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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 selectivity of the ubiquitin-26 S proteasome system (UPS) for a particular substrate protein relies on the interaction between a ubiquitin-conjugating enzyme (E2, of which a cell contains relatively few) and a
ubiquitin-protein ligase
(E3, of which there are possibly hundreds). Post-translational modifications of the protein substrate, such as phosphorylation or hydroxylation, are often required prior to its selection. In this way, the precise spatio-temporal targeting and degradation of a given substrate can be achieved. The E3s are a large, diverse group of proteins, characterized by one of several defining motifs. These include a HECT (homologous to E6-associated
protein C
-terminus), RING (really interesting new gene) or U-box (a modified RING motif without the full complement of Zn2+-binding ligands) domain. Whereas HECT E3s have a direct role in catalysis during ubiquitination, RING and U-box E3s facilitate protein ubiquitination. These latter two E3 types act as adaptor-like molecules. They bring an E2 and a substrate into sufficiently close proximity to promote the substrate's ubiquitination. Although many RING-type E3s, such as MDM2 (murine double minute clone 2 oncoprotein) and c-Cbl, can apparently act alone, others are found as components of much larger multi-protein complexes, such as the anaphase-promoting complex. Taken together, these multifaceted properties and interactions enable E3s to provide a powerful, and specific, mechanism for protein clearance within all cells of eukaryotic organisms. The importance of E3s is highlighted by the number of normal cellular processes they regulate, and the number of diseases associated with their loss of function or inappropriate targeting.
...
PMID:E3 ubiquitin ligases. 1625 Aug 95
The anaphase-promoting complex/cyclosome (
APC
/C) is a multisubunit
ubiquitin-protein ligase
that targets for degradation cell-cycle regulatory proteins during exit from mitosis and in the G1 phase of the cell cycle. The activity of
APC
/C in mitosis and in G1 requires interaction with the activator proteins Cdc20 and Cdh1, respectively. Substrates of
APC
/C-Cdc20 contain a recognition motif called the "destruction box" (D-box). The mode of the action of
APC
/C activators and their possible role in substrate binding remain poorly understood. Several investigators suggested that Cdc20 and Cdh1 mediate substrate recognition, whereas others proposed that substrates bind to
APC
/C or to
APC
/C-activator complexes. All these studies used binding assays, which do not necessarily indicate that substrate binding is functional and leads to product formation. In the present investigation we examined this problem by an "isotope-trapping" approach that directly demonstrates productive substrate binding. With this method we found that the simultaneous presence of both
APC
/C and Cdc20 is required for functional substrate binding. By contrast, with conventional binding assays we found that either Cdc20 or
APC
/C can bind substrate by itself, but only at low affinity and relaxed selectivity for D-box. Our results are consistent with models in which interaction of substrate with specific binding sites on both
APC
/C and Cdc20 is involved in selective and productive substrate binding.
...
PMID:Roles of the anaphase-promoting complex/cyclosome and of its activator Cdc20 in functional substrate binding. 1645
Regulated protein degradation by the ubiquitin-proteasome pathway ensures the unidirectionality of mitotic progression by removing cell-cycle regulators required at earlier stages. The
APC
/C
ubiquitin-protein ligase
targets proteins by appending polyubiquitin degradation signals that are subsequently recognized by the 26S proteasome. Reporting in this issue, Jin et al. (2008) identify a TEK motif in both ubiquitin and substrates of
APC
/C that mediates assembly of these degradation signals.
...
PMID:DeTEKting ubiquitination of APC/C substrates. 1848 73
Recent studies have shown a critical function for the ubiquitin-proteasome system (UPS) in regulating the signalling network for DNA damage responses and DNA repair. To search for new UPS targets in the DNA damage signalling pathway, we have carried out a non-biased assay to identify fast-turnover proteins induced by various types of genotoxic stress. This endeavour led to the identification of Rad17 as a protein exhibiting a distinctive pattern of upregulation followed by subsequent degradation after exposure to UV radiation in human primary cells. Our characterization showed that UV-induced Rad17 oscillation is mediated by Cdh1/
APC
, a
ubiquitin-protein ligase
. Studies using a degradation-resistant Rad17 mutant demonstrated that Rad17 stabilization prevents the termination of checkpoint signalling, which in turn attenuates the cellular re-entry into cell-cycle progression. The findings provide an insight into how the proteolysis of Rad17 by Cdh1/
APC
regulates the termination of checkpoint signalling and the recovery from genotoxic stress.
...
PMID:Proteolysis of Rad17 by Cdh1/APC regulates checkpoint termination and recovery from genotoxic stress. 2042 96
Anaphase-promoting complex/cyclosome (
APC
/C) is a multifunctional
ubiquitin-protein ligase
that targets various substrates for proteolysis inside and outside of the cell cycle. The activation of
APC
/C is dependent on two WD-40 domain proteins, Cdc20 and Cdh1. While
APC
/Cdc20 principally regulates mitotic progression,
APC
/Cdh1 shows a broad spectrum of substrates in and beyond cell cycle. In the past several years, numerous biochemical and mouse genetic studies have greatly attracted our attention to the emerging role of
APC
/Cdh1 in genomic integrity, cellular differentiation and human diseases. This review will aim to summarize the recently expanded understanding of
APC
/Cdh1 in regulating biological function and how its dysfunction may lead to diseases.
...
PMID:APC/C-Cdh1: from cell cycle to cellular differentiation and genomic integrity. 2093 1
A considerable proportion of protein-protein interactions (PPIs) in the cell are estimated to be mediated by very short peptide segments that approximately conform to specific sequence patterns known as linear motifs (LMs), often present in the disordered regions in the eukaryotic proteins. These peptides have been found to interact with low affinity and are able bind to multiple interactors, thus playing an important role in the PPI networks involving date hubs. In this work, PPI data and de novo motif identification based method (MEME) were used to identify such peptides in three cancer-associated hub proteins-MYC,
APC
and MDM2. The peptides corresponding to the significant LMs identified for each hub protein were aligned, the overlapping regions across these peptides being termed as overlapping linear peptides (OLPs). These OLPs were thus predicted to be responsible for multiple PPIs of the corresponding hub proteins and a scoring system was developed to rank them. We predicted six OLPs in MYC and five OLPs in MDM2 that scored higher than OLP predictions from randomly generated protein sets. Two OLP sequences from the C-terminal of MYC were predicted to bind with FBXW7, component of an E3
ubiquitin-protein ligase
complex involved in proteasomal degradation of MYC. Similarly, we identified peptides in the C-terminal of MDM2 interacting with FKBP3, which has a specific role in auto-ubiquitinylation of MDM2. The peptide sequences predicted in MYC and MDM2 look promising for designing orthosteric inhibitors against possible disease-associated PPIs. Since these OLPs can interact with other proteins as well, these inhibitors should be specific to the targeted interactor to prevent undesired side-effects. This computational framework has been designed to predict and rank the peptide regions that may mediate multiple PPIs and can be applied to other disease-associated date hub proteins for prediction of novel therapeutic targets of small molecule PPI modulators.
...
PMID:Computational Framework for Prediction of Peptide Sequences That May Mediate Multiple Protein Interactions in Cancer-Associated Hub Proteins. 2721 3
Anaphase-promoting complex/cyclosome (
APC
/C) is a multifunctional
ubiquitin-protein ligase
that targets different substrates for ubiquitylation and therefore regulates a variety of cellular processes such as cell division, differentiation, genome stability, energy metabolism, cell death, autophagy as well as carcinogenesis. Activity of
APC
/C is principally governed by two WD-40 domain proteins, Cdc20 and Cdh1, in and beyond cell cycle. In the past decade, the results based on numerous biochemical, 3D structural, mouse genetic and small molecule inhibitor studies have largely attracted our attention into the emerging role of
APC
/C and its regulation in biological function, human diseases and potential therapeutics. This review will aim to summarize some recently reported insights into
APC
/C in regulating cellular function, connection of its dysfunction with human diseases and its implication of therapeutics.
...
PMID:Insights into APC/C: from cellular function to diseases and therapeutics. 2741 42
To survive and reproduce, living organisms must evolve numerous mechanisms to re-adjust their physiology when encountering adverse conditions that subject them to severe stress. We found that short-term starvation (STS) stress in young adult male Caenorhabditis elegans can significantly improve their vitality (relative to nonstressed males) when they are aged. In addition, we found that stress-treated aged males maintained reproductive activity equivalent to young males, whereas nonstressed aged males quickly lost reproductive ability. STS stress can preserve sperm number and quality in aged male worms. Spermatogenesis involves germ cell mitosis and meiosis. We found that germ cell meiotic activity is more sensitive to aging than mitotic activity and is declining rapidly with age. We examined the role of numerous factors important for spermatogenesis on STS-preserved spermatogenesis during aging. Our results show that mutant strains deficient in anaphase-promoting complex/cyclosome (
APC
/C) function fail to exhibit the STS stress-enhanced spermatogenesis found in wild-type N2 worms, suggesting that the mechanism underlying starvation-induced spermatogenesis involves the
APC
/C complex, a conserved
ubiquitin-protein ligase
E3 complex. Furthermore, transgenic expression of FZY-1/CDC-20, a coactivator of
APC
/C, ameliorated the age-associated decline of meiosis, similar to the hormetic effect of STS.
...
PMID:Short-term starvation stress at young adult stages enhances meiotic activity of germ cells to maintain spermatogenesis in aged male Caenorhabditis elegans. 3081 5
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