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)

Pathways of ubiquitin-dependent protein degradation have in common two requirements for ATP. Ubiquitin activation by the enzyme E1 is accompanied by ATP hydrolysis to yield AMP and PPi, and during conjugate breakdown, the ubiquitin-dependent protease hydrolyzes ATP to ADP and Pi. We show here that either of two beta, gamma-nonhydrolyzable ATP analogues, 5'-adenylyl imidodiphosphate or 5'-adenylyl methylenediphosphate, can support ubiquitin-protein conjugation. With the ubiquitin-dependent protease, however, neither analogue could substitute for ATP. Thus, the substitution of a beta, gamma-nonhydrolyzable analogue for ATP offers a simple method to uncouple ubiquitin conjugation from proteolysis in crude systems. On the basis of pyrophosphate exchange kinetics, E1 has apparent Km and Vmax values that are similar for ATP and the analogues, but substrate inhibition by 5'-adenylyl methylenediphosphate made use of the beta, gamma-imido analogue preferable. In one application, beta, gamma-imido-ATP was used in combination with ubiquitin aldehyde (an inhibitor of ubiquitin-protein isopeptidases) to establish that several unfolded RNase A derivatives are recognized equally as ubiquitination substrates. This result extends an earlier study [Dunten, R. L., & Cohen, R. E. (1989) J. Biol. Chem. 264, 16739-16747] to show that conjugate yields, upon which relative ubiquitination rates were based, were not influenced by differential ubiquitin-dependent proteolysis. In a second application, ATP and beta, gamma-imido-ATP were compared in a pulse-chase experiment to investigate the contributions of ATP-dependent proteolysis and isopeptidase activities to conjugate stability.
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PMID:Uncoupling ubiquitin-protein conjugation from ubiquitin-dependent proteolysis by use of beta, gamma-nonhydrolyzable ATP analogues. 164 32

Ubiquitin, a highly conserved protein of 76 amino acids found in all eukaryotes, is translated from mRNAs that contain either multiple, contiguous coding sequences of the protein or a single ubiquitin coding sequence fused to sequences coding for 52 or 76 amino acids. We describe here formation of monoubiquitin from in vitro translation of mRNAs containing either two complete sequences or one complete ubiquitin and 60% of a second ubiquitin. No diubiquitin precursor was found with the complete diubiquitin mRNA, but the truncated mRNA formed proteins with apparent molecular masses of 30, 24, 7, and 4 kDa. The latter two are the expected products from truncated ubiquitin mRNA. The 30-kDa protein was immunoprecipitated by anti-ubiquitin antibodies and was converted to ubiquitin and the 4-kDa form by a ubiquitin isopeptidase-like activity in wheat germ. Other data indicated that the 30-kDa protein had multiple ubiquitins, all linked by isopeptide bonds to the truncated ubiquitin. One of these was the radiolabeled translation product, which should have been linked to the truncated protein by a normal peptide bond. A model is proposed in which ubiquitin itself participates in a transpeptidase activity.
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PMID:In vitro proteolytic processing of a diubiquitin and a truncated diubiquitin formed from in vitro-generated mRNAs. 283 55

[125I]Ubiquitin introduced into permeabilized hepatoma tissue culture (HTC) cells rapidly forms conjugates with endogenous proteins. A characteristic pattern of low mol. wt conjugates is obtained which includes the ubiquitinated histone, uH2A, and unknown molecular species with MrS of 14, 23, 26 (two bands) and 29 kd. A broad spectrum of higher mol. wt conjugates is also produced. The formation of all conjugates is absolutely dependent on ATP, and upon depletion of ATP they are rapidly broken down. The 14, 23 and 29 kd species are found in all subcellular fractions examined. uH2A is located exclusively in the nuclear fraction. The pair of 26 kd bands is specifically associated with the ribosome fraction. A considerable percentage of the higher mol. wt conjugates sediments with the small particle (100,000 g) fraction in the ultracentrifuge but is solubilized with deoxycholate, indicating that there are many membrane-associated conjugates. The pattern of ubiquitin conjugation in interphase and metaphase cells was compared. The incorporation of ubiquitin into uH2A was markedly reduced in metaphase cells whereas its incorporation into other low mol. wt conjugates and into high mol. wt conjugates was affected slightly, if at all. This shows that the known decrease of uH2A levels in metaphase is due to a specific effect on histone ubiquitination and not to a general decrease in ubiquitination activity or increase of isopeptidase activity. Changes in the levels of uH2A during mitosis measured by immunoblotting were similar to those estimated in permeabilized cells. These experiments indicate that permeabilized cells provide a useful approach to the study of rapidly turning over ubiquitin conjugates in mammalian cells.
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PMID:Conjugation of [125I]ubiquitin to cellular proteins in permeabilized mammalian cells: comparison of mitotic and interphase cells. 301 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

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-immunoreactive dystrophic neurites in the CA2/3 region of the hippocampus are characteristic of diffuse Lewy body disease (DLBD). The origin of dystrophic CA2/3 neurites is unknown, but their extent correlates with the number of cortical Lewy bodies (LBs). To examine the molecular composition of these lesions, hippocampal sections were obtained at postmortem from cases of DLBD, Parkinson's disease and Alzheimer's disease. The tissue samples were fixed in a variety of fixatives and immunostained with antibodies to ubiquitin, ubiquitin C-terminal hydrolase (PGP9.5), neurofilament protein subunits, tau protein, paired helical filaments and tyrosine hydroxylase (TH). In addition to being ubiquitin positive, both cortical LBs and CA2/3 dystrophic neurites were positive with a neurofilament monoclonal antibody (RM032) and PGP9.5; however, fewer lesions were detected with these antibodies compared to ubiquitin immunocytochemistry. The dystrophic CA2/3 neurites were not stained with antibodies to tau proteins, paired helical filaments or TH. Absence of TH immunoreactivity suggests that CA2/3 neuritic processes are not derived from brain stem dopaminergic afferents to the hippocampus. Since CA2/3 neurites are immunologically similar to cortical LB, the pathogenesis of these lesions may be similar. Characterization of dystrophic CA2/3 neurites and cortical LBs may clarify how these lesions contribute to the emergence of dementia in DLBD.
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PMID:Immunoreactivity profile of hippocampal CA2/3 neurites in diffuse Lewy body disease. 791 27

A 30-kDa enzyme from red blood cells responsible for the recycling of free Ubiquitin has been characterized. This enzyme was previously known to have a Ubiquitin-C-terminal hydrolase activity on adducts of Ubiquitin to small compounds. In this study it was shown that the 30-kDa enzyme contained Ubiquitin-C-terminal hydrolase activity toward biosynthetic precursors of Ub as well as isopeptidase activity toward Ubiquitin histone conjugates. Detailed inhibition experiments with Ubiquitin aldehyde, iodoacetamide, and heat inactivation showed that the enzyme isopeptidase activity was affected differently from its hydrolase activity.
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PMID:Characterization of the 30-kDa enzyme from red blood cells that cleaves ubiquitin-protein conjugates. 799 48

Xenopus egg extract is capable of supporting mitosis in vitro, which makes it ideal for biochemical analysis of the cell cycle. Since several studies have implicated the ubiquitin system in cell cycle progression, we have measured ubiquitin conjugation rates, proteolysis of ubiquitin-lysozyme conjugates, and rates of isopeptidase activity in cycling Xenopus egg extracts. Although ubiquitin conjugation in cytostatic factor arrested extract was half that in activated extract, there were no changes in rates of ubiquitin conjugation during the cell cycle. Ubiquitin conjugates are degraded by a 26 S ATP-stimulated protease. The ability of the 26 S protease to degrade ubiquitin-lysozyme conjugates and a fluorigenic peptide also remained constant across the cell cycle. In contrast to previously characterized systems, isopeptidase activity in Xenopus egg extract is energy-dependent. Glycerol gradient fractionation of Xenopus egg extract separated two ATP-dependent isopeptidases. On co-sedimented with the 26 S protease; the other sedimented slower and was not associated with any additional proteolytic activity. As found for rates of Ub conjugation and conjugate proteolysis, there was little or no variation in isopeptidase activity during the cell cycle.
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PMID:Ubiquitin metabolism in cycling Xenopus egg extracts. 840 56

ATP-dependent proteolysis of 125I-labeled human alpha-globin, bovine alpha-lactalbumin, bovine serum albumin, or chicken lysozyme was assessed in a rabbit reticulocyte extract supplemented with ATP, excess ubiquitin, and variable amounts of ubiquitin aldehyde (Ubal), an inhibitor of many ubiquitin-protein isopeptidases. Low concentrations (0.8 microM) of Ubal increased the ATP-dependent degradation of 125I-alpha-globin by approximately 30% after 2 h at 37 degrees C, had little effect on 125I-lysozyme turnover, and decreased 125I-alpha-lactalbumin or 125I-albumin degradation by approximately 20%. The ATP-dependent degradation of all substrates was inhibited by high concentrations (> 3 microM) of Ubal throughout the incubation (15 min to 2 h); after 2 h, this inhibition ranged from 15% for 125I-alpha-globin to approximately 85% for 125I-alpha-lactalbumin and 125I-albumin. Levels of ubiquitin-125I-protein conjugates were increased significantly with Ubal; with > or = 8.0 microM Ubal, high molecular mass multiubiquitinated conjugates were particularly evident for 125I-alpha-globin and 125I-alpha-lactalbumin. These mixtures also accumulated ubiquitin conjugates with sizes expected for di- through pentaubiquitin oligomers. The results are consistent with the following proposed events: The ATP-dependent degradation of 125I-alpha-lactalbumin or 125I-albumin is probably mediated almost exclusively through polyubiquitinated intermediates. High Ubal concentrations inhibit an isopeptidase(s) which normally disassembles "unanchored" polyubiquitin chains that remain after substrate degradation by the 26S proteasome; these chains accumulate to inhibit further conjugate degradation. Much of the ATP-dependent degradation of 125I-alpha-globin and, to a lesser degree, 125I-lysozyme may occur through alternative structures where ubiquitin monomers or short oligomers are ligated to one or more substrate lysines. For 125I-alpha-globin, even low concentrations of Ubal effectively inhibit deubiquitination of these conjugates to enhance alpha-globin degradation.
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PMID:Differential effects of ubiquitin aldehyde on ubiquitin and ATP-dependent protein degradation. 871 81

In eukaryotes, ubiquitin (Ub)-dependent proteolysis is essential for bulk protein turnover as well as diverse processes including cell-cycle control, differentiation, antigen presentation, and the stress response. Generally, multiple ubiquitins are added onto a substrate to form an isopeptide-linked 'polyubiquitin' chain, which targets substrates for degradation by the 26S proteasome. The specificity of Ub-dependent degradation was thought to depend primarily on the selection of targets for ubiquitination, but recently we have reported evidence for a second level of specificity in which (poly)Ub-protein conjugates are partitioned among two fates: degradation of the protein substrate by the 26S proteasome; and disassembly by Ub isopeptidase(s) to regenerate the protein substrate. Potentially, an isopeptidase could influence degradation by 'editing' (poly)Ub-protein conjugates according to the extent of ubiquitination rather than the structure of the ubiquitination target itself. Here we describe a bovine isopeptidase that is well suited to such an editing function because of its unique localization and specificity. This enzyme is an intrinsic subunit of PA700, the 19S regulatory complex of the 26S proteasome. By disassembling the degradation signal from only the distal end of (poly)Ub chains, this isopeptidase can selectively rescue poorly ubiquitinated or slowly degraded Ub-protein conjugates from proteolysis.
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PMID:Editing of ubiquitin conjugates by an isopeptidase in the 26S proteasome. 903 92

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