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)

Four ubiquitin-peptide extensions prepared as cloned products in E. coli were tested as casein kinase II substrates. Two extensions containing the sequence Ser-Glu-Glu-Glu-Glu-Glu were readily phosphorylated by partially purified rabbit reticulocyte casein kinase II. The other two fusion proteins, which lack a consensus phosphorylation site for casein kinase II, did not serve as substrates under identical reaction conditions. Native ubiquitin was not phosphorylated by reticulocyte casein kinase II, nor have we observed its phosphorylation in crude extracts from HeLa cells, mouse liver, or Xenopus eggs. Ubiquitin's apparent lack of phosphorylatable residues coupled with its remarkable heat stability and rapid migration on sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels make the protein an attractive carrier for carboxyl-terminal peptides containing specific phosphorylation sites. Such ubiquitin extension proteins should prove valuable as protein kinase substrates.
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PMID:The use of ubiquitin-peptide extensions as protein kinase substrates. 196 25

The highly conserved protein ubiquitin is synthesized in eukaryotes as two types of protein fusions from which active ubiquitin is derived by proteolytic processing. We report here the isolation and characterization of multiple genes from one type that encode ubiquitin extension proteins from the higher plant, Arabidopsis thaliana (L.). Two genes with 90% nucleotide identity in their exons encode ubiquitin and identical 52-amino acid (aa) extension proteins with 85 and 79% aa identity to 52-aa extension proteins from humans and yeast, respectively. Two other genes with 90% nucleotide identity encode ubiquitin and 81-aa extension proteins that differ by 4 amino acids from each other and are approximately 70% identical to the 76- and the 80-aa extension proteins from yeast and humans, respectively. Antibodies recognizing the 52- and 81-aa Arabidopsis extension proteins identify them as constituents of ribosomes. By sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the 52- and 81-aa extension proteins migrate at 6.8 and 11.5 kDa, respectively, and neither cross-reacts with anti-ubiquitin antibodies, indicating that extension proteins are cleaved from ubiquitin following translation. Ubiquitin extension protein genes encode the smallest transcript size class of ubiquitin mRNAs in Arabidopsis. The 5'-flanking regions of both UBQ1 and UBQ6, genes representative of the both extension proteins, direct the expression of readily detectable levels of the marker enzyme beta-glucuronidase in transgenic tobacco, suggesting the utility of these promoters for expression of foreign genes in higher plants.
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PMID:Ubiquitin extension proteins of Arabidopsis thaliana. Structure, localization, and expression of their promoters in transgenic tobacco. 216 66

Mammalian cells contain two large proteolytic complexes, the 650-kDa proteasome (or multicatalytic protease) and the 1500-kDa (26 S) Ubiquitin-conjugate-degrading enzyme. Since the proteasome is also required for the ATP-dependent degradation of ubiquitinated proteins, we tested whether it may be a component of the larger complex. The proteasome normally is soluble in 38% ammonium sulfate. However, after preincubation of reticulocyte extracts with ATP, several proteasome activities appeared in the 38% ammonium sulfate pellet, including the ability to degrade hydrophobic peptides and 14C-casein. Also, following preincubation with ATP, the precipitable fraction could degrade 125I-lysozyme-ubiquitin (Ub) conjugates. The activities were not present after incubation without ATP or with a nonmetabolizable ATP analog. Nondenaturing gel electrophoresis indicated the ATP-dependent appearance of a new band which degraded proteasome substrates, and reacted with an anti-proteasome monoclonal antibody on Western blot. This new band appeared larger than the proteasome and migrated similarly to the larger Ub-conjugate-degrading complex. The formation of the larger complex required factor(s) present in the 38% ammonium sulfate pellet and either the 40-80% fraction or the purified proteasome from reticulocytes or muscle. After complex formation, hydrolysis of Ub-protein conjugates and also the non-ubiquitinated substrate, casein, was stimulated severalfold by ATP, but non-metabolizable ATP analogs had little or no effect. Thus, the proteasome corresponds to component CF-3 of Ganoth et al. (Ganoth, D., Leshinisky, E., Eytan, E., and Hershkov, A. (1989) J. Biol. Chem. 263 12412-12419) and undergoes an energy-dependent association with other factors to form the 1500-kDa, ATP-requiring proteolytic complex.
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PMID:The proteasome (multicatalytic protease) is a component of the 1500-kDa proteolytic complex which degrades ubiquitin-conjugated proteins. 218 Sep 50

In eukaryotic cells ubiquitin is synthesized as a polyubiquitin protein or as a protein fused at the carboxyl terminus to other polypeptides. An enzyme activity, ubiquitin protein peptidase, has been proposed to process these precursors by cleaving the peptide bond between adjoining ubiquitin molecules or between ubiquitin and the fused peptides. Using the cleavage of a 35S-labeled yeast ubiquitin protein fused to a synthetic 38-residue peptide obtained by in vivo metabolic labeling in Escherichia coli in an expression system based on the interaction of bacteriophage T7 RNA polymerase and its promoter, it is possible to detect a processing activity in soluble yeast extract. The specificity of the cleavage suggests this activity could be the in vivo processing activity for various ubiquitin precursor proteins in yeast cells. A similarly labeled ubiquitin protein fused to one cysteine residue was also utilized to detect an activity capable of removing a single cysteine residue from ubiquitin in a soluble extract. Employing assays based on the cleavage of labeled ubiquitin protein fusions, a ubiquitin protein peptidase activity from Saccharomyces cerevisiae was purified about 15,000-fold to yield a protein mixture consisting of only a few protein species. The major protein band which comigrated with the activities in in vitro assays has an apparent molecular weight of 29,000 when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Two other protein species, about 20,000 and 10,000 in molecular weight, also comigrated with the in vitro activities throughout the purification procedure. Though our most purified protein fraction was shown to cleave various artificial ubiquitin protein fusions under our experimental conditions, it cannot cleave a ubiquitin dimer protein, suggesting the existence of functionally distinct ubiquitin protein peptidases. Our experimental protocol for preparing various labeled ubiquitin protein precursors provides a means to explore various processing enzymes existing in cells. The same protocol may also be adapted to prepare substrates for the study of other specific protein processing enzymes.
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PMID:Purification of a ubiquitin protein peptidase from yeast with efficient in vitro assays. 255 55

Ubiquitin, a protein important in regulating non-lysosomal proteolysis, has previously been shown to be present in cytoskeletal inclusions of the neurodegenerative diseases. Its role in other pathological processes of the central nervous system, such as neoplastic transformation of cells, is not known. The astrocytoma, a tumor of complex biology derived from the astrocyte, is the most common primary parenchymal human brain tumor in both children and adults. Until recently, ubiquitin was not known to form stable conjugates in cells. We have shown using immunocytochemistry on sections of astrocytomas that both glial fibrillary acidic protein (GFAP) (the major intermediate filament protein present in normal, reactive and neoplastic astrocytes) and ubiquitin are simultaneously present in the cytoplasm and cell processes of tumor cells. The presence of ubiquitin and GFAP was also found in astrocytoma cells in short- and long-term culture, and confirmed by immunostaining of blots of tumor homogenates subjected to sodium dodecyl sulfate polyacrylamide gel electrophoresis.
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PMID:Ubiquitin in normal, reactive and neoplastic human astrocytes. 255 61

Ubiquitin is a highly conserved, 76-amino acid polypeptide recently demonstrated to be involved in ATP-dependent protein degradation in mammalian cells. From immunoblot analyses with anti-human-ubiquitin antibodies we have detected the presence of free ubiquitin in green leaves, etiolated shoots, and dry seeds of the higher plant, oats (Avena sativa L.). We also find that crude oat extracts contain protease(s) that rapidly degrade both oat and human ubiquitin (t1/2 approximately 10 min at 27 degrees C). This proteolysis apparently cleaves ubiquitin at the carboxyl-terminal glycine dipeptide and results in inactivation of the molecule with respect to ligation but does not affect its mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Using homogenization conditions that preclude this proteolysis (low pH and the addition of the protease inhibitor p-chloromercuribenzoate) and immunoblotting as an assay for the protein, a procedure for the purification of ubiquitin from etiolated oat shoots was developed. Characterization of purified oat ubiquitin by absorption spectra, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, isoelectric focusing, radioimmunoassay with anti-human-ubiquitin antibodies, and kinetic analyses using the ubiquitin activating enzyme isolated from rabbit liver indicates that this protein is remarkably similar to the mammalian form. Small differences between the oat and human proteins have been observed by amino acid compositional analyses indicating that the two forms are not totally homologous. Immunoblotting of crude oat extracts has revealed the presence of high molecular weight proteins recognized by anti-ubiquitin antibodies that represent ubiquitin-protein conjugates formed in vivo. Taken together, these data provide evidence that higher plants contain a ubiquitin-dependent proteolytic pathway that is mechanistically identical to that present in animals.
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PMID:Purification and initial characterization of ubiquitin from the higher plant, Avena sativa. 299 56

A putative growth hormone receptor from detergent-solubilized rabbit liver membranes and the growth hormone binding protein from rabbit serum have been purified 59,000- and 400,000-fold, respectively, primarily by affinity chromatography. Both purified proteins exhibit high affinity binding for human growth hormone; K alpha = 9-30 x 10(9) M-1 for the liver receptor and K alpha = 6 x 10(9) M-1 for the binding protein. The apparent molecular weight of the liver receptor is 130,000 by reduced sodium dodecyl sulfate gel electrophoresis, while that of the binding protein is 51,000. Both contain N-linked carbohydrate. The amino-terminal sequences of the liver growth hormone receptor and the serum binding protein were found to be the same, indicating that the binding protein corresponds to the extracellular domain of the liver receptor. Ubiquitin was found covalently linked to the liver receptor but not to the serum binding protein. The amino acid sequences of several peptides from the liver receptor were also determined after tryptic and V8 protease digestion.
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PMID:Rabbit liver growth hormone receptor and serum binding protein. Purification, characterization, and sequence. 337 9

Ubiquitin-125I-alpha-globin conjugate fractions containing either one (Ub1-alpha), or two (Ub2-alpha), or a mixture of three and four (Ub3,4-alpha) molecules of ubiquitin (Ub), covalently linked to one 125I-alpha-globin molecule were isolated after incubation of a proteolysis reaction mixture containing ATP, ubiquitin aldehyde-treated reticulocyte lysate, and human 125I-alpha-globin. Each of the purified conjugate fractions or an identically-purified control sample of unconjugated 125I-alpha-globin was incubated as a substrate in companion proteolysis reaction mixtures containing either purified 26S or 20S rabbit reticulocyte proteasomes. The initial rate of ATP-dependent degradation of the Ub1-alpha conjugate by the 26S proteasomes was approximately 0.44% (1.1 fmol)/min while that of the free 125I-alpha-globin was undetectable. The initial rates of ATP-dependent degradation by the 26S proteasomes of the Ub2-alpha and Ub3,4-alpha conjugates were 2- to-3-fold that of the Ub1-alpha species. Conversely, the degradation of free 125I-alpha-globin and its ubiquitinated conjugates by the 20S proteasomes was not dependent on ATP, nor did it increase with the size of the Ub adduct. Analysis of the products of a reaction mixture with 26S proteasomes by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed no conversion of the Ub1-alpha conjugate substrate to higher-molecular-mass conjugates. These results suggest that monobiquitinated alpha-globin can be degraded significantly and specifically by interaction directly with the 26S proteasomes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Degradation of monoubiquitinated alpha-globin by 26S proteasomes. 769 67

The ubiquitin-dependent pathway for protein degradation has been found to play a major role in controlling protein turnover in the cell. Ubiquitin is one of the most conserved proteins yet identified, and up until now it has been thought to be present only in eukaryotes and archaebacteria. This is the first report on the detection and purification of ubiquitin from a eubacterium, the cyanobacterium Anabaena variabilis. The purification procedure included a heat denaturing step, fractionated ammonium sulfate precipitation, two gel filtration runs (Sephadex G-50 and Superose 12), and a final hydroxylapatite chromatography. Comparisons with bovine ubiquitin showed a high similarity with respect to antigenicity to anti-ubiquitin (bovine), molecular mass (M(r) = 6,000), isoelectric point (pI 6.5), and NH2-terminal sequence. The existence of ubiquitin in A. variabilis was confirmed by Southern hybridization. In in vitro experiments both cyanobacterial and bovine ubiquitin were covalently attached to several target proteins from A. variabilis, respectively. Data are presented which suggest ubiquitination of dinitrogenase reductase, the Fe-protein subunit of nitrogenase. Our findings imply that ubiquitination equivalent to the eukaryotic system is instrumental in this organism.
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PMID:Ubiquitin in the prokaryote Anabaena variabilis. 787 11

Hepatic protein accumulation during ethanol administration may result partly from an ethanol-elicited decline in hepatic protein degradation, which we have previously shown. We conducted the current studies to examine the effects of ethanol administration on the levels of hepatic ubiquitin, an 8.5-kd protein which is an important mediator of extralysosomal protein catabolism. Rats were pair-fed liquid diets containing either ethanol (36% of calories) or isocaloric maltose-dextrin for 1 to 5 weeks. Ubiquitin was immunochemically quantified by competitive enzyme-linked immunosorbent assay (ELISA) in crude cytosol fractions from whole liver and in 12,000g supernatants of hepatocyte lysates. Ubiquitin levels in hepatic cytosol fractions of ethanol-fed rats exceeded those of controls by about 30%. Isolated hepatocytes from ethanol-fed animals also showed a 40% to 75% elevation of ubiquitin above that in cells of pair-fed controls and this difference exceeded the relative rise in hepatocellular protein. In hepatocyte lysates subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblotting, we detected monomeric ubiquitin and higher molecular mass ubiquitin-protein conjugates. However, the immunoblot analyses revealed no quantitative changes in the level of either free or conjugated ubiquitin. The ubiquitin conjugating activity of crude and diethyl aminoethyl-fractionated liver cytosols of ethanol-fed rats had equal capacities to those from controls in catalyzing the formation of ubiquitin-protein conjugates. Our findings indicate that chronic ethanol consumption increased the level of immunoreactive ubiquitin in rat liver. This may have resulted from enhanced ubiquitin production because of an ethanol-elicited stress response and/or decreased catabolism of ubiquitin and its conjugates. Our findings also provide no indication that the ethanol-elicited reduction in hepatic proteolysis is because of a ubiquitin-mediated mechanisms.
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PMID:Effects of ethanol administration on components of the ubiquitin proteolytic pathway in rat liver. 867 77


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