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)

The complete amino acid sequence was determined for bovine ubiquitin, and adenylate cyclase stimulating polypeptide, which is probably represented universally in living cells. Ubiquitin has a molecular weight of 8451 and consists of a single polypeptide chain containing 74 amino acid residues. It contains four arginine residues but no cysteine or trytophan residues. The first 61 amino acid residues were obtained by automated Edman degradations. Tryptic digestion of maleated ubiquitin yielded four peptide fragments that were resolved by molecular sieve chromatography and coded in order of decreasing chain length (MT-1, MT-2, MT-3, and MT-4). The automated sequenator determinations on native ubiquintin provided overlapping sequence data for three of these fragments that gave an order of MT-1, MT-3, and then MT-2; Peptide MT-4, a dipeptide, was therefore assigned to the C terminus, and the placement of peptide MT-2 was corroborated by analysis of data from carboxypeptidase digestions of maleated ubiquitin. Peptide MT-2 was domaleated and sequenced by manual Edman degradations through a single lysine residue. It was cleaved at this residue with trypsin, and the two resultant peptides were separated by ion-exchange chromatography. Manual sequencing of the C-terminal demaleated tryptic peptide of MT-2 completed the sequence of MT-2 and that of native ubiquitin. The sequence of ubiquitin was further confirmed and supported by amino acid and parital sequence anlysis of fragments obtained by digestion of maleated ubiquitin with chymotrypsin or staphylococcal protease.
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PMID:The complete amino acid sequence of ubiquitin, an adenylate cyclase stimulating polypeptide probably universal in living cells. 117 Aug 80

Recently we were able to show that calmodulin from vertebrates, plants (spinach) and the mold Neurospora crassa can be covalently conjugated to ubiquitin in a Ca(2+)-dependent manner by ubiquityl-calmodulin synthetase (uCaM-synthetase) from mammalian sources [R. Ziegenhagen and H.P. Jennissen (1990) FEBS Lett. 273, 253-256]. It was therefore of high interest to investigate whether this covalent modification of calmodulin also occurs in one of the simplest eukaryotes, the unicellular Saccharomyces cerevisiae. Yeast calmodulin was therefore purified from bakers yeast. In contrast to calmodulin from spinach and N. crassa it does not activate phosphorylase kinase. Crude yeast uCaM-synthetase conjugated ubiquitin Ca(2+)-dependently to yeast and mammalian (bovine) calmodulin. Yeast calmodulin was also a substrate for mammalian (reticulocyte) uCaM-synthetase. As estimated from autoradiograms the monoubiquitination product (first-order conjugate) of yeast calmodulin has an apparent molecular mass of ca. 23-26 kDa and the second-order conjugate an apparent molecular mass of ca. 28-32 kDa. Two to three ubiquitin molecules can be incorporated per yeast calmodulin. Experiments with methylated ubiquitin in the heterologous reticulocyte system indicate that, as with vertebrate calmodulins, only one lysine residue of yeast calmodulin reacts with ubiquitin so that the incorporation of multiple ubiquitin molecules will lead to a polyubiquitin chain. These results also indicate that the ability of coupling ubiquitin to calmodulin was acquired at a very early stage in evolution.
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PMID:Ca(2+)-dependent ubiquitination of calmodulin in yeast. 130 6

A ubiquitin hydrolase that removes ubiquitin from a multi-ubiquitinated protein has been purified 600-fold from Saccharomyces cerevisiae. Four different ubiquitin-protein conjugates were assayed as substrates during the purification procedure. Enzymic activities that removed ubiquitin from ubiquitinated histone H2A, a ubiquitin-ubiquitin dimer and a ubiquitin-ribosomal fusion protein were separated during the purification from an activity that removed a single ubiquitin molecule linked by an isopeptide bond to a ubiquitinated protein. The size of the native enzyme was 160 kDa, based on its sedimentation in a sucrose gradient, and the subunit molecular mass was estimated to be 160 kDa, based on a profile of proteins eluted in different fractions by thiol-affinity chromatography. The partially purified hydrolase was not inhibited by a variety of protease inhibitors, except for thiol-blocking reagents. The natural substrate for this enzyme may be the polyubiquitin chain containing ubiquitin molecules bound to each other in isopeptide bonds, with one of them linked to a lysine residue of a protein targeted for intracellular proteolysis.
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PMID:Partial purification and substrate specificity of a ubiquitin hydrolase from Saccharomyces cerevisiae. 184 17

Ubiquitin (Ub) conjugates to Saccharomyces cerevisiae iso-2-cytochrome c were formed in vitro in a rabbit reticulocyte extract (Fraction II). In the presence of ubiquitin-aldehyde, used to inhibit ubiquitin-protein isopeptidases in Fraction II, mono-, di-, and triubiquitinated cytochrome c conjugates accumulated in a 1.2:1.0:0.2 molar ratio. CNBr digestions showed that, in all three conjugates, Ub attachment was within the first 73 amino acids of the cytochrome c. For the two most abundant conjugates, this region was further narrowed to the first 30 residues by peptide mapping with Staphylococcus aureus V8 protease. N-terminal protein sequencing identified Lys-13 as the major ubiquitination site in each conjugate. For di- and triubiquitinated iso-2-cytochrome c, this suggested that Ub2 and Ub3 multiubiquitin chains extend from Lys-13. This conclusion was supported by a variation of protein sequencing in which polypeptides recovered after Edman degradation were analyzed to determine at which cycle(s) radiolabeled Ub or Ubn was cleaved from the conjugate. Because of the sensitivity afforded by the use of 125I-Ub in this "stutter-step" sequencing method, minor ubiquitination at Lys-8 also was detected. Thus, Ub2-iso-2-cytochrome c conjugates contain mostly Ub2 at Lys-13 with a small fraction of conjugates having single Ubs on 2 residues, Lys-8 and Lys-13. Similarly, Ub3-iso-2-cytochrome c predominantly has a Ub3 chain on Lys-13, although minor species with combinations of Ub1 and Ub2 distributed on Lys-8 and Lys-13 also may be present. This specificity is discussed in the context of iso-2-cytochrome c structure.
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PMID:The structures of ubiquitin conjugates of yeast Iso-2-cytochrome c. 185 Nov 66

In plants Ca2+ plays a crucial role as second messenger. Thus calmodulin is one of the most important signal transducing molecules for metabolic regulation in plants. Previously we showed that bovine testis calmodulin can be covalently coupled at one site to ubiquitin in a Ca2(+)-dependent manner in the presence of ATP/Mg2+ by ubiquityl-calmodulin synthetase. Since calmodulin from spinach has 13 amino acid sequence differences to bovine calmodulin - two of them in Ca2(+)-binding loops - it was unclear, whether a conjugation of ubiquitin to this molecule would be possible. In this paper it is shown that calmodulin from spinach and a similar calmodulin from the mold Neurospora crassa can be covalently conjugated to ubiquitin in a Ca2(+)-dependent manner. It is shown that higher molecular mass conjugates containing up to three ubiquitin molecules per calmodulin are obtained. Experiments with methylated ubiquitin demonstrate that, as with vertebrate calmodulins, only one lysine residue is linked to ubiquitin and that the incorporation of additional ubiquitin molecules leads to a polyubiquitin chain.
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PMID:Plant and fungus calmodulins are polyubiquitinated at a single site in a Ca2(+)-dependent manner. 217 31

Radioiodinated histone H3 was incubated with ubiquitin, the ubiquitin-activating enzyme E1, and one of three ubiquitin carrier proteins, reticulocyte E2(20K) or E2(32K) or the yeast RAD6 product. Although the resulting ubiquitin-histone conjugates were synthesized in the absence of the substrate-binding protein E3, they were nevertheless degraded by purified rabbit reticulocyte 26 S protease. In contrast, unmodified histone H3 remained intact upon challenge with the 26 S ubiquitin/ATP-dependent enzyme. Conjugates produced by the RAD6 protein were better proteolytic substrates than those formed by reticulocyte E2 unless ubiquitin molecules with altered lysines were used for conjugate synthesis. Substitution of methylated ubiquitin or ubiquitin molecules in which lysine 48 was converted to arginine by site-directed mutation produced histone conjugates that were degraded at slow but measurable rates. Since methylated ubiquitin molecules are incapable of forming branched polyubiquitin chains, these results demonstrate that neither ubiquitin "trees" nor the substrate binding factor E3 is absolutely required for ubiquitin-dependent degradation of histone H3 in vitro.
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PMID:Ubiquitin-mediated degradation of histone H3 does not require the substrate-binding ubiquitin protein ligase, E3, or attachment of polyubiquitin chains. 217 83

The low molecular weight polypeptide required for energy-dependent proteolysis, ubiquitin, is rapidly inactivated by 100,000 X g supernatants of rabbit liver extracts. Ubiquitin inactivation results from limited proteolysis by an endogenous contaminating lysosomal thiol protease having trypsin-like specificity. Evidence for this includes a pH optimum of 5.0 for the first order constant of ubiquitin inactivation and observation that inactivation is inhibited by EDTA, o-phenanthroline, iodoacetamide, p-chloromercuribenzoic acid, phenylmethylsulfonyl fluoride, N alpha-p-tosyl-L-lysine chloromethyl ketone, leupeptin, soybean trypsin inhibitor, and aprotinin. Metals stimulate but are not required for ubiquitin inactivation with the effect apparently mediated by a low molecular weight heat-labile component of crude extracts. When this heat-labile component is removed by gel exclusion chromatography a number of metals inhibit ubiquitin inactivation. In the presence of excess dithiothreitol, inhibition is relatively specific for Zn(II). Inhibition by Zn(II) is specifically overcome competitively by Cd(II) or by a concentration of ubiquitin in excess of Zn(II). The responsible cathepsin possesses a molecular mass of 35 kDa by gel exclusion chromatography and shows marked thermal lability at neutral pH but stability at acid pH. Proteolytic inactivation of ubiquitin results from limited cleavage of the carboxyl-terminal glycine dipeptide required for isopeptide bond formation and is supported by data on isoelectric point changes on subsequent digestion with carboxypeptidase B and by direct amino acid analysis. When the responsible cathepsin is inactivated, liver extracts display ATP,ubiquitin-dependent proteolysis that cannot be ascribed to contaminating erythrocytes. Thus the previous inability to demonstrate energy-dependent proteolysis in liver extracts is accounted for by the artifactual inactivation of ubiquitin.
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PMID:The inactivation of ubiquitin accounts for the inability to demonstrate ATP, ubiquitin-dependent proteolysis in liver extracts. 298 63

Ubiquitin, a 76 residue protein, occurs in eukaryotic cells either free or covalently joined via its carboxyl terminus to epsilon-amino groups of lysine residues in a wide variety of protein species. Previous work has shown that ubiquitin-protein conjugates are preferred substrates in vitro for a non-lysosomal ATP-dependent proteolytic pathway, suggesting that ubiquitin may function as a signal for attack by proteinases specific for ubiquitin-protein conjugates. One strategy to define the potential significance of the ubiquitin-dependent proteolytic pathway is to identify conditional mutants in the pathway. ts85 is a mouse derived cell-cycle mutant which has been shown to lose uH2A, a specific ubiquitin-histone H2A conjugate, at the nonpermissive temperature. We show that the loss of uH2A from ts85 cells is due to reduced ubiquitin-protein conjugation. We further show that the reduced conjugation is due to the specific thermolability of ubiquitin activating enzyme, E1, one of the three enzymic components of the ubiquitin-protein ligase system. We therefore proceeded to test whether the degradation of short-lived proteins is also temperature-sensitive in ts85 cells. Indeed, while more than 70% of the prelabeled abnormal (amino acid analog-containing) proteins or puromycyl peptides are degraded within 4 hours at the permissive temperature in the mutant (ts85), wild type (FM3A), and revertant (ts85R-MN3) cells, less than 15% of these proteins are degraded in ts85 cells at the nonpermissive temperature. In contrast, the rate of degradation of these proteins does not change significantly in either wild-type or revertant cells between permissive and nonpermissive temperatures. Degradation of normal short-lived proteins is also specifically temperature-sensitive in ts85 cells. Immunochemical analysis shows a strong and specific reduction in ubiquitin-protein conjugate levels in vivo at the nonpermissive temperature in ts85 cells. Taken together, our in vitro and in vivo findings with ts85 cells demonstrate that the degradation of the bulk of short-lived proteins in this higher eukaryotic cell is accomplished through a ubiquitin-mediated pathway.
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PMID:Mammalian cell cycle mutant defective in intracellular protein degradation and ubiquitin-protein conjugation. 299 83

N epsilon-acetylation in vitro of internal lysyl residues of Ub by p-nitro-phenyl acetate at pH 8.0 was performed. The position of acetylation sites are determined. (e.g. Fully acetylated: Lys-6, Lys-11 and Lys-33; partially free internal lysines: Lys-27, Lys-29; Lys-48 and probably Lys-63.) 55 cycles Edman degradation were performed and the first 53 N-terminal residues were identified. Secondary structural studies of ubiquitin have been carried out using the circular dichroism (CD) technique. No changes are noted upon heating to 100 degrees C at neutral pH even in the presence of 8 M urea but in 6 M guanidine-HCl extensive modification results. Ubiquitin with an average of 4.4 of its 7 lysines in the N epsilon-acetyl form shows little deviation from native protein. After reduction with dithiothreitol and subsequent removal of the mercaptan, significant changes in the secondary structure are noted. Circular dichroic measurements of ubiquitin indicated an alpha-helical content of about 10% whereas the secondary structural predictions of Chou and Fasman suggest a level of about 45%.
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PMID:Investigations of primary and secondary structure of porcine ubiquitin. Its N epsilon-acetylated lysine derivative. 301 36

Ubiquitin (Ub) activation by the Ub-activating (E1) enzyme is the initial and essential step common to all of the known processes that involve post-translational conjugation of Ub to itself or other proteins. The "activated" Ub, linked via a thioester bond to a specific cysteine residue in one of several Ub-conjugating (E2) enzymes, which catalyze the formation of isopeptide bonds between the C-terminal glycine of Ub and lysine residues of acceptor proteins. In the yeast Saccharomyces cerevisiae, a 114-kDa E1 enzyme is encoded by an essential gene termed UBA1 (McGrath, J.P., Jentsch, S., and Varshavsky, A. (1991) EMBO J. 10, 227-236). We describe the isolation and analysis of another essential gene, termed UBA2, that encodes a 71-kDa protein with extensive sequence similarities to both the UBA1-encoded yeast E1 and E1 enzymes of other organisms. The regions of similarities between Uba1p and Uba2p encompass a putative ATP-binding site as well as a sequence that is highly conserved between the known E1 enzymes and contains the active-site cysteine of E1. This cysteine is shown to be required for an essential function of Uba2p, suggesting that Uba2p-catalyzed reactions involved a transient thioester bond between Uba2p and either Ub or another protein. Uba2p is located largely in the nucleus. The putative nuclear localization signal of Uba2p is near its C terminus. The Uba1p (E1 enzyme) and Uba2p cannot complement each others essential functions even if their subcellular localization is altered by mutagenesis. Uba2p appears to interact with itself and several other S. cerevisiae proteins with apparent molecular masses of 52, 63, 87, and 120 kDa. Uba2p is multiubiquitinated in vivo, suggesting that at least a fraction of Uba2p is metabolically unstable. Uba2p is likely to be a component of the Ub system that functions as either an E2 or E1/E2 enzyme.
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PMID:An essential yeast gene encoding a homolog of ubiquitin-activating enzyme. 762 21

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