Deanna M. Koepp scite author profile

SCF complexes are the largest family of E3 ubiquitin-protein ligases and mediate the ubiquitination of diverse regulatory and signalling proteins. Here we present the crystal structure of the Cul1-Rbx1-Skp1-F boxSkp2 SCF complex, which shows that Cul1 is an elongated protein that consists of a long stalk and a globular domain. The globular domain binds the RING finger protein Rbx1 through an intermolecular beta-sheet, forming a two-subunit catalytic core that recruits the ubiquitin-conjugating enzyme. The long stalk, which consists of three repeats of a novel five-helix motif, binds the Skp1-F boxSkp2 protein substrate-recognition complex at its tip. Cul1 serves as a rigid scaffold that organizes the Skp1-F boxSkp2 and Rbx1 subunits, holding them over 100 A apart. The structure suggests that Cul1 may contribute to catalysis through the positioning of the substrate and the ubiquitin-conjugating enzyme, and this model is supported by Cul1 mutations designed to eliminate the rigidity of the scaffold.

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Phosphorylation-Dependent Ubiquitination of Cyclin E by the SCF ^Fbw7 Ubiquitin Ligase

Koepp

Schaefer

Ye³

et al. 2001

Science

711

618

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Cyclin E binds and activates the cyclin-dependent kinase Cdk2 and catalyzes the transition from the G1 phase to the S phase of the cell cycle. The amount of cyclin E protein present in the cell is tightly controlled by ubiquitin-mediated proteolysis. Here we identify the ubiquitin ligase responsible for cyclin E ubiquitination as SCFFbw7 and demonstrate that it is functionally conserved in yeast, flies, and mammals. Fbw7 associates specifically with phosphorylated cyclin E, and SCFFbw7 catalyzes cyclin E ubiquitination in vitro. Depletion of Fbw7 leads to accumulation and stabilization of cyclin E in vivo in human and Drosophila melanogaster cells. Multiple F-box proteins contribute to cyclin E stability in yeast, suggesting an overlap in SCF E3 ligase specificity that allows combinatorial control of cyclin E degradation.

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Rbx1, a Component of the VHL Tumor Suppressor Complex and SCF Ubiquitin Ligase

Kamura

Koepp

Conrad

et al. 1999

Science

713

469

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The von Hippel-Lindau (VHL) tumor suppressor gene is mutated in most human kidney cancers. The VHL protein is part of a complex that includes Elongin B, Elongin C, and Cullin-2, proteins associated with transcriptional elongation and ubiquitination. Here it is shown that the endogenous VHL complex in rat liver also includes Rbx1, an evolutionarily conserved protein that contains a RING-H2 fingerlike motif and that interacts with Cullins. The yeast homolog of Rbx1 is a subunit and potent activator of the Cdc53-containing SCFCdc4 ubiquitin ligase required for ubiquitination of the cyclin-dependent kinase inhibitor Sic1 and for the G1 to S cell cycle transition. These findings provide a further link between VHL and the cellular ubiquitination machinery.

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HIV-1 Vpr interacts with the nuclear transport pathway to promote macrophage infection

et al. 1998

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HIV-1 Vpr promotes nuclear entry of viral nucleic acids in nondividing macrophages and also causes a G 2 cell-cycle arrest. Consistent with its role in nuclear transport, we show Vpr localizes to the nuclear envelope in both human and yeast cells. Like the importin-␤ subunit of the nuclear import receptor, Vpr also interacts with the yeast importin-␣ subunit and nucleoporins. Moreover, overexpression of either Vpr or importin-␤ in yeast blocks nuclear transport of mRNAs. A mutant form of Vpr (Vpr F34I) that does not localize at the nuclear envelope, or bind to importin-␣ and nucleoporins, renders HIV-1 incapable of infecting macrophages efficiently. Vpr F34I, however, still causes a G 2 arrest, demonstrating that the dual functions of Vpr are genetically separable. Our data suggest Vpr functionally resembles importin-␤ in nuclear import of the HIV-1 pre-integration complex and this function is essential for the role of Vpr in macrophage infection, but not G 2 arrest.

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Reconstitution of G ₁ Cyclin Ubiquitination with Complexes Containing SCF ^Grr1 and Rbx1

Skowyra¹,

Koepp

Kamura

et al. 1999

Science

363

294

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Control of cyclin levels is critical for proper cell cycle regulation. In yeast, the stability of the G1 cyclin Cln1 is controlled by phosphorylation-dependent ubiquitination. Here it is shown that this reaction can be reconstituted in vitro with an SCF E3 ubiquitin ligase complex. Phosphorylated Cln1 was ubiquitinated by SCF (Skp1-Cdc53-F-box protein) complexes containing the F-box protein Grr1, Rbx1, and the E2 Cdc34. Rbx1 promotes association of Cdc34 with Cdc53 and stimulates Cdc34 auto-ubiquitination in the context of Cdc53 or SCF complexes. Rbx1, which is also a component of the von Hippel-Lindau tumor suppressor complex, may define a previously unrecognized class of E3-associated proteins.

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A family of mammalian F-box proteins

et al. 1999

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Ubiquitin-mediated destruction of regulatory proteins is a frequent means of controlling progression through signaling pathways [1]. F-box proteins [2] are components of modular E3 ubiquitin protein ligases called SCFs, which function in phosphorylation-dependent ubiquitination ([3] [4] [5], reviewed in [6] [7]). F-box proteins contain a carboxy-terminal domain that interacts with substrates and a 42-48 amino-acid F-box motif which binds to the protein Skp1 [2] [3] [4]. Skp1 binding links the F-box protein with a core ubiquitin ligase composed of the proteins Cdc53/Cul1, Rbx1 (also called Hrt1 and Roc1) and the E2 ubiquitin-conjugating enzyme Cdc34 [8] [9] [10] [11]. The genomes of the budding yeast Saccharomyces cerevisiae and the nematode worm Caenorhabditis elegans contain, respectively, 16 and more than 60 F-box proteins [2] [7]; in S. cerevisiae, the F-box proteins Cdc4, Grr1 and Met30 target cyclin-dependent kinase inhibitors, G1 cyclins and transcriptional regulators for ubiquitination ([3] [4] [5] [8] [10], reviewed in [6] [7]). Only four mammalian F-box proteins (Cyclin F, Skp1, beta-TRCP and NFB42) have been identified so far [2] [12]. Here, we report the identification of a family of 33 novel mammalian F-box proteins. The large number of these proteins in mammals suggests that the SCF system controls a correspondingly large number of regulatory pathways in vertebrates. Four of these proteins contain a novel conserved motif, the F-box-associated (FBA) domain, which may represent a new protein-protein interaction motif. The identification of these genes will help uncover pathways controlled by ubiquitin-mediated proteolysis in mammals.

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Mutants in a yeast Ran binding protein are defective in nuclear transport.

et al. 1995

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Ran, a Ras‐like GTPase, has been implicated in controlling the movement of proteins and RNAs in and out of the nucleus. We have constructed strains of Saccharomyces cerevisiae which produce fusion proteins containing glutathione‐S‐transferase (GST) fused to Gsp1p, which encodes the essential yeast Ran homolog, and a mutant form of Gsp1p that mimics the GTP‐bound state. A major protein with the apparent size of 34 kDa co‐purifies with the GTP‐bound form of Gsp1p. This protein was identified as Yrb1p (Yeast Ran Binding Protein) and stimulates GTP hydrolysis by Gsp1p in the presence of Rna1p, the Gsp1 GTPase activating protein. Yrb1p is located in the cytoplasm with some concentration at the nuclear periphery. Temperature‐sensitive yrb1 mutants are defective in nuclear protein import and RNA export. A mutation in the highly conserved Ran binding region of Yrb1p reduces its ability to interact with Gsp1p. These data indicate that Yrb1p functions with Gsp1p and suggest that together they can control transport of macromolecules across the nuclear envelope.

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Rna1p, a Ran/TC4 GTPase activating protein, is required for nuclear import.

et al. 1995

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Abstract. The Saccharomyces cerevisiae gene, RNA1, encodes a protein with extensive homology to the mammalian Ran/TC4 GTPase activating protein. Using indirect immunofluorescence microscopy, we have demonstrated that rnal-1 mutant cells are defective in nuclear import of several proteins. The same result is obtained when nuclear import is examined in living cells using a nuclear protein fused to the naturally green fluorescent protein. These findings suggest a role for the Rnalp in trafficking of proteins across the nuclear membrane. To investigate this role more directly, an in vitro import assay that monitors the import of a fluorescently labeled substrate into the nuclei of semiintact yeast cells was used. Import to the nucleus requires the addition of exogenous cytosol. Results indicate that, in contrast to wild-type cytosols, extracts made from rnal-1 mutant cells are unable to support import of the fluorescently labeled substrate into competent nuclei. Immunoblotting demonstrates that these mutant-derived extracts are depleted of Rnalp. However, when purified Rnalp is added back to these extracts the import activity is restored in a dose-dependent manner. These results demonstrate that Rnalp plays a direct role in the import of proteins into the nucleus.

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Deanna M. Koepp

Structure of the Cul1–Rbx1–Skp1–F boxSkp2 SCF ubiquitin ligase complex

Phosphorylation-Dependent Ubiquitination of Cyclin E by the SCF ^Fbw7 Ubiquitin Ligase

Rbx1, a Component of the VHL Tumor Suppressor Complex and SCF Ubiquitin Ligase

HIV-1 Vpr interacts with the nuclear transport pathway to promote macrophage infection

Reconstitution of G ₁ Cyclin Ubiquitination with Complexes Containing SCF ^Grr1 and Rbx1

A family of mammalian F-box proteins

Mutants in a yeast Ran binding protein are defective in nuclear transport.

Rna1p, a Ran/TC4 GTPase activating protein, is required for nuclear import.

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Deanna M. Koepp

Structure of the Cul1–Rbx1–Skp1–F boxSkp2 SCF ubiquitin ligase complex

Phosphorylation-Dependent Ubiquitination of Cyclin E by the SCF Fbw7 Ubiquitin Ligase

Rbx1, a Component of the VHL Tumor Suppressor Complex and SCF Ubiquitin Ligase

HIV-1 Vpr interacts with the nuclear transport pathway to promote macrophage infection

Reconstitution of G 1 Cyclin Ubiquitination with Complexes Containing SCF Grr1 and Rbx1

A family of mammalian F-box proteins

Mutants in a yeast Ran binding protein are defective in nuclear transport.

Rna1p, a Ran/TC4 GTPase activating protein, is required for nuclear import.

Contact Info

Product

Resources

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Phosphorylation-Dependent Ubiquitination of Cyclin E by the SCF ^Fbw7 Ubiquitin Ligase

Reconstitution of G ₁ Cyclin Ubiquitination with Complexes Containing SCF ^Grr1 and Rbx1