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Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The SUG1 gene of Saccharomyces cerevisiae encodes a putative ATPase. Mutations in SUG1 were isolated as suppressors of a mutation in the transcriptional activation domain of GAL4. Sug1 was recently proposed to be a subunit of the RNA polymerase II holoenzyme and to mediate the association of transcriptional activators with holoenzyme. We show here that Sug1 is not a subunit of the holoenzyme, at least in its purified form, but of the 26S proteasome, a large complex of relative molecular-mass 2,000K that catalyses the ATP-dependent degradation of ubiquitin-protein conjugates. Sug1 co-purifies with the proteasome in both conventional and nickel-chelate affinity chromatography. Our observations account for the reduced ubiquitin-dependent proteolysis in sug1 mutants and suggest that the effects of sug1 mutations on transcription are indirect results of defective proteolysis.
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PMID:Identification of the gal4 suppressor Sug1 as a subunit of the yeast 26S proteasome. 862 1

The 26S proteasome is an essential proteolytic complex that is responsible for degrading proteins conjugated with ubiquitin. It has been proposed that the recognition of substrates by the 26S proteasome is mediated by a multiubiquitin-chain-binding protein that has previously been characterized in both plants and animals. In this study, we identified a Saccharomyces cerevisiae homolog of this protein, designated Mcb1. Mcb1 copurified with the 26S proteasome in both conventional and nickel chelate chromatography. In addition, a significant fraction of Mcb1 in cell extracts was present in a low-molecular-mass form free of the 26S complex. Recombinant Mcb1 protein bound multiubiquitin chains in vitro and, like its plant and animal counterparts, exhibited a binding preference for longer chains. Surprisingly, (delta)mcb1 deletion mutants were viable, grew at near-wild-type rates, degraded the bulk of short-lived proteins normally, and were not sensitive to UV radiation or heat stress. These data indicate that Mcb1 is not an essential component of the ubiquitin-proteasome pathway in S.cerevisiae. However, the (delta)mcb1 mutant exhibited a modest sensitivity to amino acid analogs and had increased steady-state levels of ubiquitin-protein conjugates. Whereas the N-end rule substrate, Arg-beta-galactosidase, was degraded at the wild-type rate in the (delta)mcb1 strain, the ubiquitin fusion degradation pathway substrate, ubiquitin-Pro-beta-galactosidase, was markedly stabilized. Collectively, these data suggest that Mcb1 is not the sole factor involved in ubiquitin recognition by the 26S proteasome and that Mcb1 may interact with only a subset of ubiquitinated substrates.
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PMID:The multiubiquitin-chain-binding protein Mcb1 is a component of the 26S proteasome in Saccharomyces cerevisiae and plays a nonessential, substrate-specific role in protein turnover. 888 31

Mutations in the basal transcription initiation/DNA repair factor TFIIH are responsible for three human disorders: xeroderma pigmentosum (XP), cockayne syndrome (CS) and trichothiodystrophy (TTD). The non-repair features of CS and TTD are thought to be due to a partial inactivation of the transcription function of the complex. To search for proteins whose interaction with TFIIH subunits is disturbed by mutations in patients we used the yeast two-hybrid system and report the isolation of a novel XPB interacting protein, SUG1. The interaction was validated in vivo and in vitro in the following manner. (i) SUG1 interacts with XPB but not with the other core TFIIH subunits in the two-hybrid assay. (ii) Physical interaction is observed in a baculovirus co-expression system. (iii) In fibroblasts under non-overexpression conditions a portion of SUG1 is bound to the TFIIH holocomplex as deduced from co-purification, immunopurification and nickel-chelate affinity chromatography using functional tagged TFIIH. Furthermore, overexpression of SUG1 in normal fibroblasts induced arrest of transcription and a chromatin collapse in vivo. Interestingly, the interaction was diminished with a mutant form of XPB, thus providing a potential link with the clinical features of XP-B patients. Since SUG1 is an integral component of the 26S proteasome and may be part of the mediator, our findings disclose a SUG1-dependent link between TFIIH and the cellular machinery involved in protein modelling/degradation.
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PMID:The XPB subunit of repair/transcription factor TFIIH directly interacts with SUG1, a subunit of the 26S proteasome and putative transcription factor. 917 76

The principal targeting signal used in the ubiquitin-proteasome degradation pathway is a homopolymeric, K48-linked polyubiquitin chain: the chain is recognized by a specific factor(s) in the 19S regulatory complex of the 26S proteasome, while the substrate is degraded by the 20S catalytic complex. We have previously presented evidence implicating the side chains of L8, I44, and V70 in the recognition of K48-linked chains. In the crystal structure of tetraubiquitin, these side chains form a repeating, surface-exposed hydrophobic patch. To test the hypothesis that a close-packing interaction involving this patch is important for the chain recognition, residue 8 was mutated to a series of smaller aliphatic amino acids (G, A, V). The effects of these mutations were first investigated in rabbit reticulocyte fraction II; even the severest truncating mutation (L8G) had only a modest inhibitory effect on the degradation of a model substrate (125I-lactalbumin). We show that these steady-state degradation data substantially underestimate the deleterious effects of these mutations on chain recognition by the proteasome, because the recognition step does not contribute to rate limitation in the fraction II system. Much stronger inhibition was observed when chain binding was measured in a competition assay using purified 26S proteasomes, and the change in binding free energy depended linearly on the surface area of the side chain. This behavior is consistent with a mode of binding in which the hydrophobic effect makes a favorable contribution; i.e., one or more L8 side chains is shielded from solvent when the chain binds to the 19S complex. A similar linear dependence of binding energy on side chain area was observed for chain binding to the 19S subunit known as S5a (as assayed using recombinant S5a bound to nickel beads). Octa-ubiquitin (K0.5 = 1.6 microM) bound to S5a 4.2-fold more tightly than tetra-ubiquitin; this is similar to the factor of 5. 8-fold relating the affinities of the same two chains for the 26S proteasome. Altogether, these findings indicate that the interaction of K48-linked chains with the 19S complex is substantially similar to the interaction of chains with isolated S5a. The results further suggest that the hydrophobic patch is part of a minimum element which allows for specific recognition of the polyubiquitin degradation signal by the 26S proteasome.
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PMID:The hydrophobic effect contributes to polyubiquitin chain recognition. 948 44

A growing number of physiologically relevant genes are regulated in response to changes in intracellular oxygen tension. It is likely that cells from a wide variety of tissues share a common mechanism of oxygen sensing and signal transduction leading to the activation of the transcription factor hypoxia-inducible factor 1 (HIF-1). Besides hypoxia, transition metals (Co2+, Ni2+ and Mn2+) and iron chelation also promote activation of HIF-1. Induction of HIF-1 by hypoxia is blocked by the heme ligands carbon monoxide and nitric oxide. There is growing, albeit indirect, evidence that the oxygen sensor is a flavoheme protein and that the signal transduction pathway involves changes in the level of intracellular reactive oxygen intermediates. The activation of HIF-1 by hypoxia depends upon signaling-dependent rescue of its alpha-subunit from oxygen-dependent degradation in the proteasome, allowing it to form a heterodimer with HIF-1beta (ARNT), which then translocates to the nucleus and impacts on the transcription of genes whose cis-acting elements contain cognate hypoxia response elements.
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PMID:Oxygen sensing and signaling: impact on the regulation of physiologically important genes. 1038 37

Transformation of yeast cells with a maize cDNA ZmPAA, encoding a 20S proteasome alpha-subunit, conferred resistance to nickel, cadmium and cobalt. This resistance is not linked to a modification of the intracellular nickel content, as no accumulation of nickel was measured between yeast cells transformed with a void vector or the ZmPAA cDNA. The abundance of the ZmPAA mRNA was increased in the shoots of maize plants upon nickel treatment. These results suggest that the proteasome might be involved in nickel resistance by scavenging metal oxidized proteins both in plants and yeast.
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PMID:Metal resistance in yeast mediated by the expression of a maize 20S proteasome alpha subunit. 1213 58

Here we report that organic copper complexes can potently and selectively inhibit the chymotrypsin-like activity of the proteasome in vitro and in vivo. Several copper compounds, such as NCI-109268 and bis-8-hydroxyquinoline copper(II) [Cu(8-OHQ)(2)], can inhibit the chymotrypsin-like activity of purified 20S proteasome. In human leukemia cells, proteasome inhibition occurs within 15min after treatment, followed by apoptosis. Neither proteasome inhibition nor apoptosis occurs in non-transformed, immortalized human natural killer cells under the same treatment. Furthermore, proteasome inhibition and apoptosis induction were detected in prostate cancer cells treated with the ligand 8-OHQ alone following pre-treatment with copper(II) chloride. None of these events occurred in cells treated with copper(II) chloride alone, 8-OHQ alone (without growth in copper-enriched media), or nickel(II) chloride pre-treatment followed by 8-OHQ. Furthermore, we found that copper-mediated inhibition of purified 20S proteasome cannot be blocked by a reducing agent and that organic copper compounds do not generate hydrogen peroxide in the cells, suggesting that proteasome inhibition and apoptosis induction are not due to copper-mediated oxidative damage of proteins. Our results suggest that certain types of organic ligands could bind to tumor cellular copper, forming potent proteasome inhibitors and apoptosis inducers at copper concentrations found in tumor tissues.
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PMID:Organic copper complexes as a new class of proteasome inhibitors and apoptosis inducers in human cancer cells. 1500 50

The 26S proteasome complex, which consists of a 20S proteasome and a pair of 19S regulatory particles, plays important roles in the degradation of ubiquitinated proteins in eukaryotic cells. The alpha7 subunit of the budding yeast 20S proteasome is a major phosphorylatable subunit; serine residue(s) in its C-terminal region are phosphorylated in vitro by CKII. However, the exact in vivo phosphorylation sites have not been identified. In this study, using electrospray ionization quadrupole time-of-flight mass spectrometry analysis, we detected a mixture of singly, doubly, and triply phosphorylated C-terminal peptides isolated from a His-tagged construct of the alpha7 subunit by nickel-immobilized metal affinity chromatography. In addition, we identified three phosphorylation sites in the C-terminal region using MS/MS analysis and site-directed mutagenesis: Ser258, Ser263, and Ser264 residues. The MS/MS analysis of singly phosphorylated peptides showed that phosphorylation at these sites did not occur successively.
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PMID:Identification of three phosphorylation sites in the alpha7 subunit of the yeast 20S proteasome in vivo using mass spectrometry. 1546 21

In budding yeast and higher eukaryotic genomes, there are, respectively, 50 and up to 400 or more distinct genes that encode for ubiquitin-ligases, and approximately 15-90 genes that encode for ubiquitin isopeptidases (TM and RJD, Semple et al., 2003). This puts ubiquitylation on par with phosphorylation as the most common reversible posttranslational modifications in eukaryotic cells. A key challenge that has met with limited success to date is to identify the proteins that are the substrates for this large collection of enzymes. To begin to address this daunting challenge, we sought to identify ubiquitylated proteins that are potential substrates of the 26S proteasome. Here, we describe a two-step affinity purification protocol that uses a budding yeast strain that expresses hexahistidine-tagged ubiquitin. In the first step, native cell lysate was chromatographed on a UBA domain-containing matrix that binds preferentially to K48-linked multiubiquitin chains. Free ubiquitin and presumably monoubiquitylated proteins did not bind this column, whereas proteins that are potential substrates of the proteasome were enriched. In the second step, UBA domain-binding proteins were subjected to immobilized metal ion affinity chromatography (IMAC) under denaturing conditions on magnetic nickel beads, resulting in >3000-fold enrichment of ubiquitin conjugates relative to crude cell extract.
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PMID:Two-step affinity purification of multiubiquitylated proteins from Saccharomyces cerevisiae. 1633 70

In this paper the multivalent binding of hexahistidine (His6)-tagged proteins to beta-cyclodextrin (beta-CD) self-assembled monolayers (SAMs) by using the nickel(II) complex of a hetero-divalent orthogonal adamantyl nitrilotriacetate linker (4) is described. Nonspecific interactions were suppressed by using monovalent adamantyl-hexa(ethylene glycol) derivative 3. With the mono-His6-tagged maltose binding protein (His6-MBP), thermodynamic modeling based on surface plasmon resonance (SPR) titration data showed that the MBP molecules in solution were linked, on average, to Ni.4 in 1:1 stoichiometry. On the surface, however, the majority of His(6)-MBP was complexed to surface-immobilized beta-CDs through three Ni.4 complexes. This difference is explained by the high effective beta-CD concentration at the surface and is a new example of supramolecular interfacial expression. In a similar adsorption scheme, SPR proved that the alpha-proteasome could be attached to beta-CD SAMs in a specific manner. Patterning through microcontact printing of (His6)4-DsRed-fluorescent timer (DsRed-FT), which is a tetrameric, visible autofluorescent protein, was carried out in the presence of Ni.4 Fluorescence measurements showed that the (His6)4-DsRed-FT is bound strongly through Ni.4 to the molecular printboard.
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PMID:Anchoring of histidine-tagged proteins to molecular printboards: self-assembly, thermodynamic modeling, and patterning. 1818 56


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