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)

A polyubiquitin clone (ubi7) was isolated from a potato (Solanum tuberosum) genomic library using a copy-specific probe from a stress-induced ubiquitin cDNA. The genomic clone contained a 569-bp intron immediately 5' to the initiation codon for the first ubiquitin-coding unit. Two chimeric beta-glucuronidase (GUS) fusion transgenes were introduced into potato. The first contained GUS fused to a 1156-bp promoter fragment containing only 5' flanking and 5' untranslated sequences from ubi7. The second transgene contained GUS translationally fused to the carboxy terminus of the first ubiquitin-coding unit and thus included the intron present in the 5' untranslated region of the polyubiquitin gene. Both ubi7-GUS transgenes were activated by wounding in tuber tissue and in leaves by application of exogenous methyl jasmonate. They were also expressed constitutively in the potato tuber peel (outer 1-2 mm). Both transgenes were actively expressed in mature leaves. Exceptionally high levels of expression were observed in senescent leaves. Transgenic clones containing the ubi7 intron and the first ubiquitin-coding unit showed GUS expression levels at least 10 times higher than clones containing GUS fused to the intronless promoter.
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PMID:Isolation of a polyubiquitin promoter and its expression in transgenic potato plants. 853 96

Ubiquitin is expressed in eukaryotic cells as precursors, fused via its carboxyl terminus either to other ubiquitin sequences in linear polyubiquitin arrays or to specific ribosomal proteins. In some of the polyubiquitin fusions a single amino acid (e.g., valine in humans) is attached to the carboxyl terminus. These gene products are rapidly (probably cotranslationally) cleaved by ubiquitin carboxyl-terminal hydrolase (UCH) enzymes; therefore, although ubiquitin precursors are suitable substrates for assays of UCH activity, they are difficult to isolate from nucleated cells. While the recombinant approach allows the production of ubiquitin precursors in prokaryotic cells (which do not contain the ubiquitin system), proteins produced in this manner require purification and may also be susceptible to modification by bacterial enzymes, e.g., adventitious proteolysis. As an alternative we have chemically synthesized human ubiquitin-valine. In the assay described here the cleavage of ubiquitin-valine to ubiquitin (77 and 76 residue proteins, respectively) by a purified recombinant Drosophila UCH was monitored by capillary electrophoresis. Mass spectrometry verified the precise cleavage of ubiquitin-valine, confirming that this synthetic protein is a UCH substrate. Synthetic ubiquitin-valine may serve as a generic substrate for UCHs allowing the purification and identification of new members of this enzyme family.
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PMID:Capillary electrophoresis assay for ubiquitin carboxyl-terminal hydrolases with chemically synthesized ubiquitin-valine as substrate. 917 92

Individual members of the conserved family of ubiquitin conjugating enzymes (E2s) mediate the ubiquitination and turnover of specific substrates of the ubiquitin-dependent degradation pathway. E2 proteins have a highly conserved core domain of approximately 150 amino acids which contains the active-site Cys. Certain E2s have unique terminal extensions, which are thought to contribute to selective E2 function by interacting either with substrates or with trans-acting factors such as ubiquitin-protein ligases (E3s). We used the mammalian ubiquitin conjugating enzyme E2-25K in a biochemical test of this hypothesis. The properties of two truncated derivatives show that the 47-residue tail of E2-25K is necessary for three of the enzyme's characteristic properties: high activity in the synthesis of unanchored K48-linked polyubiquitin chains; resistance of the active-site Cys residue to alkylation; and an unusual discrimination against noncognate (nonmammalian) ubiquitin activating (E1) enzymes. However, the tail is not sufficient to generate these properties, as shown by the characteristics of a chimeric enzyme in which the tail of E2-25K was fused to the core domain of yeast UBC4. These and other results indicate that the specific biochemical function of the tail is strongly dependent upon unique features of the E2-25K core domain. Thus, divergent regions within the conserved core domains of E2 proteins may be highly significant for function. Expression of truncated E2-25K as a glutathione S-transferase (GST) fusion protein resulted in the apparent recovery of E2-25K-specific properties, including activity in chain synthesis. However, the catalytic mechanism utilized by the truncated fusion protein proved to be distinct from the mechanism utilized by the wild-type enzyme. The unexpected properties of the fusion protein were due to GST-induced dimerization. These results indicate the potential for self-association to modulate the polyubiquitin chain synthesis activities of E2 proteins, and indicate that caution should be applied in interpreting the activities of GST fusion proteins.
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PMID:Structure and function of ubiquitin conjugating enzyme E2-25K: the tail is a core-dependent activity element. 926 33

We have determined the complete nucleotide sequence of two chicken cDNAs, Ub-t52 and Ub-t80, encoding ubiquitin fused to ribosomal proteins of 52 and 80 amino acids. The deduced amino acid sequences of the ribosomal proteins are identical or very similar to the homologous human and rat proteins and to the corresponding proteins of other species. Unexpectedly, the ubiquitin moiety of the Ub-t52 protein showed two amino acid substitutions: serine-20 has been replaced by asparagine and serine-57 by alanine. Ubiquitin is a protein strongly conserved during evolution, with no changes in sequence previously reported in vertebrates. Ub-t52 and Ub-t80 are highly expressed in early embryogenesis and during postmitotic stages of spermatogenesis, in parallel with the expression of the polyubiquitin gene UbII. Whereas the 5' untranslated regions (5'UTRs) of the chicken polyubiquitin mRNAs showed marked differences in mature testes in relation to somatic tissues, no differences were observed in the 5'UTRs of the ubiquitin-ribosomal protein mRNAs. These mRNAs possess a 5'-terminal oligopyrimidine tract that could be used as a mechanism to postpone translation during postmitotic stages of spermatogenesis, as has been proposed in quiescent cells.
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PMID:Characterization and expression of two chicken cDNAs encoding ubiquitin fused to ribosomal proteins of 52 and 80 amino acids. 930 77

Ubiquitin is highly conserved 76 amino acid protein involved, among other functions, in the selective degradation of proteins in the cell. From a tomato (Lycopersicon esculentum Mill. cv. Craigella) genomic library, we have isolated a clone encoding a polyubiquitin gene, designated ubq1-1 comprising seven repeats of ubiquitin and two C-terminal extension amino acids. The ubq1-1 gene contains an intron of 1128bp immediately upstream of the translation start codon. DNA sequence comparison revealed that the 5' and 3' non-coding regions of the tomato ubq1-1 gene are nearly identical to the sequence of a polyubiquitin cDNA clone isolated from potato (Garbarino et al., 1992; Plant Mol. Biol. 20, 235-244). The ubq1-1 gene is expressed in leaves to rather low levels in tomato, and the abundance of ubq1-1 transcripts is increased under heat shock conditions. For functional analyses, a chimeric gene construct containing the intron and 1.6kb of ubq1-1 sequence 5' to the intron fused to the gus reporter gene was introduced into the tobacco genome. In leaves of transgenic tobacco plants, reporter gene expression was generally lower from the ubq1-1 promoter than from the cauliflower mosaic virus 35S RNA promoter. In addition, the tomato ubq1-1 promoter was not found to respond to heat shock in transgenic tobacco plants. Histochemical analysis of the plants demonstrated localization of gus reporter gene activity in the vascular systems of the leaves and the roots. Deletion of the intron from the reporter gene construct markedly reduced reporter gene expression in transformed tobacco plants, thus suggesting that the intron may influence transcript levels deriving from the ubq1-1 promoter.
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PMID:Characterization and expression of a heptaubiquitin gene from tomato. 960 46

Ubiquitin-dependent proteolysis plays an important role in cell-cycle control [1] [2]. In budding yeast, the protein Skp1p, the cullin-family member Cdc53p, and the F-box/WD-repeat protein Cdc4p form the SCFCdc4p ubiquitin ligase complex, which targets the cyclin-dependent kinase (Cdk) inhibitor Sic1p for proteolysis [3] [4] [5] [6] [7] [8]. Sic1p is recruited to the SCFCdc4p complex by binding to the WD-repeat region of Cdc4p [5] [6], while Skp1p binds to the F-box of Cdc4p [9]. In fission yeast, two distinct Cdc4p-related proteins, Pop1p/Ste16p [10] [11] and the recently identified Sud1p/Pop2p [12], regulate the stability of the replication initiator Cdc18p and the Cdk inhibitor Rum1p. We show here that, despite their structural and functional similarities, the pop1 and pop2 genes fail to complement each other's deletion phenotypes, indicating that they perform non-redundant, but potentially interdependent, functions in proteolysis. Consistent with this hypothesis, Pop1p and Pop2p formed heterooligomeric complexes when overexpressed, and binding of Cdc18p to Pop2p was dependent on Pop1p. The Pop1p-Pop2p interaction was mediated by the amino-terminal domain of Pop2p which, when fused to full-length Pop1p, rescued the phenotype of a Deltapop1Deltapop2 double mutant. Thus, close physical proximity of two distinct F-box/WD-repeat proteins directs proteolysis mediated by the SCFPop ubiquitin ligase complex.
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PMID:F-box/WD-repeat proteins pop1p and Sud1p/Pop2p form complexes that bind and direct the proteolysis of cdc18p. 1020 19

We isolated a novel sporulation-deficient mutant of Schizosaccharomyces pombe. The mutant did not have a mitotic growth defect but aborted meiosis at the first or the second division with condensed chromosomes that failed to separate, abnormal spindle(s), and disintegrated spindle pole bodies (SPBs). During the first division, the centromeres were pulled to near the spindle poles but condensed divalent chromosomes remained at the center. The failure to proceed to anaphase was also observed during a time-lapse recording of a SPB protein tagged with green fluorescent protein. The polyubiquitin gene ubi4(+), which encoded eight ubiquitins fused in tandem, complemented this mutant. The mutation, an A to G substitution, was identified within the ubi4(+) gene at the ATG initiation codon. Disruption of the ubi4(+) gene produced the same phenotypes. The ubi4(+) mRNA was strongly induced for meiosis. However, ubiquitin increases only slightly, suggesting that the role of the polyubiquitin gene is to supply ubiquitin that is consumed by unidentified mechanisms. Before the ubi4 mutant cells entered meiosis, ubiquitin was greatly decreased indicating that shortage of ubiquitin caused abortion of meiosis. This work provides insights for the role of polyubiquitin gene and importance of ubiquitination in SPB integrity at the meiotic divisions.
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PMID:The polyubiquitin gene is essential for meiosis in fission yeast. 1062 74

Ubiquitin is a highly conserved 76 amino acid protein that is generated in the cell by proteolysis of larger proteins containing either polyubiquitin chains or ubiquitin fused to carboxyl extension proteins (CEPs). In humans, the two human ubiquitin-CEP genes are Uba80 and Uba52, which code for ubiquitin fused to ribosomal protein S27a and L40, respectively. Working from a recently generated physical map of human chromosome 2p16, we determined the genetic and physical location and the genomic structure of the Uba80 gene in its entirety. A comparison of Uba80 to Uba52 revealed that the two genes share a conserved 5'-end structure, but that the structure of the ubiquitin coding regions was not conserved. Analysis of 400 bp of the promoter of Uba80 revealed strong similarity not only to the Uba52 promoter, but also to the other known human ribosomal gene promoters that have been identified to date. Homology searches also detected the presence of a pseudogene for Uba80, and the structure of this sequence feature is also reported.
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PMID:Structure of the human ubiquitin fusion gene Uba80 (RPS27a) and one of its pseudogenes. 1077 58

Using a polyubiquitin cDNA as a probe, we have isolated a clone (pPR3, a pEMBLYe23 derivative plasmid) containing the Candida albicans UBI3 gene coding for a fusion protein. This protein is formed by one ubiquitin subunit fused, at its C-terminus, to an unrelated peptide which is similar to the ribosomal protein encoded by the 3' tail of the Saccharomyces cerevisiae UBI3 gene. Southern blot analysis of chromosomal DNA probed with the 3' non-ubiquitin tail of UBI3 indicated that only one homologous gene is present in the C. albicans genome. Heterelogous expression of pPR3 in a S. cerevisiae ubi3 mutant strain complements the mutant phenotype (slow growth) conferred by the ubi3 defect; this provides direct evidence indicating that the clone contains the C. albicans UBI3 gene Northern blot analysis showed that UBI3 gene is expressed in yeast and germ-tube cells of C. albicans, although the UBI3 mRNA levels in starved yeast cells are below the detection limit; UBI3 mRNA drops to undetectable levels on shifting the temperature of growing yeast cells from 28 degrees C to 42 degrees C. When Northern blot analysis was performed using a specific probe for the polyubiquitin (UBI4) gene, no drop in the mRNA levels was detected following thermal upshift or in starved cells. These results indicate that stress conditions (starvation or thermal upshift) negatively regulate UBI3 expression (transcriptional arrest and/or enhanced mRNA decay), and suggest that UBI4 gene provides ubiquitin during the stress response. In addition, we failed to obtain C. albicans UBI3 null mutant cells by sequential disruption of both alleles using the hisG::URA3::hisG ('ura-blaster') cassette, suggesting that null mutants cells may be unable to grow on selective media after transformation.
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PMID:Molecular cloning and characterization of the Candida albicans UBI3 gene coding for a ubiquitin-hybrid protein. 1105 22

Ubiquitin-dependent proteolysis is a major proteolytic pathway in the cytoplasm and nucleus of eukaryotic cells. We introduced a gene encoding a substrate for this pathway into the genome of Arabidopsis thaliana. The transgene codes for a hybrid protein consisting of dihydrofolate reductase (DHFR, EC 1.5.1.3) fused to a degradation signal that is specifically recognized by components of the ubiquitin-dependent proteolysis pathway. Elevated concentrations of the DHFR protein confer resistance to the drug methotrexate, but rapid degradation prevents accumulation of the protein in the plant. Therefore, transgenic A. thaliana lines expressing the DHFR fusion protein are methotrexate-sensitive. Selection for mutants resistant to methotrexate resulted in plants impaired in degradation of the DHFR model substrate, as shown by an increase in protein level in the mutants.
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PMID:Use of a reporter transgene to generate arabidopsis mutants in ubiquitin-dependent protein degradation. 1160 48

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