UNIPROT:P62988 - FACTA Search

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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

Cleavage of the two carboxyl-terminal glycine residues from native ubiquitin yields the proteolysis-incompetent derivative des-Gly-Gly-ubiquitin. We report here that this derivative inhibits the ATP-dependent degradation of casein and is multi-ubiquitinated but not degraded by reticulocyte lysates. Inhibition of proteolysis diminished with increasing concentration of native ubiquitin, but was not reduced by increased casein concentration. Cleavage of the last four residues from ubiquitin yielded a derivative that was a weaker inhibitor of proteolysis and a poorer substrate for ubiquitination. These results suggest that the conjugation of ubiquitin to ubiquitin during polyubiquitin synthesis involves a specific conjugation system that recognizes ubiquitin and some of its derivatives, but not general proteolysis substrates, as ubiquitin acceptors.
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PMID:Inhibition of ubiquitin-dependent proteolysis by des-Gly-Gly-ubiquitin: implications for the mechanism of polyubiquitin synthesis. 254 56

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

Ubiquitin, a 76-residue protein, occurs in cells either free or covalently joined to a variety of protein species, from chromosomal histones to cytoplasmic proteins. Conjugation of ubiquitin to proteolytic substrates is essential for the selective degradation of intracellular proteins in higher eukaryotes. We show here that a protein homologous to human ubiquitin exists in the yeast Saccharomyces cerevisiae, and that yeast extracts conjugate human ubiquitin to a variety of endogenous proteins in an ATP-dependent reaction. We have isolated the S. cerevisiae ubiquitin gene and found it to contain six consecutive ubiquitin-coding repeats in a found it to contain six consecutive ubiquitin-coding repeats in a head-to-tail arrangement. This apparently unique gene organization suggests that yeast ubiquitin is generated by processing of a precursor protein in which several exact repeats of the ubiquitin amino acid sequence are joined directly via Gly-Met peptide bonds between the last and first residues of mature ubiquitin, respectively. Ubiquitin-coding yeast DNA repeats are restricted to a single genomic locus; although the sequenced repeats differ in up to 27 of 228 bases per repeat, they encode identical amino acid sequences. As this predicted amino acid sequence differs in only 3 of 76 residues from that of ubiquitin in higher eukaryotes, ubiquitin is apparently the most conserved of known proteins.
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PMID:The yeast ubiquitin gene: head-to-tail repeats encoding a polyubiquitin precursor protein. 609 20

We have investigated the specificity of isopeptidase T toward peptide-AMC substrates based on the C-termini of ubiquitin. The substrates investigated were Z-Gly-Gly-AMC, Z-Arg-Gly-Gly-AMC, Z-Leu-Arg-Gly-Gly-AMC, and Z-Arg-Leu-Arg-Gly-Gly-AMC and were hydrolyzed by isopeptidase T with kc/Km values of < 0.1, 1, 18, and 95 M-1 s-1, respectively. In the course of these experiments, we observed that the hydrolytic activity of isopeptidase T toward these substrates is modulated by ubiquitin in a biphasic fashion. While submicromolar concentrations of ubiquitin activate isopeptidase T, higher concentrations are inhibitory. In the activation phase, the extent of stimulation of kc/Km varies with substrate and is 8-, 50-, and 70-fold for Z-Arg-Gly-Gly-AMC, Z-Leu-Arg-Gly-Gly-AMC, and Z-Arg-Leu-Arg-Gly-Gly-AMC, respectively. Kd for ubiquitin in this phase is, of course, independent of substrate and equals 0.10 +/- 0.03 microM. At higher concentrations, ubiquitin is inhibitory and titrates kc/Km with an average Ki value of 3.0 +/- 1.3 microM for all three substrates. To explain these observations, we propose a structural model for isopeptidase T that involves two binding sites for ubiquitin. We propose that the two sites are adjacent to one another and are the extended active site that binds two ubiquitin moieties of a polyubiquitin chain for isopeptide bond hydrolysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetic studies of isopeptidase T: modulation of peptidase activity by ubiquitin. 754 11

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

A Ubiquitin-like peptide was accidentally isolated from rat bladder by using 5% acetic acid wash while we were isolating antibacterial peptides. The purified molecule was obtained by reverse phase high performance liquid chromatography. Gas phase microsequence analysis indicated the N-terminal sequences of the molecule as follows: MET-GLN-ILE-PHE-VAL-LYS-THR-LEU-THR-GLY-LYS-THR-ILE-THR-LEU- GLU-VAL-GLU-PRO-SER-ASP-THR-ILE-GLU-ASN, which is homologous to human ubiquitin. Ubiquitin plays a role in the differentiation of pre-B lymphocytes, Thus, it is suggested from the findings of this molecule and the endogenous antibacterial polypeptides in mucosa or mucosal epithelium that mucosal epithelium also might be one of immune cells or immunity-associated cells, which may secrete effector molecules directly to kill adherent microbes and produce regulating factors in mucosal immune response.
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PMID:[Rat bladder ubiquitin-like molecule: isolation, purification and N-terminal sequencing]. 824 87

Isopeptidase T (IPaseT) can hydrolyze isopeptide bonds of polyubiquitin (polyUb) chains, simple C-terminal derivatives of Ub, and certain peptides. We recently reported that IPaseT is regulated by ubiquitin (Ub); while submicromolar Ub activates, higher concentrations inhibit this enzyme [Stein et al. (1995) Biochemistry 34, 12616]. To explain these observations, we proposed a model for IPaseT involving two binding sites for Ub. According to the model, the two sites are adjacent to one another and are the extended active site that binds two Ub moieties of a polyUb chain. The "activation site" binds the Ub that donates Lys to the isopeptide bond. The "inhibition site" is adjacent and binds the Ub that donates the C-terminal Gly to the isopeptide bond. We now report that the interaction of IPaseT with the C-terminal aldehyde of Ub (Ub-H) is also modulated by Ub. In the absence of Ub, Ub-H inhibits IPaseT with a Ki of 2.3 nM, while at 0.6 microM Ub, where the "activation site" is occupied, Ki is less than 0.1 nM. At high Ub concentrations, where both the "activation" and "inhibition" sites are occupied, IPaseT cannot bind Ub-H. We also determined the kinetics of inhibition of IPaseT by Ub-H. In the absence of Ub, a two-step mechanism is followed. In the first step, Ub-H slowly combines with IPaseT to form a relatively weak complex (K1 = 260 nM) that slowly isomerizes to the final, stable complex that accumulates in the steady-state (k2 = 2 x 10(-3) s-1; k-2 = 0.02 x 10(-3) s-1). In contrast, Ub-activated IPaseT is inhibited by Ub-H through a three-step process. In the first step, Ub-H rapidly combines with IPaseT to form a complex (K1 = 10 nM) that slowly isomerizes to a second, more stable complex (k2 = 18 x 10(-3) s-1; k-2 = 1.5 x 10(-3) s-1). In the third step, the second complex converts to the final complex (k3 = 1.5 x 10(-3) s-1; k-3 < 0.2 x 10(-3) s-1). To unify the results of this study with our previous results on catalysis, we propose that binding of Ub either to catalytic transition states or to tetrahedral inhibition intermediates liberates more free energy than binding of Ub to the reactant state of IPaseT and that IPaseT can utilize this binding energy to stabilize both of these tetrahedral species. The overall effect is a Ub-induced increase in catalytic efficiency or inhibitory potency.
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PMID:Kinetic studies on the inhibition of isopeptidase T by ubiquitin aldehyde. 884 Nov 33

Conceptus-derived interferon-tau (IFN-tau) induces bovine endometrial ubiquitin cross-reactive protein (UCRP) mRNA and protein on Days 15-21 of pregnancy. Bovine UCRP retains the Leu-Arg-Gly-Gly C-terminal sequence of ubiquitin that ligates to and directs degradation of cytosolic proteins. The objectives of the present experiments were to determine whether UCRP became conjugated to endometrial cytosolic proteins during early pregnancy and in response to recombinant bovine (rbo) IFN-tau. Ubiquitin (8 kDa), UCRP (17 kDa), and conjugates thereof (> or = 30 kDa) were quantitated using Western blotting and densitometry. Endometrial ubiquitin and its conjugates did not differ between Day 18 pregnant and nonpregnant cows, or between control and rboIFN-tau-treated (25 nM) explant cultures (Day 14; nonpregnant). Bovine UCRP was induced in endometrium from pregnant as compared with nonpregnant cows. Conjugation of endometrial proteins to UCRP was induced in pregnant as compared to nonpregnant cows. Recombinant boIFN-tau induced UCRP and its conjugates in cultured endometrial explants from nonpregnant cows. It is concluded that UCRP, in response to rboIFN-tau, becomes conjugated to endometrial cytosolic proteins during early pregnancy. The regulation of uterine proteins by UCRP may be integral to the maintenance of early pregnancy in ruminants.
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PMID:Pregnancy and interferon-tau induce conjugation of bovine ubiquitin cross-reactive protein to cytosolic uterine proteins. 954 18

A monoclonal antibody was obtained that reacts with many different proteins (14-200 kDa) of Amoeba proteus. By indirect immunofluorescence microscopy we found the antigens to be dispersed throughout the cytoplasm but were more concentrated in the nucleus. The antibody cross-reacted with proteins of Tetrahymena, Xenopus embryo, and mouse macrophages. Using the antibody as a probe we cloned a cDNA of 1.2 kb coding for ubiquitin in five repeats. Amino acid sequences of ameba's polyubiquitin showed the most variations among the nineteen polyubiquitins of other organisms compared. The well-conserved 20Ser and 55Thr residues were replaced with Gly and Ser, respectively. The 28Ala residue found in most organisms was replaced with Gln or Glu in the amoeba. Amoebae contained two ubiquitin-mRNAs that could be detected by Northern blot analysis using the cDNA as a probe. In an analysis for specificity, the antibody reacted with polyubiquitin and ubiquitin-fusion proteins larger than 14 kDa but not with monomeric ubiquitin. The antibody is a useful probe in the detection and characterization of proteins ubiquitinated in response to cellular stresses.
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PMID:Characterization of a monoclonal antibody and a cDNA for polyubiquitin of Amoeba proteus. 970 79

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