The importin-beta family member Crm1p bridges the interaction between Rev and the nuclear pore complex during nuclear export
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Nuclear pore
Nuclear export signal
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Author(s): Tang, Jeffrey Hsin Nien | Advisor(s): Liphardt, Jan | Abstract: The nuclear pore complex (NPC) is one of the largest known protein structures in the cell. Evolutionarily conserved in eukaryotes ranging from fungi to plants and animals, the NPC is the main transporter of molecules between the cell cytoplasm and nucleus. Maintaining the proper compartment-specific localization of proteins and RNA is crucial for normal cell function, and the nuclear pore accomplishes this task both robustly and efficiently. Over the past several decades, insight into the composition, organization, structure, and mechanism of the NPC has been gradually teased out through careful experimentation. However, many questions about the pore's function remain unanswered. In this dissertation, I describe efforts aimed at elucidating several aspects of the NPC. First, I investigate the transport properties of the pore, specifically looking at how the nuclear transport receptor importin-β and the Ran GTPase interact not only with each other but also how they may affect the pore itself. The nucleoporin Nup153 is identified as an important player in the nuclear transport process which binds strongly to importin-β in a Ran-sensitive manner. Using multiple experimental techniques, the properties of importin-β, and Nup153's interactions are characterized and shown to be capable of modulating the selective permeability barrier of the NPC.Next, I examine how members of a major class of nuclear pore proteins, the scaffold nucleoporins, are both structurally and functionally similar to the karyopherin family of soluble nuclear transport receptors. Structures of the proteins Nup188 and Nup192 are analyzed and shown to resemble those of karyopherins. Furthermore, in vitro assays indicate that at least a subset of the scaffold nucleoporins behave functionally as transport receptors, hinting at an evolutionary relationship between these two important classes of proteins.Finally, a calcium-mediated phenomenon affecting the permeability of the NPC is explored. I show that certain cytosolic proteases are activated by millimolar concentrations of calcium ion which leads irreversibly to an increase in the nuclear pore's permeability to large molecules. A model for physiological pathways implicated in this effect is proposed.
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Abstract Nucleocytoplasmic transport of macromolecules is essential in eukaryotic cells. In this process, the karyopherins play a central role when they transport cargoes across the nuclear pore complex. Importin 4 belongs to the karyopherin β family. Many studies have focused on finding substrates for importin 4, but no direct mechanism studies of its precise transport function have been reported. Therefore, this paper mainly aimed to study the mechanism of nucleoporins in mediating nuclear import and export of importin 4. To address this question, we constructed shRNAs targeting Nup358, Nup153, Nup98, and Nup50. We found that depletion of Nup98 resulted in a shift in the subcellular localization of importin 4 from the cytoplasm to the nucleus. Mutational analysis demonstrated that Nup98 physically and functionally interacts with importin 4 through its N‐terminal phenylalanine‐glycine (FG) repeat region. Mutation of nine of these FG motifs to SG motifs significantly attenuated the binding of Nup98 to importin 4, and we further confirmed the essential role of the six FG motifs in amino acids 121–360 of Nup98 in binding with importin 4. In vitro transport assay also confirmed that VDR, the substrate of importin 4, could not be transported into the nucleus after Nup98 knockdown. Overall, our results showed that Nup98 is required for efficient importin 4‐mediated transport. This is the first study to reveal the mechanism of importin 4 in transporting substrates into the nucleus.
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The regulated exchange of proteins and nucleic acids between the nucleus and cytoplasm demands a complex interplay between nuclear pore complexes (NPCs), which provide conduits in the nuclear envelope, and mobile transport receptors (or karyopherins, also known as importins/exportins) that bind and mediate the translocation of cargoes through the NPCs. Biochemical characterization of individual karyopherins has led to the identification of many of their cargoes and to the elucidation of the mechanisms by which they mediate transport. Likewise, the characterization of numerous NPC-associated components, in combination with structural studies of NPCs, have begun to address the possible mechanisms that drive nucleocytoplasmic transport, and the role that different nucleoporins play in the transport process. Some recent studies indicate that several NPC-associated factors, previously thought to be stable components of the NPC, dynamically interact with both nuclear and cytoplasmic aspects of the NPC. The mobility of these components challenges our conventional view of the NPC as the stationary phase of transport. These components and their potiential roles in nucleo-cytoplasmic transport are discussed.Key words: Nucleocytoplasmic transport, nuclear pore complex, nucleoporin, karyopherin, Nup2p.
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The transport of macromolecules across the nuclear envelope is an essential eukaryotic process that enables proteins such as transcription factors, polymerases and histones to gain access to the genetic material contained within the nucleus. Importin-beta plays a central role in the nucleocytoplasmic transport process, mediating nuclear import through a range of interactions with cytoplasmic, nuclear and nuclear pore proteins such as importin-alpha, Ran, nucleoporins and various cargo molecules. The unliganded form of the full-length yeast importin-beta has been expressed and crystallized. The crystals were obtained by vapour diffusion at pH 6.5 and 290 K. The crystals belonged to space group P2(1) (unit-cell parameters a = 58.17, b = 127.25, c = 68.52 A, beta = 102.23). One molecule is expected in the asymmetric unit. The crystals diffracted to 2.4 A resolution using a laboratory X-ray source and were suitable for crystal structure determination.
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A major question in nuclear import concerns the identity of the nucleoporin(s) that interact with the nuclear localization sequences (NLS) receptor and its cargo as they traverse the nuclear pore. Ligand blotting and solution binding studies of isolated proteins have attempted to gain clues to the identities of these nucleoporins, but the studies have from necessity probed binding events far from an in vivo context. Here we have asked what binding events occur in the more physiological context of a Xenopus egg extract, which contains nuclear pore subcomplexes in an assembly competent state. We have then assessed our conclusions in the context of assembled nuclear pores themselves. We have used immunoprecipitation to identify physiologically relevant complexes of nucleoporins and importin subunits. In parallel, we have demonstrated that it is possible to obtain immunofluorescence localization of nucleoporins to subregions of the nuclear pore and its associated structures. By immunoprecipitation, we find the nucleoporin Nup153 and the pore-associated filament protein Tpr, previously shown to reside at distinct sites on the intranuclear side of assembled pores, are each in stable subcomplexes with importin alpha and beta in Xenopus egg extracts. Importin subunits are not in stable complexes with nucleoporins Nup62, Nup93, Nup98, or Nup214/CAN, either in egg extracts or in extracts of assembled nuclear pores. In characterizing the Nup153 complex, we find that Nup153 can bind to a complete import complex containing importin alpha, beta, and an NLS substrate, consistent with an involvement of this nucleoporin in a terminal step of nuclear import. Importin beta binds directly to Nup153 and in vitro can do so at multiple sites in the Nup153 FXFG repeat region. Tpr, which has no FXFG repeats, binds to importin beta and to importin alpha/beta heterodimers, but only to those that do not carry an NLS substrate. That the complex of Tpr with importin beta is fundamentally different from that of Nup153 is additionally demonstrated by the finding that recombinant beta or beta45-462 fragment freely exchanges with the endogenous importin beta/Nup153 complex, but cannot displace endogenous importin beta from a Tpr complex. However, the GTP analogue GMP-PNP is able to disassemble both Nup153- and Tpr-importin beta complexes. Importantly, analysis of extracts of isolated nuclei indicates that Nup153- and Tpr-importin beta complexes exist in assembled nuclear pores. Thus, Nup153 and Tpr are major physiological binding sites for importin beta. Models for the roles of these interactions are discussed.
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Importin
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Transport protein
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