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)

All known functions of ubiquitin are mediated through its covalent attachment to other proteins. The post-translational formation of ubiquitin--protein conjugates is preceded by an ATP-requiring step in which the carboxyl terminus of ubiquitin is adenylated and subsequently joined, through a thiolester bond, to a cysteine residue in the ubiquitin-activating enzyme, also known as E1. We report the isolation and functional analysis of the gene (UBA1) for the ubiquitin-activating enzyme of the yeast Saccharomyces cerevisiae. UBA1 encodes a 114 kd protein whose amino acid sequence contains motifs characteristic of nucleotide-binding sites. Expression of catalytically active UBA1 protein in E. coli, which lacks the ubiquitin system, confirmed that the yeast UBA1 gene encodes a ubiquitin-activating enzyme. Deletion of the UBA1 gene is lethal, demonstrating that the formation of ubiquitin--protein conjugates is essential for cell viability.
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PMID:UBA 1: an essential yeast gene encoding ubiquitin-activating enzyme. 198 85

E6-AP is a 100-kDa cellular protein that interacts with the E6 protein of the cancer-associated human papillomavirus types 16 and 18. The E6/E6-AP complex binds to and targets the p53 tumor-suppressor protein for ubiquitin-mediated proteolysis. E6-AP is an E3 ubiquitin-protein ligase which accepts ubiquitin from an E2 ubiquitin-conjugating enzyme in the form of a thioester and then directly transfers the ubiquitin to targeted substrates. The amino acid sequence of E6-AP shows similarity to a number of protein sequences over an approximately 350-aa region corresponding to the carboxyl termini of both E6-AP and the E6-AP-related proteins. Of particular note is a conserved cysteine residue within the last 32-34 aa, which in E6-AP is likely to be the site of ubiquitin thioester formation. Two of the E6-AP-related proteins, a rat 100-kDa protein and a yeast 95-kDa protein (RSP5), both of previously unknown function, are shown here to form thioesters with ubiquitin. Mutation of the conserved cysteine residue of these proteins destroys their ability to accept ubiquitin. These data strongly suggest that the rat 100-kDa protein and RSP5, as well as the other E6-AP-related proteins, belong to a class of functionally related E3 ubiquitin-protein ligases, defined by a domain homologous to the E6-AP carboxyl terminus (hect domain).
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PMID:A family of proteins structurally and functionally related to the E6-AP ubiquitin-protein ligase. 776 80

Ubiquitination of proteins involves the concerted action of the E1 ubiquitin-activating enzyme, E2 ubiquitin-conjugating enzymes and E3 ubiquitin-protein ligases. It has been proposed that E3s function as 'docking proteins', specifically binding substrate proteins and specific E2s, and that ubiquitin is then transferred directly from E2s to substrates. We show here that formation of a ubiquitin thioester on E6-AP, an E3 involved in the human papillomavirus E6-induced ubiquitination of p53 (refs 6-10), is an intermediate step in E6-AP-dependent ubiquitination. The order of ubiquitin transfer is from E1 to E2, from E2 to E6-AP, and finally from E6-AP to a substrate. This cascade of ubiquitin thioester complexes suggests that E3s have a defined enzymatic activity and do not function simply as docking proteins. The cysteine residue of E6-AP responsible for ubiquitin thioester formation was mapped to a region that is highly conserved among several proteins of unknown function, suggesting that these proteins share the ability to form thioesters with ubiquitin.
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PMID:Protein ubiquitination involving an E1-E2-E3 enzyme ubiquitin thioester cascade. 780 44

Conjugation of multiple ubiquitins serves as a committed step in the degradation of a variety of intracellular eukaryotic proteins by the 26S proteasome. Conjugates are formed via a three-enzyme cascade; the initial step requires ubiquitin-activating enzyme (E1), which couples ubiquitin activation to ATP hydrolysis. Previously, we showed that many higher plants contain multiple E1 proteins and described several E1 genes from wheat. To facilitate understanding of the roles of the different plant E1s, we characterized the E1 gene and protein family from Arabidopsis thaliana. Arabidopsis E1s are encoded by two genes (AtUBA1 and AtUBA2) that synthesize approximately 123-kDa proteins with 81% amino acid sequence identity to each other and 44-75% sequence identity with confirmed E1s from other organisms. Like other E1 proteins, AtUBA1 and 2 contain a cysteine residue in the putative active site for forming the ubiquitin thiol-ester intermediate. Enzymatic analysis of the corresponding proteins expressed in Escherichia coli demonstrated that both proteins activate ubiquitin in an ATP-dependent reaction and transfer the activated ubiquitin to a variety of Arabidopsis E2s with near equal specificity. Expression studies by quantitative RT-PCR and histochemistry with transgenic plants containing AtUBA promoter-beta-glucuronidase-coding region fusions showed that the AtUBA1 and 2 genes are co-expressed in most, if not all, Arabidopsis tissues and cells. Collectively, the data indicate that E1 proteins, and presumably the rest of the ubiquitin pathway, are present throughout Arabidopsis. They also show that the AtUBA1 and 2 genes are not differentially expressed nor do they encode E1s with dramatically distinct enzymatic properties.
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PMID:The ubiquitin-activating enzyme (E1) gene family in Arabidopsis thaliana. 907 89

The Saccharomyces cerevisiae ubiquitin-conjugating enzyme (UBC) Rad6 is required for several functions, including the repair of UV damaged DNA, damage-induced mutagenesis, sporulation, and the degradation of cellular proteins that possess destabilizing N-terminal residues. Rad6 mediates its role in N-end rule-dependent protein degradation via interaction with the ubiquitin-protein ligase Ubr1 and in DNA repair via interactions with the DNA binding protein Rad18. We report here the crystal structure of Rad6 refined at 2.6 A resolution to an R factor of 21.3%. The protein adopts an alpha/beta fold that is very similar to other UBC structures. An apparent difference at the functionally important first helix, however, has prompted a reassessment of previously reported structures. The active site cysteine lies in a cleft formed by a coil region that includes the 310 helix and a loop that is in different conformations for the three molecules in the asymmetric unit. Residues important for Rad6 interaction with Ubr1 and Rad18 are on the opposite side of the structure from the active site, indicating that this part of the UBC surface participates in protein-protein interactions that define Rad6 substrate specificity.
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PMID:Crystal structure of the Saccharomyces cerevisiae ubiquitin-conjugating enzyme Rad6 at 2.6 A resolution. 949 53

The onset of apoptosis is coupled to the proteolytic activation of a family of cysteine proteases, termed caspases. These proteases cleave their target proteins after an aspartate residue. Following caspase activation during apoptosis, a number of specific proteins have been shown to be cleaved. Here we show that Nedd4, a ubiquitin-protein ligase containing multiple WW domains and a calcium/lipid-binding domain, is also cleaved during apoptosis induced by a variety of stimuli including Fas-ligation, gamma-radiation, tumor necrosis factor-alpha, C-8 ceramide, and etoposide treatment. Extracts from apoptotic cells also generated cleavage patterns similar to that seen in vivo, and this cleavage was inhibited by an inhibitor of caspase-3-like proteases. In vitro, Nedd4 was cleaved by a number of caspases, including caspase-1, -3, -6, and -7. By site-directed mutagenesis, one of the in vitro caspase cleavage sites in mouse Nedd4 was mapped to a DQPD237 downward arrow sequence, which is conserved between mouse, rat, and human proteins. This is the first report demonstrating that an enzyme of the ubiquitin pathway is cleaved by caspases during apoptosis.
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PMID:Caspase-mediated cleavage of the ubiquitin-protein ligase Nedd4 during apoptosis. 959 87

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

In the yeast Saccharomyces cerevisiae, the Apg12p-Apg5p conjugating system is essential for autophagy. Apg7p is required for the conjugation reaction, because Apg12p is unable to form a conjugate with Apg5p in the apg7/cvt2 mutant. Apg7p shows a significant similarity to a ubiquitin-activating enzyme, Uba1p. In this article, we investigated the function of Apg7p as an Apg12p-activating enzyme. Hemagglutinin-tagged Apg12p was coimmunoprecipitated with c-myc-tagged Apg7p. A two-hybrid experiment confirmed the interaction. The coimmunoprecipitation was sensitive to a thiol-reducing reagent. Furthermore, a thioester conjugate of Apg7p was detected in a lysate of cells overexpressing both Apg7p and Apg12p. These results indicated that Apg12p interacts with Apg7p via a thioester bond. Mutational analyses of Apg7p suggested that Cys507 of Apg7p is an active site cysteine and that both the ATP-binding domain and the cysteine residue are essential for the conjugation of Apg7p with Apg12p to form the Apg12p-Apg5p conjugate. Cells expressing mutant Apg7ps, Apg7pG333A, or Apg7pC507A showed defects in autophagy and cytoplasm-to-vacuole targeting of aminopeptidase I. These results indicated that Apg7p functions as a novel protein-activating enzyme necessary for Apg12p-Apg5p conjugation.
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PMID:Apg7p/Cvt2p: A novel protein-activating enzyme essential for autophagy. 1023 50

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

Ubiquitin-conjugating enzymes (Ubc) are involved in ubiquitination of proteins in the protein degradation pathway of eukaryotic cells. Ubc transfers the ubiquitin (Ub) molecules to target proteins by forming a thioester bond between their active site cysteine residue and the C-terminal glycine residue of ubiquitin. Here, we report on the NMR assignment and secondary structure of class I human ubiquitin-conjugating enzyme 2b (HsUbc2b). Chemical shift perturbation studies allowed us to map the contact area and binding interface between ubiquitin and HsUbc2b by1H-15N HSQC NMR spectroscopy. The serine mutant of the active site Cys88 of HsUbc2b was employed to obtain a relatively stable covalent ubiquitin complex of HsUbc2b(C88S). Changes in chemical shifts of amide protons and nitrogen atoms induced by the formation of the covalent complex were measured by preparing two segmentally labeled complexes with either ubiquitin or HsUbc2b(C88S)15N-labeled. In ubiquitin, the interaction is primarily sensed by the C-terminal segment Val70 - Gly76, and residues Lys48 and Gln49. The surface area on ubiquitin, as defined by these residues, overlaps partially with the presumed binding site with ubiquitin-activating enzyme (E1). In HsUbc2b, most of the affected residues cluster in the vicinity of the active site, namely, around the active site Cys88 itself, the second alpha-helix, and the flexible loop which connects helices alpha2 and alpha3 and which is adjacent to the active site. An additional site on HsUbc2b for a weak interaction with ubiquitin could be detected in a titration study where the two proteins were not covalently linked. This site is located on the backside of HsUbc2b opposite to the active site and is part of the beta-sheet. The covalent and non-covalent interaction sites are clearly separated on the HsUbc2b surface, while no such clear-cut segregation of the interaction area was observed on ubiquitin.
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PMID:Characterization of the binding interface between ubiquitin and class I human ubiquitin-conjugating enzyme 2b by multidimensional heteronuclear NMR spectroscopy in solution. 1038 68


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