Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P62988 (Ubiquitin)
4,326 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ubiquitin (Ub) exists in a dynamic equilibrium between the free form and the conjugated form. This equilibrium is maintained and regulated through the antagonistic actions of the conjugation system and a class of enzymes referred to collectively as the Ub-protein hydrolases. Using a previously described epitope-tagged Ub approach (Ellison, M., and Hochstrasser, M. (1991) J. Biol. Chem. 266, 21150-21157) we show here that a single amino acid substitution at the carboxyl terminus of Ub (Gly-76 to Ala-76) results in a derivative of Ub (UbA-76) that becomes irreversibly conjugated to protein when expressed in the yeast Saccharomyces cerevisiae, producing a profound effect on the Ub-conjugate equilibrium. The major target of UbA-76 conjugation is itself (and presumably wild-type Ub) producing unanchored chains at the expense of the free form. Unsurprisingly, the expression of UbA-76 results in yeast phenotypes that would be expected in situations of Ub deprivation. Such cells show slow growth characteristics and sensitivity to various forms of environmental stress and to ultraviolet light. In view of these findings, the expression of UbA-76 in higher organisms may represent a convenient epigenetic strategy for examining the physiological consequences of Ub deprivation or Ub-protein hydrolase disfunction in living cells without the need for gene disruption or replacement. The observation that UbA-76 couples to itself irreversibly also provides an effective tool for elucidating the role of Ub as the proteolytic signal.
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PMID:Expression of a ubiquitin derivative that conjugates to protein irreversibly produces phenotypes consistent with a ubiquitin deficiency. 131 40

Ubiquitin is encoded as a variable, spacerless repeat of the gene terminating with an additional amino acid or as a gene coding for a single ubiquitin with a carboxyl-terminal extension of 52 to 80 amino acids. We report the identification and partial purification of enzymes that specifically hydrolyze the peptide bond between ubiquitin-ubiquitin conjugate (Ub-Ubase) or ubiquitin fusion proteins (Ub-Xase). The Ub-Ubase was separated from the Ub-Xase by dye-ligand-Sepharose chromatography. The Ub-Xase was purified further by affinity chromatography on ubiquitin-Sepharose. The fidelity of the endoprotease reaction was assessed by measuring the ability of the released ubiquitin to be activated by ubiquitin-activating enzyme (E1) which requires intact ubiquitin and by sequence analysis of the released carboxyl extension protein with 52 amino acids after endoproteolysis of human ubiquitin with 52-amino acid carboxyl extension. The failure of both Ub-Ubase and Ub-Xase to cleave a mutant ubiquitin-Gly-76----Ala-metallothionein showed that the endoproteases distinguish Gly-X from an Ala-X peptide bonds.
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PMID:Multiple (alpha-NH-ubiquitin)protein endoproteases in cells. 265 91

The genome of Tetrahymena pyriformis was shown to contain a ubiquitin multigene family consisting of at least four polyubiquitin genes. Three genomic clones with different ubiquitin-coding sequences, were isolated and partially characterized. The complete nucleotide sequence of one of these clones (pTU2) was determined and showed two open reading frames (ORFs) at opposite ends of the cloned DNA insert. A comparison of the predicted amino acid (aa) sequence of T. pyriformis ubiquitin-coding unit with those from other organisms indicated a high degree of homology. However, Tetrahymena ubiquitin contained two aa substitutions at positions 16 (Asp) and 19 (Ala). Interestingly, the first pTU2 ORF showed two extra triplets coding for Ser and Gln, upstream from TGA. This feature is different from all the polyubiquitin genes thus far sequenced. Regions flanking the 3' and 5' ubiquitin-coding sequences presented several conserved motifs. The 5' flanking sequence of the second ORF of pTU2 contained one heat-shock element. We therefore studied the expression of the ubiquitin genes under stress conditions. The results showed that they are heat-inducible and that a new specific 1.6-kb mRNA appeared. These results suggest that the regulation of ubiquitin genes is important in T. pyriformis under thermal stress conditions.
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PMID:Ubiquitin genes in Tetrahymena pyriformis and their expression during heat shock. 285 94

Ubiquitin-conjugating (E2) enzymes contain several regions within their catalytic domains that are highly conserved. However, within some of these conserved regions are several residues that may be used to define different classes of catalytic domains for the E2 enzymes. One class can be defined by the Ubc1 protein, which contains K-65, D-90, and D-120, while the corresponding positions within the Cdc34 (Ubc3) protein, which defines a second class of enzymes, contain S-73, S-97, and S-139, respectively. The presence of these differences within otherwise highly conserved regions of this family suggests that these residues may be critical for the specificity of Cdc34 function or regulation. Therefore, we have constructed a series of cdc34 alleles encoding mutant proteins in which these serine residues have been changed to other amino acid residues, including alanine and aspartic acid. In vivo complementation studies showed that S-97, which lies near the active site C-95, is essential for Cdc34 function. The addition of a second mutation in CDC34, which now encoded both the S97D and S73K changes, restored partial function to the Cdc34 enzyme. Moreover, the deletion of residues 103 to 114 within Cdc34, which are not present in the Ubc1-like E2s, allowed the S73K/S97D mutant to function as efficiently as wild-type Cdc34 protein. Finally, the cloning and sequencing of the temperature-sensitive alleles of CDC34 indicated that A-62 is also unique to the Cdc34 class of E2 enzymes and that mutations at this position can be detrimental to Cdc34 function. Our results suggest that several key residues within conserved regions of the E2 enzyme family genetically interact with each other and define a class of E2 catalytic domains.
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PMID:Intragenic suppression among CDC34 (UBC3) mutations defines a class of ubiquitin-conjugating catalytic domains. 756 15

A necessary step in ubiquitin-dependent proteolysis is the addition of a polyubiquitin chain to the target protein. This ubiquitinated protein is degraded by a multisubunit complex known as the 26S proteasome. The polyubiquitin chain is probably not released until a late stage in the proteolysis by the proteasome. It is subsequently disassembled to yield functional ubiquitin monomers. Here we present evidence that a 93 kDa protein, isopeptidase T, has the properties expected for the enzyme which disassembles these branched polyubiquitin chains. Protein and cDNA sequencing revealed that isopeptidase T is a member of the ubiquitin specific protease family (UBP). Isopeptidase T disassembles branched polyubiquitin chains (linked by the G76-K48 isopeptide bond) by a sequential exo mechanism, starting at the proximal end of the chain (the proximal ubiquitin contains a free carboxyl-terminus). Isopeptidase T prefers to disassemble chains in which there is an intact and unblocked RGG sequence at the C-terminus of the proximal subunit. Rates of disassembly are reduced when G76 of the proximal ubiquitin is modified, for example, by ligation to substrate protein, by esterification, by replacement of the proximal glycine with alanine (G76A), or by truncation. Linear proubiquitin is only a poor substrate. Observed rates and specificity are consistent with isopeptidase T playing a major role in disassembly of polyubiquitin chains. The high discrimination against chains that are blocked or modified at the proximal end indicates that the enzyme acts after release of the chains from conjugated proteins or degradation intermediates. Thus, the proteolytic degradation signal is not disassembled by isopeptidase T before the ubiquitinated protein is degraded. These (and earlier) results suggest that UBP isozymes may exhibit significant substrate specificity, consistent with a role in the regulated catabolism of the polymeric ubiquitin, including the polyubiquitin protein degradation signal.
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PMID:Metabolism of the polyubiquitin degradation signal: structure, mechanism, and role of isopeptidase T. 757 59

Ubiquitin-mediated proteolysis proceeds via the formation and degradation of ubiquitin-protein conjugates. Ubiquitin (Ub)-activating enzyme (E1) catalyzes the first, MgATP-dependent step in the conjugative reaction sequence. With wild type ubiquitin, the product of the E1 reaction is a ternary complex (E1-Ub-AMP-Ub) containing one thiol-linked ubiquitin (via the Ub COOH terminus, Gly-76) and one tightly bound ubiquitin adenylate. The thiol-linked ubiquitin is subsequently transferred to the thiol of a ubiquitin-conjugating enzyme (E2 protein); the latter adduct is the proximal donor of ubiquitin to the target protein. A mutant ubiquitin, bearing a Gly to Ala substitution at the COOH terminus (G76A-ubiquitin), was characterized as a substrate for E1. G76A-ubiquitin 1) supported PPi-ATP exchange poorly (500-fold decrease in kcat/K(m); 2) did not produce detectable AMP-Ub with native E1; 3) produced stoichiometric AMP-Ub with thiol-blocked E1; 4) gave a stoichiometric burst of ATP consumption (1 mol/mol E1) with either native or thiol-blocked E1; 5) supported E1-ubiquitin thiol ester formation with native E1; 6) supported several downstream reactions of the proteolytic pathway at approximately 20% of the rate of wild type ubiquitin. These results indicate that G76A-ubiquitin gives a binary E1 thiol ester complex with native E1, due to the failure of the E1-ubiquitin thiol ester to undergo another round of adenylate synthesis; thus AMP-Ub is detected only if adenylate to thiol transfer is prevented by alkylating E1. The inability of G76A-ubiquitin to support ternary complex formation has implications for E1 active site structure. In other experiments, occupancy of the nucleotide/adenylate site of E1, by either MgATP or AMP-Ub, was found to stimulate ubiquitin transthiolation between E1 and E2 proteins. The intermediacy of ubiquitin adenylate thus provides a previously unrecognized catalytic advantage in the E1 mechanism.
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PMID:Substrate properties of site-specific mutant ubiquitin protein (G76A) reveal unexpected mechanistic features of ubiquitin-activating enzyme (E1). 812 20

Ubiquitin conjugation is a signal for degradation of eukaryotic proteins by the 26S protease. Conjugation of a homopolymeric multiubiquitin chain to a substrate lysine residue results in 10-fold faster degradation than does conjugation of monoubiquitin, but the molecular basis of enhanced targeting by chains is unknown. We show that ubiquitin residues L8, I44, and V70 are critical for targeting. Mutation of pairs of these residues to alanine had little effect on attachment of ubiquitin to substrates but severely inhibited degradation of the resulting conjugates. The same mutations blocked the binding of chains to a specific subunit (S5a) of the regulatory complex of the 26S protease. The side chains implicated in this binding--L8, I44, and V70--form repeating patches on the chain surface. Thus, hydrophobic interactions between these patches and S5a apparently contribute to enhanced proteolytic targeting by multiubiquitin chains.
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PMID:Surface hydrophobic residues of multiubiquitin chains essential for proteolytic targeting. 857 Jun 49

Ubiquitin, which can conjugate with cellular proteins, is classified into two forms: free ubiquitin and multiubiquitin chains. The latter is active as a signal for degradation of the targeted proteins. We found both forms in human serum and, using two immunoassays, quantitated them in sera from healthy subjects and patients with some diseases. Because of putative leakage of erythrocyte ubiquitin, hemolytic serum and serum obtained after long incubation (> 1-2 h) of blood at room temperature were excluded. Serum concentrations of multiubiquitin chains and free ubiquitin were substantially higher in rheumatoid arthritis and hemodialysis patients, respectively, than healthy subjects. Additionally, in acute viral hepatitis, serum multiubiquitin chain concentrations were increased in the acute phase, decreased in the recovery phase, and correlated with alanine and aspartate aminotransferase activities (r = 0.676 and 0.610, P < 0.0001 and < 0.001, respectively). Therefore, serum ubiquitin may have prognostic value.
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PMID:Serum concentrations of free ubiquitin and multiubiquitin chains. 921 55

We have determined the complete nucleotide sequence of two chicken cDNAs, Ub-t52 and Ub-t80, encoding ubiquitin fused to ribosomal proteins of 52 and 80 amino acids. The deduced amino acid sequences of the ribosomal proteins are identical or very similar to the homologous human and rat proteins and to the corresponding proteins of other species. Unexpectedly, the ubiquitin moiety of the Ub-t52 protein showed two amino acid substitutions: serine-20 has been replaced by asparagine and serine-57 by alanine. Ubiquitin is a protein strongly conserved during evolution, with no changes in sequence previously reported in vertebrates. Ub-t52 and Ub-t80 are highly expressed in early embryogenesis and during postmitotic stages of spermatogenesis, in parallel with the expression of the polyubiquitin gene UbII. Whereas the 5' untranslated regions (5'UTRs) of the chicken polyubiquitin mRNAs showed marked differences in mature testes in relation to somatic tissues, no differences were observed in the 5'UTRs of the ubiquitin-ribosomal protein mRNAs. These mRNAs possess a 5'-terminal oligopyrimidine tract that could be used as a mechanism to postpone translation during postmitotic stages of spermatogenesis, as has been proposed in quiescent cells.
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PMID:Characterization and expression of two chicken cDNAs encoding ubiquitin fused to ribosomal proteins of 52 and 80 amino acids. 930 77

Ubiquitylated proteins are degraded by the 26 S protease, an enzyme complex that contains 30 or more unique subunits. One of these proteins, subunit 5a (S5a), has been shown to bind ubiquitin-lysozyme conjugates and free polyubiquitin chains. Using deletional analysis, we have identified in the carboxyl-terminal half of human S5a, two independent polyubiquitin binding sites whose sequences are highly conserved among higher eukaryotic S5a homologs. The sites are approximately 30-amino acids long and are separated by 50 intervening residues. When expressed as small fragments or when present in full-length S5a molecules, the sites differ at least 10-fold in their apparent affinity for polyubiquitin chains. Each binding site contains 5 hydrophobic residues that form an alternating pattern of large and small side chains, e.g. Leu-Ala-Leu-Ala-Leu, and this pattern is essential for binding ubiquitin chains. Based on the importance of the alternating hydrophobic residues in the binding sites and previous studies showing that a hydrophobic patch on the surface of ubiquitin is essential for proteolytic targeting, we propose a model for molecular recognition of polyubiquitin chains by S5a.
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PMID:Characterization of two polyubiquitin binding sites in the 26 S protease subunit 5a. 948 68


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