Publications (6)32.29 Total impact
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Article: Sumoylation regulates Kap114-mediated nuclear transport.
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ABSTRACT: The nuclear import receptor Kap114 carries transcription factors and other cargos across nuclear pores into the nucleus. Here we show that yeast Kap114 is modified by SUMO (small ubiquitin-related modifier) and that sumoylation is required for Kap114-mediated nuclear import. Among the four known SUMO-specific E3 ligases in yeast, Mms21 is the preferred E3 enzyme responsible for the covalent attachment of SUMO to the Kap114 protein. Kap114 is sumoylated on lysine residue 909, which is part of a ΨKxD/E sumoylation consensus motif. Kap114 containing a lysine-to-arginine point mutation at position 909 mislocalizes to the nucleus and is defective in promoting nuclear import. Similarly, mutants defective in sumoylation or desumoylation specifically accumulate Kap114 in the nucleus and are blocked in import of Kap114 cargos. Ran-GTP is not sufficient to disassemble Kap114/cargo complexes, which necessitates additional cargo release mechanisms in the nucleus. Remarkably, sumoylation of Kap114 greatly stimulates cargo dissociation in vitro. We propose that sumoylation occurs at the site of Kap114 cargo function and that SUMO is a cargo release factor involved in intranuclear targeting.The EMBO Journal 05/2012; 31(11):2461-72. · 9.20 Impact Factor -
Article: Yeast Mpk1 cell wall integrity mitogen-activated protein kinase regulates nucleocytoplasmic shuttling of the Swi6 transcriptional regulator.
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ABSTRACT: The yeast SBF transcription factor is a heterodimer comprised of Swi4 and Swi6 that has a well defined role in cell cycle-specific transcription. SBF serves a second function in the transcriptional response to cell wall stress in which activated Mpk1 mitogen-activated protein kinase of the cell wall integrity signaling pathway forms a complex with Swi4, the DNA binding subunit of SBF, conferring upon Swi4 the ability to bind DNA and activate transcription of FKS2. Although Mpk1-Swi4 complex formation and transcriptional activation of FKS2 does not require Mpk1 catalytic activity, Swi6 is phosphorylated by Mpk1 and must be present in the Mpk1-Swi4 complex for transcriptional activation of FKS2. Here, we find that Mpk1 regulates Swi6 nucleocytoplasmic shuttling in a biphasic manner. First, formation of the Mpk1-Swi4 complex recruits Swi6 to the nucleus for transcriptional activation. Second, Mpk1 negatively regulates Swi6 by phosphorylation on Ser238, which inhibits nuclear entry. Ser238 neighbors a nuclear localization signal (NLS) whose function is blocked by phosphorylation at Ser238 in a manner similar to the regulation by Cdc28 of another Swi6 NLS, revealing a mechanism for the integration of multiple signals to a single endpoint. Finally, the Kap120 beta-importin binds the Mpk1-regulated Swi6 NLS but not the Cdc28-regulated NLS.Molecular biology of the cell 03/2010; 21(9):1609-19. · 5.98 Impact Factor -
Article: Classical NLS proteins from Saccharomyces cerevisiae.
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ABSTRACT: Proteins can enter the nucleus through various receptor-mediated import pathways. One class of import cargos carries a classical nuclear localization signal (cNLS) containing a short cluster of basic residues. This pathway involves importin alpha (Impalpha), which possesses the cNLS binding site, and importin beta (Impbeta), which translocates the import complex through the nuclear pore complex. The defining criteria for a cNLS protein from Saccharomyces cerevisiae are an in vivo import defect in Impalpha and Impbeta mutants, direct binding to purified Impalpha, and stimulation of this binding by Impbeta. We show for the first time that endogenous S. cerevisiae proteins Prp20, Cdc6, Swi5, Cdc45, and Clb2 fulfill all of these criteria identifying them as authentic yeast cNLS cargos. Furthermore, we found that the targeting signal of Prp20 is a bipartite cNLS and that of Cdc6 is a monopartite cNLS. Basic residues present within these motifs are of different significance for the interaction with Impalpha. We determined the binding constants for import complexes containing the five cNLS proteins by surface plasmon resonance spectrometry. The dissociation constants for cNLS/alpha/beta complexes differ considerably, ranging from 1 nM for Cdc6 to 112 nM for Swi5, suggesting that the nuclear import kinetics is determined by the strength of cNLS/Impalpha binding. Impbeta enhances the affinity of Impalpha for cNLSs approximately 100-fold. This stimulation of cNLS binding to Impalpha results from a faster association in the presence of Impbeta, whereas the dissociation rate is unaffected by Impbeta. This implies that, after entry into the nucleus, the release of Impbeta by the Ran guanosine triphosphatase (Ran GTPase) from the import complex is not sufficient to dissociate the cNLS/Impalpha subcomplex. Our observation that the nucleoporin Nup2, which had been previously shown to release the cNLS from Impalpha in vitro, is required for efficient import of all the genuine cNLS cargos supports a general role of Nup2 in import termination.Journal of Molecular Biology 07/2008; 379(4):678-94. · 4.00 Impact Factor -
Article: A novel conserved nuclear localization signal is recognized by a group of yeast importins.
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ABSTRACT: Nucleo-cytoplasmic transport of proteins is mostly mediated by specific interaction between transport receptors of the importin beta family and signal sequences present in their cargo. While several signal sequences, in particular the classical nuclear localization signal (NLS) recognized by the heterodimeric importin alpha/beta complex are well known, the signals recognized by other importin beta-like transport receptors remain to be characterized in detail. Here we present the systematic analysis of the nuclear import of Saccharomyces cerevisiae Asr1p, a nonessential alcohol-responsive Ring/PHD finger protein that shuttles between nucleus and cytoplasm but accumulates in the nucleus upon alcohol stress. Nuclear import of Asr1p is constitutive and mediated by its C-terminal domain. A short sequence comprising residues 243-280 is sufficient and necessary for active targeting to the nucleus. Moreover, the nuclear import signal is conserved from yeast to mammals. In vitro, the nuclear localization signal of Asr1p directly interacts with the importins Kap114p, Kap95p, Pse1p, Kap123p, or Kap104p, interactions that are sensitive to the presence of RanGTP. In vivo, these importins cooperate in nuclear import. Interestingly, the same importins mediate nuclear transport of histone H2A. Based on mutational analysis and sequence comparison with a region mediating nuclear import of histone H2A, we identified a novel type of NLS with the consensus sequence R/KxxL(x)(n)V/YxxV/IxK/RxxxK/R that is recognized by five yeast importins and connects them into a highly efficient network for nuclear import of proteins.Journal of Biological Chemistry 08/2007; 282(27):19292-301. · 4.77 Impact Factor -
Article: Kap120 functions as a nuclear import receptor for ribosome assembly factor Rpf1 in yeast.
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ABSTRACT: The nucleocytoplasmic exchange of macromolecules is mediated by receptors specialized in passage through the nuclear pore complex. The majority of these receptors belong to the importin beta protein family, which has 14 members in Saccharomyces cerevisiae. Nine importins carry various cargos from the cytoplasm into the nucleus, whereas four exportins mediate nuclear export. Kap120 is the only receptor whose transport cargo has not been found previously. Here, we characterize Kap120 as an importin for the ribosome maturation factor Rpf1, which was identified in a two-hybrid screen. Kap120 binds directly to Rpf1 in vitro and is released by Ran-GTP. At least three parallel import pathways exist for Rpf1, since nuclear import is defective in strains with the importins Kap120, Kap114, and Nmd5 deleted. Both kap120 and rpf1 mutants accumulate large ribosomal subunits in the nucleus. The nuclear accumulation of 60S ribosomal subunits in kap120 mutants is abolished upon RPF1 overexpression, indicating that Kap120 does not function in the actual ribosomal export step but rather in import of ribosome maturation factors.Molecular and Cellular Biology 05/2006; 26(8):3170-80. · 5.53 Impact Factor -
Article: The histones H2A/H2B and H3/H4 are imported into the yeast nucleus by different mechanisms.
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ABSTRACT: Proteins are imported from the cytoplasm into the nucleus by importin beta-related transport receptors. The yeast Saccharomyces cerevisiae contains ten of these importins, but only two of them are essential. After transfer through the nuclear pore, importins release their cargo upon binding to the Ran GTPase, the key regulator of nuclear transport. We investigated the import of the core histones in yeast and found that four importins are involved. The essential Pse1p and the nonessential importins Kap114p, Kap104p, and Yrb4p/Kap123p specifically bind to histones H2A and H2B. Release of H2 histones from importins requires Ran-GTP and DNA simultaneously suggesting a function of the importins in intranuclear targeting. H3 and H4 associate mainly with Pse1p and the dissociation requires Ran but not DNA, which points to a different import mechanism. Import of green fluorescent protein fusions to H2A and H2B requires primarily Pse1p and Kap114p, whereas Yrb4p plays an auxiliary role. Pse1p is predominantly necessary for nuclear uptake of H3 and H4, while Kap104p and Yrb4p also support import. We conclude from our in vivo and in vitro experiments that import of the essential histones is mediated mainly by the essential importin Pse1p, while the non-essential Kap114p functions in a parallel import pathway for H2A and H2B.European Journal of Cell Biology 11/2004; 83(10):511-20. · 2.81 Impact Factor
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Institutions
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2004–2012
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Universität des Saarlandes
- Fachbereich Medizinische Biochemie und Molekularbiologie
Saarbrücken, Saarland, Germany
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