Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:6.3.2.19 (ubiquitin-protein ligase)
799 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The two isoforms of the 14-kDa ubiquitin carrier protein (E2(14k)) are unique among rabbit E2s in efficiently supporting ubiquitin-protein ligase (E3)-mediated ubiquitination of proteins destined for degradation. To begin determining the structural basis for this property, we have isolated a cDNA encoding the predominant reticulocyte isoform of the E2 from a rabbit skeletal muscle library. The sequence predicts a protein of 152 amino acids with a molecular weight of 17,293. Expression of the cDNA in Escherichia coli and purification of the recombinant protein revealed an E2 with high affinity for E3 and ubiquitin activating enzyme (E1). The latter high affinity interaction appears to be between the ubiquitin charged form of E1 and the uncharged form of E2 and does not result in a stable complex between these two enzymes. The predicted sequence shows regions of strong homology with other sequenced E2s, suggesting that these regions may be involved in binding to E1 and/or in ubiquitin transfer from E1, functions common to all E2s. Surprisingly, the E2(14k)) sequence is markedly more similar to Saccharomyces cerevisiae RAD6 (69% identity) than to its proposed homologs UBC4/UBC5 (38% identity). The sequence is identical to that recently reported for a human 17-kDa E2 which can complement rad6 mutants thereby identifying rabbit E2(14k) as a RAD6 homologue. The biochemical properties of this previously uncharacterized human 17-kDa E2 are now defined and its misassignment as a homologue of rabbit E2(17k) is corrected. Our findings resolve current confusion regarding relationships among E2s and define yeast RAD6, rabbit E2(14k), and the human 17-kDa E2 as a subclass of E2s which biochemically support E3-mediated conjugation and ubiquitin-dependent proteolysis and physiologically play a role in DNA repair.
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PMID:A rabbit reticulocyte ubiquitin carrier protein that supports ubiquitin-dependent proteolysis (E214k) is homologous to the yeast DNA repair gene RAD6. 131 8

Ubiquitin is involved in such fundamental cellular processes as cell cycle control, DNA repair, protein degradation and stress responses. We previously reported that cisplatin could inhibit the ubiquitin-ATP-dependent proteolysis and ubiquitination. We further investigated the effect of various antitumor agents on the ubiquitin system and found that aclarubicin (ACR) inhibits the ubiquitin-ATP-dependent proteolysis but not the ubiquitination process. We found that ACR as well as cisplatin inhibited the ubiquitin-ATP-dependent proteolytic activity of rabbit reticulocytes. The IC50 values of these agents were 52 and 90 microM, respectively. Although cisplatin inhibits the conjugation of ubiquitin to proteins through the inhibition of a ubiquitin-activating enzyme, ACR, at 120 microM, does not. Thus, the antitumor agents affecting the ubiquitin system could be classified into two groups; one is represented by cisplatin, which inhibits the ubiquitination of the proteins, and the other is ACR, which does not inhibit the ubiquitination but does inhibit the ubiquitin-ATP-dependent proteolysis. Mitomycin C belongs to the latter group.
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PMID:Inhibition of different steps of the ubiquitin system by cisplatin and aclarubicin. 132 34

tsBN75 and tsBN423 are independently isolated temperature-sensitive (ts) mutants of the BHK21 cell line for cell growth. Both tsBN75 and tsBN423 belong to the same complementation group and show G2 block at the nonpermissive temperature. Both were efficiently transformed to ts+ cells with the mouse and human cDNA encoding the ubiquitin-activating enzyme, E1. While no transformants of tsBN423 cells had a DNA content greater than the parental 2C, several ts+ transformants of tsBN75 cells acquired a multiploid DNA content. These data thus demonstrate the function of the human and mouse E1 cDNAs and further suggest that E1 functions in more than one step in cell cycle progression.
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PMID:tsBN75 and tsBN423, temperature-sensitive x-linked mutants of the BHK21 cell line, can be complemented by the ubiquitin-activating enzyme E1 cDNA. 157 20

The RAD6 gene from the yeast Saccharomyces cerevisiae encodes a ubiquitin carrier protein (E2) required for a variety of cellular processes including DNA repair, induced mutagenesis, and sporulation. Here we identify an E2 from a higher plant, wheat, that is similar to RAD6 with respect to both structure and in vitro substrate specificity. The protein was purified from wheat germ by a combination of ubiquitin covalent affinity chromatography and anion-exchange HPLC and has an apparent molecular mass of 23 kDa [referred to as E2(23 kDa)]. E2(23 kDa) was capable of binding ubiquitin by means of a thiol ester linkage in an ATP-dependent and ubiquitin-activating enzyme-dependent reaction. In the presence of a variety of target proteins, E2(23 kDa), like the RAD6 gene product, formed covalent ubiquitin-protein conjugates in vitro only with histones in a ubiquitin protein ligase-independent reaction. E2(23 kDa) recognized both core and linker histones with an apparent order of preference of H2A greater than or equal to H1 greater than H2B greater than H3 greater than H4. This E2 protein was approximately 17-fold more effective at conjugating ubiquitin to histones than three other purified wheat germ E2 proteins tested. Mouse anti-E2(23 kDa) antibodies were used to isolate E2(23 kDa) DNA sequences from a wheat cDNA expression library. Antibody-positive clones were confirmed by amino acid identity of the sequence deduced from the cDNA to the peptide sequence of an E2(23 kDa) tryptic fragment. Protein expressed in Escherichia coli by the E2(23 kDa) cDNA was capable of both thiol ester adduct formation and conjugation of ubiquitin to histones. Analysis of the E2(23 kDa) cDNA shows that it encodes a protein with considerable amino acid sequence similarity to the yeast RAD6 gene product. Similarities exist at the amino terminus, the region surrounding the putative ubiquitin binding site, and at the carboxyl terminus, which is unusually acidic. Based on both the structural and enzymatic similarities to the RAD6 gene product, E2(23 kDa) may represent the first DNA repair enzyme identified in higher plants.
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PMID:A ubiquitin carrier protein from wheat germ is structurally and functionally similar to the yeast DNA repair enzyme encoded by RAD6. 255 33

Caffeine has been reported to induce premature chromosome condensation (PCC) in S-phase cells in the presence of an inhibitor of DNA synthesis. We found that when S-phase cells are treated with caffeine and hydroxyurea after X irradiation, substantially more potentially lethal damage (PLD) is expressed, but the addition of cycloheximide, which inhibits PCC induction in S-phase cells, in the presence of caffeine and hydroxyurea reduces the expression of PLD to the same level as seen with caffeine alone. This can be interpreted to mean that the expression of PLD seen with caffeine in the absence of an inhibitor of DNA synthesis is not associated with chromosome condensation. Evidence that PCC induction in S-phase cells and the influence of caffeine on PLD expression were suppressed by incubation at 40 degrees C of tsBN75 cells with a ts defect in ubiquitin-activating enzyme indicates the involvement of ubiquitin in these two processes. These observations as well as previous findings on ubiquitin suggest to us that caffeine induces changes in DNA-chromatin conformation, which are caused by induction of PCC or ubiquitination of chromosomal protein. Such changes occurring postirradiation would favor expression of PLD.
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PMID:X-ray-related potentially lethal damage expressed by chromosome condensation and the influence of caffeine. 279 83

Ubiquitin, a 76 residue protein, occurs in eucaryotic cells either free or covalently joined to a variety of protein species. Previous work suggested that ubiquitin may function as a signal for attack by proteinases specific for ubiquitin-protein conjugates. We show that the mouse cell line ts85 , a previously isolated cell cycle mutant, is temperature-sensitive in ubiquitin-protein conjugation, and that this effect is due to the specific thermolability of the ts85 ubiquitin-activating enzyme (E1). From E1 thermoinactivation kinetics in mixed (wild-type plus ts85 ) extracts, and from copurification of the determinant of E1 thermolability with E1 in ubiquitin-affinity chromatography, we conclude that the determinant of E1 thermolability is contained within the E1 polypeptide. ts85 cells fail to degrade otherwise short-lived intracellular proteins at the nonpermissive temperature (accompanying paper), demonstrating that degradation of the bulk of short-lived proteins in this higher eucaryotic cell proceeds through a ubiquitin-dependent pathway. We discuss possible roles of ubiquitin-dependent pathways in DNA transactions, the cell cycle, and the heat shock response.
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PMID:Thermolability of ubiquitin-activating enzyme from the mammalian cell cycle mutant ts85. 1505 78

Cell cycle progression in eukaryotes is controlled by the p34cdc2/CDC28 protein kinase and its short-lived, phase-specific regulatory subunits called cyclins. In Xenopus oocytes, degradation of M-phase (B-type) cyclins is required for exit from mitosis and is mediated by the ubiquitin-dependent proteolytic system. Here we show that B-type-cyclin degradation in yeast involves an essential nuclear ubiquitin-conjugating enzyme, UBC9. Repression of UBC9 synthesis prevents cell cycle progression at the G2 or early M phase, causing the accumulation of large budded cells with a single nucleus, a short spindle and replicated DNA. In ubc9 mutants both CLB5, an S-phase cyclin, and CLB2, an M-phase cyclin, are stabilized. In wild-type cells the CLB5 protein is unstable throughout the cell cycle, whereas CLB2 turnover occurs only at a specific cell-cycle stage. Thus distinct degradation signals or regulated interaction with the ubiquitin-protein ligase system may determine the cell-cycle specificity of cyclin proteolysis.
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PMID:Role of a ubiquitin-conjugating enzyme in degradation of S- and M-phase cyclins. 780 43

A temperature-sensitive mutant defective in DNA replication, tsFT5, has been isolated from the mouse mammary carcinoma cell line FM3A. DNA synthesis in tsFT5 cells at a restrictive temperature (39 degrees C) has been characterized in detail. Incorporation of [3H]thymidine decreased rapidly after an increase in temperature to 39 degrees C and the incorporation was less than 20% and 10% of the initial level after 4 and 8 h, respectively. Analysis by DNA fiber autoradiography revealed that the initiation of DNA replication at the origin of the replicons was impaired in tsFT5 cells but that the DNA chain elongation rate of the mutant cells did not decrease at the nonpermissive temperature. tsFT5 cells were confirmed to belong to the complementation group which includes ts85 cells arrested mainly in the G2 phase at the nonpermissive temperature. It has been observed that the amount of ubiquintin-conjugated histone H2A (uH2A) in ts85 cells decreases at the nonpermissive temperature (Marunouchi, T., Yasuda, H., Matsumoto, Y., and Yamada, M. (1980) Biochem. Biophys. Res. Commun. 95, 126-131). The amount of uH2A in tsFT5 cells also decreased rapidly at 39 degrees C. This decrease occurred at the same time as or slightly preceding to reduction in DNA synthesis, and the reappearance of uH2A was followed by the restoration of DNA synthesis after the temperature was reduced. A similar temporal relationship between decrease in the amount of uH2A and reduction in DNA synthesis was observed in ts85 cells cultured at 39 degrees C. However, the rates of the decrease of uH2A and of the reduction in DNA synthesis in ts85 cells were slower than those observed in tsFT5 cells. A comparison of the thermolability of purified ubiquitin-activating enzyme E1s revealed that the E1 from ts85 cells had a thermolability intermediate between those of the E1 from tsFT5 cells and of the wild-type cells. A reduction in the phosphorylation of histone H1 was observed in tsFT5 cells cultured at 39 degrees C, but the reduction occurred several hours after the decrease in uH2A and the reduction in DNA synthesis.
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PMID:Characterization of DNA synthesis at a restrictive temperature in the temperature-sensitive mutants, tsFT5 cells, that belong to the complementation group of ts85 cells containing a thermolabile ubiquitin-activating enzyme E1. Involvement of the ubiquitin-conjugating system in DNA replication. 834 58

The RAD6 gene of Saccharomyces cerevisiae encodes a ubiquitin-conjugating enzyme that is required for DNA repair, damage-induced mutagenesis, and sporulation. In addition, RAD6 mediates the multiubiquitination and degradation of amino-end rule protein substrates. The structure and function of RAD6 have been remarkably conserved during eukaryotic evolution. Here, we examine the role of the extremely conserved amino terminus, which has remained almost invariant among RAD6 homologs from yeast to human. We show that RAD6 is concentrated in the nucleus and that the amino-terminal deletion mutation, rad6 delta 1-9, does not alter the location of the protein. The amino-terminal domain, however, is essential for the multiubiquitination and degradation of amino-end rule substrates. In the rad6 delta 1-9 mutant, beta-galactosidase proteins bearing destabilizing amino-terminal residues become long lived, and purified rad6 delta 1-9 protein is ineffective in ubiquitin-protein ligase (E3)-dependent protein degradation in the proteolytic system derived from rabbit reticulocytes. The amino terminus is required for physical interaction of RAD6 with the yeast UBR1-encoded E3 enzyme, as the rad6 delta 1-9 protein is defective in this respect. The rad6 delta 1-9 mutant is defective in sporulation, shows reduced efficiency of DNA repair, but is proficient in UV mutagenesis. E3-dependent protein degradation by RAD6 could be essential for sporulation and could affect the efficiency of DNA repair.
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PMID:The extremely conserved amino terminus of RAD6 ubiquitin-conjugating enzyme is essential for amino-end rule-dependent protein degradation. 843 96

The ubiquitin-protein conjugation system is involved in a variety of eukaryotic cell functions, including the degradation of abnormal and short-lived proteins, chromatin structure, cell cycle progression, and DNA repair. The ubiquitination of target proteins is catalyzed by a ubiquitin-activating enzyme (E1) and ubiquitin-conjugating enzymes (E2s) and in some cases also requires auxiliary substrate recognition proteins (E3s). Multiple E2s have been found, and these likely possess specificity for different classes of target proteins. Here we report the cloning and characterization of a gene (ubc-2) encoding a ubiquitin-conjugating enzyme which is involved in the selective degradation of abnormal and short-lived proteins in the nematode Caenorhabditis elegans. The nematode ubc-2 gene encodes a 16.7-kDa protein with striking amino acid sequence similarity to Saccharomyces cerevisiae UBC4 and UBC5 and Drosophila UbcD1. When driven by the UBC4 promoter, ubc-2 can functionally substitute for UBC4 in yeast cells; it rescues the slow-growth phenotype of ubc4 ubc5 mutants at normal temperature and restores their ability to grow at elevated temperatures. Western blots (immunoblots) of ubc4 ubc5 yeast cells transformed with ubc-2 reveal a protein of the expected size, which cross-reacts with anti-Drosophila UbcD1 antibody. C. elegans ubc-2 is constitutively expressed at all life cycle stages and, unlike yeast UBC4 and UBC5, is not induced by heat shock. Both trans and cis splicing are involved in the maturation of the ubc-2 transcript. These data suggest that yeast UBC4 and UBC5, Drosophila UbcD1, and C. elegans ubc-2 define a highly conserved gene family which plays fundamental roles in all eukaryotic cells.
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PMID:The ubc-2 gene of Caenorhabditis elegans encodes a ubiquitin-conjugating enzyme involved in selective protein degradation. 844 82


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