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)

Ubiquitin-conjugating enzymes (E2s), which participate in the post-translational conjugation of ubiquitin to proteins, are encoded by a multigene family in the yeast Saccharomyces cerevisiae. E2s function in a variety of cellular activities including intracellular proteolysis, DNA repair, sporulation, and cell cycle traverse. Here, we report the cloning and characterization of a new member of the yeast UBC gene family, UBC8. UBC8 encodes a 206-amino acid protein containing a highly acidic carboxyl terminus. The primary structure of the protein is similar to that of all other known E2s, with the highest homology being to the E2 (23 kDa) of wheat germ. Haploid strains in which the UBC8 gene is disrupted are viable, and the disruption does not produce any obvious phenotype. The UBC8 protein, produced in Escherichia coli, forms thiol ester adducts with ubiquitin and, apparently, diubiquitin, but does not transfer ubiquitin to histones.
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PMID:Cloning and characterization of a Saccharomyces cerevisiae gene encoding a new member of the ubiquitin-conjugating protein family. 186 73

Porcine lymphocytes and fibroblasts were fused with 3 different permanent rodent cell lines, and 21 stable somatic cell hybrid lines were established. These hybrid cell lines were characterized cytogenetically by sequential QFQ banding and chromosome painting using fluorescence in situ hybridization with porcine DNA. The lines were further characterized by PCR analysis with primer pairs derived from genes with confirmed mapping information. Using this panel, we assigned the locus encoding polyubiquitin (UBC) to chromosome 14, and the transition protein 2 locus (TNP2) and protamine loci (PRM1 and PRM2) to chromosome 3. Two chromosomal localizations have been further refined by radioactive in situ hybridization. UBC maps to chromosome 14q12-q15 and TNP2 to 3p11-p12.
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PMID:Establishment of a partially informative porcine somatic cell hybrid panel and assignment of the loci for transition protein 2 (TNP2) and protamine 1 (PRM1) to chromosome 3 and polyubiquitin (UBC) to chromosome 14. 795 32

Because of the conservation of the ubiquitin coding sequence and the number of transcriptionally active genes and reverse-transcribed pseudogenes, it has not been possible to use ubiquitin cDNA clones to map the functional ubiquitin genes. The UBB and UBC polyubiquitin genes have previously been mapped by the use of specific intron or 5' flanking sequence probes. In this study, we have used an intron sequence from the UBA52 gene for chromosome mapping studies. Analysis of somatic cell hybrids containing individual human chromosomes indicated that the UBA52 gene is located on chromosome 19. In situ hybridization studies confirmed the chromosomal localization but showed two peaks of hybridization: a major one over 19p13.1-p12 and a secondary one over 19q12-q13.11. Because the peak of hybridization over 19p13.1-p12 was consistently the strongest in five individuals, it is likely that this is the location of the UBA52 gene. Thus far, three of the four transcriptionally active ubiquitin genes have been assigned to separate chromosomes.
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PMID:Localization of the human UBA52 ubiquitin fusion gene to chromosome band 19p13.1-p12. 818

The Caenorhabditis elegans ubiquitin-conjugating enzyme UBC-1 is distinct from other RAD6 homologues in possessing a C-terminal tail 40 amino acid residues long [Leggett, Jones and Candido (1995) DNA Cell Biol. 14, 883-891]. Such extensions from the core catalytic domain have been found in a subset of known conjugating enzymes, where they have been shown to have diverse roles including target recognition, membrane attachment and sporulation. In the present study we used mutagenesis in vitro to examine the role of the tail in specific aspects of UBC-1 structure and activity. Cross-linking experiments with purified recombinant UBC-1 reveal that it forms dimers and probably tetramers. The acidic tail of UBC-1 has an important role in this interaction because deletions of the tail significantly decrease, but do not abolish, this self-association. Ubiquitin conjugation assays show that, in addition to accepting a thiol-bound ubiquitin at its active site, UBC-1 is stably mono-ubiquitinated. Deletion analysis and site-directed mutagenesis localize the site of ubiquitination to Lys-162 in the tail. These findings demonstrate that the C-terminal tail of UBC-1 is important both for its quaternary structure and post-translational modification in vitro.
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PMID:Biochemical characterization of Caenorhabditis elegans UBC-1: self-association and auto-ubiquitination of a RAD6-like ubiquitin-conjugating enzyme in vitro. 935 1

Ubiquitin-conjugating enzymes (E2s) play a central role in ubiquitylation. They function to bridge the first, nonspecific step of ubiquitin activation by E1 with the transfer of activated ubiquitin to substrates by substrate-specific E3s. While sharing a common core UBC domain, members of this family exhibit significant specificity in their physical and functional interactions with E3s. Among the families of E2s, members of the yeast Ubc4/5 family are particularly well conserved in higher metazoans. In humans, these are represented by the UbcH5 family. Members of this ubiquitously expressed family show a capacity to interact with a wide range of E3s from both HECT and RING finger families, making them particularly useful tools in the laboratory. Using the UbcH5 family as a prototype, this chapter describes methods for the expression, purification, and characterization of E2 enzymes in vitro and some of the basics for their use in experiments in cells.
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PMID:Expression, purification, and properties of the Ubc4/5 family of E2 enzymes. 1627 19

Ubiquitin charging and activation of class III E2 enzymes has been directly linked to their nuclear import. It has not been published whether other classes E2s also abide by this mechanism. During the large-scale sequencing analysis of a human fetal brain cDNA library, we isolated a cDNA clone that is 2252 base pair in length, encoding a putative 162 amino acid protein, which shares high homology to Arabidopsis thaliana ubiquitin-conjugating enzyme 16 (Accession number NP_565110, 51% identity and 71% similarity) at protein level. Bioinformatics analysis revealed that the gene is composed of 7 exons, located on human chromosome 8q13-8q21.1, and that the predicted protein of the gene is a class I E2, for only composed of a conserved approximately 150-amino acid catalytic core, ubiquitin-conjugating enzyme E2 domain (UBC domain). In the C-terminal of the UBC domain sequence, there are two nuclear localization signals (NLSs). RT-PCR showed that this gene is ubiquitously expressed in 16 kinds of normal human tissues, but expression level is very low, unless in human heart, brain, liver, and pancreas. The subcellular localizations of the new human Ubiquitin conjugating enzyme E2 and its mutation were also examined, which showed that the nuclear localization of hUBC16 depended on two conditions: It has NLS, and at the same time, has enzyme active site, too, at least in HEK293 cells.
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PMID:Cloning, characterization and subcellular localization of a gene encoding a human Ubiquitin-conjugating enzyme (E2) homologous to the Arabidopsis thaliana UBC-16 gene product. 1636 32

Ubiquitin conjugating enzyme functions as the second enzyme required for protein ubiquitination and plays an important role in ubiquitin transferring and substrate specific recognition. UBE2W, a newly described member of E2 family, was formerly reported probably involving in phototransduction or retinal degeneration in Drosophila. In this study, we report that murine UBE2W harbors a typical UBC domain and is highly conserved in different vertebrate homologues. GST-tagged UBE2W was expressed in E. coli BL21 (DE3) and purified with GST affinity chromatography. Using this antigen, we generated and further separated rabbit polyclonal antibody of UBE2W, of which the activity and specificity were confirmed by immunoblotting of transiently expressed myc-UBE2W fusion protein. Wide expression of UBE2W was found in brain, muscle, heart, lung, liver, spleen, kidney and testis of mouse with the generated antibody, indicating the functional importance of this novel protein. Furthermore, the UBE2W highly expression was confined to the adult testis and was developmental stage-specific.
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PMID:[Generation of mouse UBE2W antibody and analysis of UBE2W expression in mouse tissues]. 1861 60

The regulation of AMPA-type glutamate receptor (AMPAR) membrane trafficking is a key mechanism by which neurons regulate synaptic strength and plasticity. AMPAR trafficking is modulated through a combination of receptor phosphorylation, ubiquitination, endocytosis, and recycling, yet the factors that mediate these processes are just beginning to be uncovered. Here we identify the ubiquitin-conjugating enzyme variant UEV-1 as a regulator of AMPAR trafficking in vivo. We identified mutations in uev-1 in a genetic screen for mutants with altered trafficking of the AMPAR subunit GLR-1 in C. elegans interneurons. Loss of uev-1 activity results in the accumulation of GLR-1 in elongated accretions in neuron cell bodies and along the ventral cord neurites. Mutants also have a corresponding behavioral defect--a decrease in spontaneous reversals in locomotion--consistent with diminished GLR-1 function. The localization of other synaptic proteins in uev-1-mutant interneurons appears normal, indicating that the GLR-1 trafficking defects are not due to gross deficiencies in synapse formation or overall protein trafficking. We provide evidence that GLR-1 accumulates at RAB-10-containing endosomes in uev-1 mutants, and that receptors arrive at these endosomes independent of clathrin-mediated endocytosis. UEV-1 homologs in other species bind to the ubiquitin-conjugating enzyme Ubc13 to create K63-linked polyubiquitin chains on substrate proteins. We find that whereas UEV-1 can interact with C. elegans UBC-13, global levels of K63-linked ubiquitination throughout nematodes appear to be unaffected in uev-1 mutants, even though UEV-1 is broadly expressed in most tissues. Nevertheless, ubc-13 mutants are similar in phenotype to uev-1 mutants, suggesting that the two proteins do work together to regulate GLR-1 trafficking. Our results suggest that UEV-1 could regulate a small subset of K63-linked ubiquitination events in nematodes, at least one of which is critical in regulating GLR-1 trafficking.
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PMID:UEV-1 is an ubiquitin-conjugating enzyme variant that regulates glutamate receptor trafficking in C. elegans neurons. 2117 94

Ubiquitin-dependent protein degradation within malarial parasites is a burgeoning field of interest due to several encouraging reports of proteasome inhibitors that were able to confer antimalarial activity. Despite the growing interest in the Plasmodium proteasome system, relatively little investigation has been done to actually characterize the parasite degradation machinery. In this report, we provide an initial biological investigation of the ubiquitylating components of the endoplasmic reticulum-associated degradation (ERAD) system, which is a major pathway in targeting misfolded proteins from the ER to the cytosol for proteasome degradation. We are able to show that the ERAD system is essential for parasite survival and that the putative Plasmodium HRD1 (E3 ubiquitin ligase), UBC (E2 ubiquitin conjugating enzyme) and UBA1 (E1 ubiquitin activating enzyme) are able to mediate in vitro ubiquitylation. Furthermore, by using immunofluorescence, we report that Plasmodium HRD1 localizes to the ER membranes, while the Plasmodium UBC and UBA1 localize to the cytosol. In addition, our gene disruption experiments indicate that the Plasmodium HRD1 is likely essential. We have conducted an initial characterization of the ubiquitylating components of the Plasmodium ERAD system, a major pathway for protein degradation and parasite maintenance. In conjunction with promising proteasome inhibitor studies, we explore the possibility of targeting the Plasmodium ERAD system for future bottom-up drug development approaches.
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PMID:Characterization of the ubiquitylating components of the human malaria parasite's protein degradation pathway. 2291 82

In Caenorhabditis elegans, fertilization triggers endocytosis and rapid turnover of maternal surface membrane proteins in lysosomes, although the precise mechanism of this inducible endocytosis is unknown. We found that high levels of K63-linked ubiquitin chains transiently accumulated on endosomes upon fertilization. Endocytosis and the endosomal accumulation of ubiquitin were both regulated downstream of the anaphase-promoting complex, which drives the oocyte's meiotic cell cycle after fertilization. The clearance of maternal membrane proteins and the accumulation of K63-linked ubiquitin on endosomes depended on UBC-13 and UEV-1, which function as an E2 complex that specifically mediates chain elongation of K63-linked polyubiquitin. CAV-1-GFP, an endocytic cargo protein, was modified with K63-linked polyubiquitin in a UBC-13/UEV-1-dependent manner. In ubc-13 or uev-1 mutants, CAV-1-GFP and other membrane proteins were internalized from the plasma membrane normally after fertilization. However, they were not efficiently targeted to the multivesicular body (MVB) pathway but recycled to the cell surface. Our results suggest that UBC-13-dependent K63-linked ubiquitylation is required for proper MVB sorting rather than for internalization. These results also demonstrate a developmentally controlled function of K63-linked ubiquitylation.
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PMID:Fertilization-induced K63-linked ubiquitylation mediates clearance of maternal membrane proteins. 2459 90

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