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-mediated degradation plays a crucial role in many fundamental biological pathways, including the mediation of cellular responses to changes in environmental conditions. A family of ubiquitin ligase complexes, called SCF complexes, found throughout eukaryotes, is involved in a variety of biological pathways. In Saccharomyces cerevisiae, an SCF complex contains a common set of components, namely, Cdc53p, Skp1p, and Hrt1p. Substrate specificity is defined by a variable component called an F-box protein. The F- box is a approximately 40-amino-acid motif that allows the F-box protein to bind Skp1p. Each SCF complex recognizes different substrates according to which F-box protein is associated with the complex. In yeasts, three SCF complexes have been demonstrated to associate with the ubiquitin-conjugating enzyme Cdc34p and have ubiquitin ligase activity. F-box proteins are not abundant and are unstable. As part of the SCF(Met30p) complex, the F-box protein Met30p represses methionine biosynthetic gene expression when availability of L-methionine is high. Here we demonstrate that in vivo SCF(Met30p) complex activity can be regulated by the abundance of Met30p. Furthermore, we provide evidence that Met30p abundance is regulated by the availability of L-methionine. We propose that the cellular responses mediated by an SCF complex are directly regulated by environmental conditions through the control of F-box protein stability.
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PMID:The abundance of Met30p limits SCF(Met30p) complex activity and is regulated by methionine availability. 1102 56

Selective protein degradation by the ubiquitin-proteosome pathway has recently emerged as a powerful regulatory mechanism in a wide variety of cellular processes. Ubiquitin conjugation requires the sequential activity of three enzymes or protein complexes called the ubiquitin-activating enzyme (E1), the ubiquitin-conjugating enzyme (E2), and the ubiquitin-protein ligase (E3). In most eukaryotes, there are a small number of similar E1 isoforms without apparent functional specificity. The specific selection of target proteins is accomplished by the E2 and E3 proteins. One of the best-characterized families of E3s are the SCF complexes. The SCF is composed of a cullin (Cdc53), SKP1, RBX1 and one member of a large family of proteins called F-box proteins. The function of the F-box protein is to interact with target proteins. In some cases, the stability of the F-box protein may regulate activity of the SCF complex. In addition, post-translational modification of the cullin subunit by the ubiquitin-like protein RUB/NEDD8 appears to regulate SCF function. In plants, the SCF has so far been implicated in floral development, circadian clock, and response to the plant growth regulators auxin and jasmonic acid.
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PMID:F-box proteins and protein degradation: an emerging theme in cellular regulation. 1111 56

Although polyubiquitin chains linked through Lys(29) of ubiquitin have been implicated in the targeting of certain substrates to proteasomes, the signaling properties of these chains are poorly understood. We previously described a ubiquitin-protein isopeptide ligase (E3) from erythroid cells that assembles polyubiquitin chains through either Lys(29) or Lys(48) of ubiquitin (Mastrandrea, L. D., You, J., Niles, E. G., and Pickart, C. M. (1999) J. Biol. Chem. 274, 27299-27306). Here we describe the purification of this E3 based on its affinity for a linear fusion of ubiquitin to the ubiquitin-conjugating enzyme UbcH5A. Among five major polypeptides in the affinity column eluate, the activity of interest was assigned to the product of a previously cloned human cDNA known as KIAA10 (Nomura, N., Miyajima, N., Sazuka, T., Tanaka, A., Kawarabayasi, Y., Sato, S., Nagase, T., Seki, N., Ishikawa, K., and Tabata, S. (1994) DNA Res. 1, 27-35). The KIAA10 protein is a member of the HECT (homologous to E6-AP carboxyl terminus) domain family of E3s. These E3s share a conserved C-terminal (HECT) domain that functions in the catalysis of ubiquitination, while their divergent N-terminal domains function in cognate substrate binding (Huibregtse, J. M., Scheffner, M., Beaudenon, S., and Howley, P. M. (1995) Proc. Natl. Acad. Sci. U. S. A. 92, 2563-2567). Recombinant KIAA10 catalyzed the assembly of both Lys(29)- and Lys(48)-linked polyubiquitin chains. Surprisingly, the C-terminal 428 residues of KIAA10 were both necessary and sufficient for this activity, suggesting that the ability to assemble polyubiquitin chains may be a general property of HECT domains. The N-terminal domain of KIAA10 interacted in vitro with purified 26 S proteasomes and with the isolated S2/Rpn1 subunit of the proteasome's 19 S regulatory complex, suggesting that the N-terminal domains of HECT E3s may function in proteasome binding as well as substrate binding.
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PMID:A HECT domain E3 enzyme assembles novel polyubiquitin chains. 1127 95

Ubiquitination is used to target both normal proteins for specific regulated degradation and misfolded proteins for purposes of quality control destruction. Ubiquitin ligases, or E3 proteins, promote ubiquitination by effecting the specific transfer of ubiquitin from the correct ubiquitin-conjugating enzyme, or E2 protein, to the target substrate. Substrate specificity is usually determined by specific sequence determinants, or degrons, in the target substrate that are recognized by the ubiquitin ligase. In quality control, however, a potentially vast collection of proteins with characteristic hallmarks of misfolding or misassembly are targeted with high specificity despite the lack of any sequence similarity between substrates. In order to understand the mechanisms of quality control ubiquitination, we have focused our attention on the first characterized quality control ubiquitin ligase, the HRD complex, which is responsible for the endoplasmic reticulum (ER)-associated degradation (ERAD) of numerous ER-resident proteins. Using an in vivo cross-linking assay, we directly examined the association of the separate HRD complex components with various ERAD substrates. We have discovered that the HRD ubiquitin ligase complex associates with both ERAD substrates and stable proteins, but only mediates ubiquitin-conjugating enzyme association with ERAD substrates. Our studies with the sterol pathway-regulated ERAD substrate Hmg2p, an isozyme of the yeast cholesterol biosynthetic enzyme HMG-coenzyme A reductase (HMGR), indicated that the HRD complex discerns between a degradation-competent "misfolded" state and a stable, tightly folded state. Thus, it appears that the physiologically regulated, HRD-dependent degradation of HMGR is effected by a programmed structural transition from a stable protein to a quality control substrate.
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PMID:In vivo action of the HRD ubiquitin ligase complex: mechanisms of endoplasmic reticulum quality control and sterol regulation. 1139 Jun 56

Phenylalanine hydroxylase (PAH, EC 1.14.16.1) is a highly regulated liver enzyme which catalyses the conversion of L-phenylalanine to L-tyrosine, the rate-limiting step in the catabolic pathway of this amino acid. Among the approx. 400 different mutations of human (h) PAH, frequently associated with the metabolic disease phenylketonuria, a low stability is a characteristic property when expressed in eucaryotic cells. In this study, the pathway of hPAH degradation is addressed with focus on its conjugation with polyubiquitin chains catalysed by the ubiquitin-conjugating enzyme system (E1, E2, E3) isolated from rat liver by covalent affinity chromatography on ubiquitin-Sepharose. In the reconstituted in vitro ubiquitination assay, the enzyme system catalysed both the formation of free polyubiquitin chains and the polyubiquitination of wild-type (wt) hPAH and its 'catalytic domain' (DeltaN102/DeltaC24-hPAH) as visualized by two-dimensional electrophoresis. The ubiquitination of wt-PAH may play a role in the degradation of this liver enzyme notably of its many unstable disease-associated mutant forms. The present approach may also have a more general application in the study of liver proteins as possible targets for ubiquitination.
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PMID:Conjugation of phenylalanine hydroxylase with polyubiquitin chains catalysed by rat liver enzymes. 1141 Feb 94

TRAF6 is a signal transducer that activates IkappaB kinase (IKK) and Jun amino-terminal kinase (JNK) in response to pro-inflammatory mediators such as interleukin-1 (IL-1) and lipopolysaccharides (LPS). IKK activation by TRAF6 requires two intermediary factors, TRAF6-regulated IKK activator 1 (TRIKA1) and TRIKA2 (ref. 5). TRIKA1 is a dimeric ubiquitin-conjugating enzyme complex composed of Ubc13 and Uev1A (or the functionally equivalent Mms2). This Ubc complex, together with TRAF6, catalyses the formation of a Lys 63 (K63)-linked polyubiquitin chain that mediates IKK activation through a unique proteasome-independent mechanism. Here we report the purification and identification of TRIKA2, which is composed of TAK1, TAB1 and TAB2, a protein kinase complex previously implicated in IKK activation through an unknown mechanism. We find that the TAK1 kinase complex phosphorylates and activates IKK in a manner that depends on TRAF6 and Ubc13-Uev1A. Moreover, the activity of TAK1 to phosphorylate MKK6, which activates the JNK-p38 kinase pathway, is directly regulated by K63-linked polyubiquitination. We also provide evidence that TRAF6 is conjugated by the K63 polyubiquitin chains. These results indicate that ubiquitination has an important regulatory role in stress response pathways, including those of IKK and JNK.
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PMID:TAK1 is a ubiquitin-dependent kinase of MKK and IKK. 2941 May 30

Ubiquitin-dependent protein degradation impacts many cellular processes.However, the regulation of ubiquitin-conjugating enzymes (UBCs) in cancer is unknown. We find that the human CDC34 UBC protein is expressed at a 3-4 fold higher level (P < 0.001) in pediatric T cell than in pre-B-cell acute lymphoblastic leukemia (ALL) before treatment in two independent patient sets. The level of CDC34 mRNA was similar in both types of leukemia. CDC34 expression levels in normal resting T cells, B cells and activated T lymphocytes was comparable with pre-B-cell ALL. CDC34 protein (but not mRNA) was also increased in T-cell ALL compared with pre-B-cell ALL cell lines. The difference in expression was not attributable to mutation or associated with altered CDC34 stability. Immunohistochemistry and cellular fractionation reveals a heterogeneous CDC34 expression pattern including cells containing primarily cytoplasmic or nuclear protein. Thus, a feature of pediatric T-cell ALL is posttranscriptional up-regulation and heterogeneous localization of the human CDC34 UBC.
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PMID:Expression and localization of the CDC34 ubiquitin-conjugating enzyme in pediatric acute lymphoblastic leukemia. 1150 8

Tumor necrosis factor (TNF)-induced activation of apoptosis signal-regulating kinase 1 (ASK1) and germinal center kinases (GCKs) and the subsequent activation of stress-activated protein kinases (SAPKs and c-Jun NH(2)-terminal kinases) requires TNF receptor-associated factor 2 (TRAF2). Although the TRAF2 TRAF domain binds ASK1, GCK, and the highly related kinase GCKR, the RING finger domain is needed for their activation. Here, we report that TNF activates GCKR and the SAPK pathway in a manner that depends upon TRAF2 and Ubc13, a member along with Uev1A of a dimeric ubiquitin-conjugating enzyme complex. Interference with Ubc13 function or expression inhibits both TNF- and TRAF2-mediated GCKR and SAPK activation, but has a minimal effect on ASK1 activation. TNF signaling leads to TRAF2 polyubiquitination and oligomerization and to the oligomerization, ubiquitination, and activation of GCKR, all of which are sensitive to the disruption of Ubc13 function. These results indicate that the assembly of a TRAF2 lysine 63-linked polyubiquitin chain by Ubc13/Uev1A is required for TNF-mediated GCKR and SAPK activation, but may not be required for ASK1 activation.
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PMID:Tumor necrosis factor (TNF)-induced germinal center kinase-related (GCKR) and stress-activated protein kinase (SAPK) activation depends upon the E2/E3 complex Ubc13-Uev1A/TNF receptor-associated factor 2 (TRAF2). 1259 26

Ubiquitin-protein ligases (E3s) determine the substrate specificity of ubiquitylation and, until recently, had been classified into two families, the HECT and RING-finger families. The U-box is a domain of approximately 70 amino acids that is present in proteins from yeast to humans. The prototype U-box protein, yeast Ufd2, was identified as a ubiquitin chain assembly factor (E4) that cooperates with a ubiquitin-activating enzyme (E1), a ubiquitin-conjugating enzyme (E2), and an E3 to catalyze the formation of a ubiquitin chain on artificial substrates. We recently showed that mammalian U-box proteins, in conjunction with an E1 and an E2, mediate polyubiquitylation in the absence of a HECT type or RING-finger type E3. U-box proteins have thus been defined as a third family of E3s. We here review recent progress in the characterization of U-box proteins and of their role in the quality control system that underlies the cellular stress response to the intracellular accumulation of abnormal proteins.
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PMID:U-box proteins as a new family of ubiquitin ligases. 1264 16

Lys(63)-linked polyubiquitin (poly-Ub) chains appear to play a nondegradative signaling and/or recruitment role in a variety of key eukaryotic cellular processes, including NF-kappaB signal transduction and DNA repair. A protein heterodimer composed of a catalytically active ubiquitin-conjugating enzyme (Ubc13) and its homologue (Mms2 or Uev1a) forms a catalytic scaffold upon which a noncovalently associated acceptor Ub and thiolester-linked donor Ub are oriented such that Lys(63)-linked poly-Ub chain synthesis is facilitated. In this study, we have used (1)H-(15)N nuclear magnetic resonance spectroscopy, in combination with isothermal titration calorimetry, to determine the thermodynamics and kinetics of the interactions between various components of the Lys(63)-linked poly-Ub conjugation machinery. Mms2 and Uev1a interact in vitro with acceptor Ub to form 1/1 complexes with macroscopic dissociation constants of 98 +/- 15 and 213 +/- 14 microM, respectively, and appear to bind Ub in a similar fashion. Interestingly, the Mms2.Ubc13 heterodimer associates with acceptor Ub in a 1/1 complex and binds with a dissociation constant of 28 +/- 6 microM, significantly stronger than the binding of Mms2 alone. Furthermore, a dissociation constant of 49 +/- 7 nM was determined for the interaction between Mms2 and Ubc13 using isothermal titration calorimetry. In connection with previous structural studies for this system, the thermodynamics and kinetics of acceptor Ub binding to the Mms2.Ubc13 heterodimer described in detail in this study will allow for a more thorough rationalization of the mechanism of formation of Lys(63)-linked poly-Ub chains.
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PMID:Energetics and specificity of interactions within Ub.Uev.Ubc13 human ubiquitin conjugation complexes. 1283 44

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