region only had a positive interaction with Mex67p, whereas the last 12 were only positive with Kap95p. Thus, the GLFG domain may have the capacity to bind both karyopherins and an mRNA export factor simultaneously. Taken together, our in vivo and in vitro results define an essential role for a direct Mex67p-GLFG interaction during mRNA export.To move between the nuclear and cytoplasmic compartments of a eukaryotic cell, all molecules must pass through nuclear pore complexes (NPCs) 1 embedded in the nuclear envelope.Ions, metabolites, and small proteins may diffuse through an ϳ9-nm aqueous channel in the NPC. In contrast, the movement of large macromolecules, including proteins and RNA, is energy-dependent and facilitated (reviewed in Refs. 1-3). The central channel of the proteinaceous NPC is formed by a symmetrical, 8-fold assembly of spoke-like structures sandwiched between nuclear and cytoplasmic rings. Distinct filamentous structures extend from these rings on both the nuclear and cytoplasmic faces, with the filaments on the nuclear side culminating in a basket-like structure. Overall, a vertebrate NPC measures ϳ200 nm from the tips of the cytoplasmic filaments to the base of the nucleoplasmic basket (4, 5). Unraveling the mechanism for active transport between the cytoplasmic and nucleoplasmic NPC faces will require an in-depth understanding of both the NPC itself and soluble transport factors. The Saccharomyces cerev...

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Amphiphilic ethyl cellulose brush polymers with mono and dual side chains: Facile synthesis, self-assembly, and tunable temperature-pH responsivities

Yuan

Zhang

Zou

et al. 2012

Polymer

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Supramolecular micelles with dual temperature and redox responses for multi-controlled drug release

et al. 2013

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Tianxiang Shen

Minimal nuclear pore complexes define FG repeat domains essential for transport

The GLFG Regions of Nup116p and Nup100p Serve as Binding Sites for Both Kap95p and Mex67p at the Nuclear Pore Complex

Amphiphilic ethyl cellulose brush polymers with mono and dual side chains: Facile synthesis, self-assembly, and tunable temperature-pH responsivities

Supramolecular micelles with dual temperature and redox responses for multi-controlled drug release

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