EC:6.3.2.19 - FACTA Search

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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

Selective degradation of cellular proteins serves to eliminate abnormal proteins and to mediate the turnover of certain short-lived proteins, many of which have regulatory functions. In eukaryotes a major pathway for selective protein degradation is ATP-dependent and is mediated by the ubiquitin system. This pathway involves substrate recognition by components of a ubiquitin-protein ligase system, covalent attachment of ubiquitin moieties to proteolytic substrates, and subsequent degradation of these conjugates by a multicatalytic protease complex. Recent genetic evidence suggests that the remarkable selectivity of this process is largely controlled at the level of substrate recognition by the ubiquitin ligase system. In Saccharomyces cerevisiae, ubiquitin-conjugating enzymes UBC1, UBC4 and UBC5 have been identified as key components of this highly conserved degradation pathway. Genetic analysis indicates that ubiquitin-dependent proteolysis is essential for cell viability and that UBC4 and UBC5 enzymes are essential components of the eukaryotic stress response.
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PMID:Genetic analysis of ubiquitin-dependent protein degradation. 174 Jan 89

Cyclin B is degraded at the onset of anaphase by a ubiquitin-dependent proteolytic system. We have fractionated mitotic Xenopus egg extracts to identify components required for this process. We find that UBC4 and at least one other ubiquitin-conjugating enzyme can support cyclin B ubiquitination. The mitotic specificity of cyclin ubiquitination is determined by a 20S complex that contains homologs of budding yeast CDC16 and CDC27. Because these proteins are required for anaphase in yeast and mammalian cells, we refer to this complex as the anaphase-promoting complex (APC). CDC27 antibodies deplete APC activity, while immunopurified CDC27 complexes are sufficient to complement either interphase extracts or a mixture of recombinant UBC4 and the ubiquitin-activating enzyme E1. These results suggest that APC functions as a regulated ubiquitin-protein ligase that targets cyclin B for destruction in mitosis.
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PMID:A 20S complex containing CDC27 and CDC16 catalyzes the mitosis-specific conjugation of ubiquitin to cyclin B. 773 80

The E6 protein of the oncogenic human papillomavirus types 16 and 18 facilitates the rapid degradation of the tumor-suppressor protein p53 via the ubiquitin-dependent proteolytic pathway. The E6 protein binds to a cellular protein of 100 kDa termed E6-AP. The complex of E6 and E6-AP specifically interacts with p53 and induces the ubiquitination of p53 in a reaction which requires the ubiquitin-activating enzyme (E1) and a cellular fraction thought to contain a mammalian ubiquitin-conjugating enzyme (E2). This mammalian E2 activity could be replaced with bacterially expressed UBC8 from Arabidopsis thaliana, which belongs to a subfamily of E2s including yeast UBC4 and UBC5 which are highly conserved at the amino acid level. In this paper we describe the cloning of a human cDNA encoding a human E2 that we have designated UbcH5 and that is related to Arabidopsis UBC8 and the other members of this subfamily. We demonstrate that UbcH5 can function in the E6/E6-AP-induced ubiquitination of p53.
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PMID:Identification of a human ubiquitin-conjugating enzyme that mediates the E6-AP-dependent ubiquitination of p53. 809 Jul 26

In eukaryotes, conjugation of ubiquitin to proteins serves as a committed step for intracellular protein degradation. Formation of ubiquitin-protein conjugates involves the transfer of ubiquitin-conjugating enzyme (E2)-bound ubiquitin to the target proteins with or without the assistance of ubiquitin-protein ligase (E3). We report the isolation and characterization of an E2 purified from wheat germ that accounts for the majority of ubiquitin conjugation activity observed in vitro. This E2 is basic, has an apparent molecular mass of 15 kDa, and forms oligomers that dissociate upon treatment with sulfhydryl reducing agents. E(2)15kDa will not work alone in vitro but requires an additional factor putatively identified as an E3 for substrate recognition. This E3 is distinct from E3 alpha previously described to be required for N-terminal recognition of target proteins. Partial amino acid sequence analysis of E(2)15kDa revealed a substantial identity (approximately 80% in two peptide regions) with yeast E2s encoded by UBC4/UBC5 genes. This homology was confirmed by immunodetection of a 16-kDa yeast protein corresponding to the molecular mass of the UBC4/UBC5 proteins with E(2)15kDa antisera. The products of yeast UBC4 and UBC5 genes along with that of UBC1 gene constitute a subfamily of functionally overlapping E2s that mediate the selective degradation of short-lived and abnormal proteins in vivo. Considering the high degree of functional and structural similarity of wheat E(2)15kDa with that of yeast UBC4/UBC5, it is likely that yeast UBC4/UBC5 and their homologs from other eukaryotes exhibit the same E3 dependence in performing their roles in protein degradation.
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PMID:A major ubiquitin conjugation system in wheat germ extracts involves a 15-kDa ubiquitin-conjugating enzyme (E2) homologous to the yeast UBC4/UBC5 gene products. 841 75

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

E6-AP, a 100-kDa cellular protein, was originally identified through its interaction with the E6 protein of the oncogenic human papillomavirus types 16 and 18. The complex of E6-AP and E6 specifically interacts with p53 and mediates ubiquitination of p53 in concert with the E1 ubiquitin-activating enzyme and the E2 ubiquitin-conjugating enzyme UbcH5. Recent results suggest that E6-AP is representative of a family of putative ubiquitin-protein ligases. Members of this family are characterized by a conserved C-terminal region, termed hect domain. In this paper, we describe the isolation of two human E2s, designated as UbcH6 and UbcH7, that in addition to UbcH5 can interact with E6-AP. UbcH6 is a novel member of an evolutionally conserved subfamily of E2s that includes UbcH5 and Saccharomyces cerevisiae UBC4. Although UbcH7 does not appear to be a member of this subfamily, UbcH7 efficiently substitutes for UbcH5 in E6-AP-dependent ubiquitination. Surprisingly, UbcH6 was only weakly active in this particular assay. In addition, UbcH5 but not UbcH6 or UbcH7 efficiently interacts with the heet protein RSP5. These results indicate that E6-AP can interact with at least two species of E2 and that different hect proteins may interact with different E2s.
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PMID:Cloning of human ubiquitin-conjugating enzymes UbcH6 and UbcH7 (E2-F1) and characterization of their interaction with E6-AP and RSP5. 857 57

Some receptor tyrosine kinases such as the receptors for epidermal-growth factor (EGF) and platelet-derived growth factor undergo polyubiquitination as a consequence of ligand binding. The EGF receptor is also ubiquitinated by treatment with herbimycin A, an ansamycin antibiotic widely used as a tyrosine kinase inhibitor. To investigate the mechanism of the receptor ubiquitination, we have established an assay system in which herbimycin-A-induced ubiquitination processes can be analyzed in vitro. We now show that herbimycin A treatment of the purified EGF receptor induces polyubiquitination of the receptor in rabbit-reticulocyte lysate. Both DEAE unadsorbed material (fraction I) and high salt eluate (fraction II) of the reticulocyte lysate are involved cooperatively in the ubiquitination process, where the ubiquitin-conjugating enzyme UBC4 can functionally substitute for fraction I. A ubiquitin-protein ligase-like activity, partially purified from fraction II by DEAE anion-exchange chromatography, also functions in concert with UBC4. The precise mechanism of herbimycin A-induced ubiquitination of the EGF receptor is not fully understood, however, our present findings suggest that direct interaction with herbimycin A results in some modification of the receptor which is recognized by the ubiquitin-conjugating system in rabbit-reticulocyte lysate.
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PMID:Identification of an ubiquitin-ligation system for the epidermal-growth-factor receptor--herbimycin A induces in vitro ubiquitination in rabbit-reticulocyte lysate. 928 47

Members of the hect domain protein family are characterized by sequence similarity of their C-terminal regions to the C terminus of E6-AP, an E3 ubiquitin-protein ligase. An essential intermediate step in E6-AP-dependent ubiquitination is the formation of a thioester complex between E6-AP and ubiquitin in the presence of distinct E2 ubiquitin-conjugating enzymes including human UbcH5, a member of the UBC4/UBC5 subfamily of E2s. Similarly, several hect domain proteins, including Saccharomyces cerevisiae RSP5, form ubiquitin thioester complexes, indicating that hect domain proteins in general have E3 activity. We show here, by the use of chimeric E2s generated between UbcH5 and other E2s, that a region of UbcH5 encompassing the catalytic site cysteine residue is critical for its ability to interact with E6-AP and RSP5. Of particular importance is a phenylalanine residue at position 62 of UbcH5 that is conserved among the members of the UBC4/UBC5 subfamily but is not present in any of the other known E2s, whereas the N-terminal 60 amino acids do not contribute significantly to the specificity of these interactions. The conservation of this phenylalanine residue throughout evolution underlines the importance of the ability to interact with hect domain proteins for the cellular function of UBC4/UBC5 subfamily members.
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PMID:Identification of determinants in E2 ubiquitin-conjugating enzymes required for hect E3 ubiquitin-protein ligase interaction. 1006 26

The structural basis by which ubiquitin (Ub)-conjugating enzymes (E2s) determine substrate specificity remains unclear. We cloned rabbit reticulocyte E217K because unlike the similarly sized class I E2s, E214K and UBC4, it is unable to support ubiquitin-protein ligase (E3)-dependent conjugation to endogenous proteins. RNA analysis revealed that this E2 was expressed in all tissues tested, with higher levels in the testis. Analysis of testis RNA from rats of different ages showed that E217K mRNA was induced from days 15 to 30. The predicted amino acid sequence indicates that E217K is a 19. 5-kDa class I E2 but differs from other class I enzymes in possessing an insertion of 13 amino acids distal to the active site cysteine. E217K shows 74% amino acid identity with Saccharomyces cerevisiae UBC7, and therefore, we rename it mammalian UBC7. Yeast UBC7 crystal structure indicates that this insertion forms a loop out of the otherwise conserved folding structure. Sequence analysis of E2s had previously suggested that this loop is a hypervariable region and may play a role in substrate specificity. We created mutant UBC7 lacking the loop (ubc7Deltaloop) and a mutant E214k with an inserted loop (E214k+loop) and characterized their biochemical functions. Ubc7Deltaloop had higher affinity for the E1-Ub thiol ester than native UBC7 and permitted conjugation of Ub to selected proteins in the testis but did not permit the broad spectrum E3-dependent conjugation to endogenous reticulocyte proteins. Surprisingly, E214k+loop was unable to accept Ub from ubiquitin-activating enzyme (E1) but was able to accept NEDD8 from E1. E214k+loop was able to support conjugation of NEDD8 to endogenous reticulocyte proteins but with much lower efficiency than E214k. Thus, the loop can influence interactions of the E2 with charged E1 as well as with E3s or substrates, but the exact nature of these interactions depends on divergent sequences in the remaining conserved core domain.
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PMID:Identification of rabbit reticulocyte E217K as a UBC7 homologue and functional characterization of its core domain loop. 1032 63

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