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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)

Ubiquitin is often implicated as a specific tag for protein degradation via the ubiquitin system although only a limited number of physiological proteins have been shown to be degraded in their native tissues via this pathway in vivo. Ubiquitin may also, however, have other functions of a regulatory nature (non-catabolic ubiquitylation). The ubiquitylation of calmodulin appears to fall into this category. Ubiquitin is linked to free calmodulin in the presence of the second messenger Ca2+ by the enzyme ubiquitin-calmodulin ligase (uCaM synthetase: EC 6.3.2.21) and there is no evidence that this step is followed by degradation of calmodulin via the ATP-dependent 26-S protease. Due to a lack of natural substrates and sufficient tissue material, only a few components of the ubiquitin system have been obtained in truly homogeneous form from reticulocytes. We therefore decided to attempt this for the calmodulin ligase. The enzymic components of the uCaM synthetase system copurified over several steps and could be highly enriched by a novel sample displacement technique on an ion-exchange resin. A fractionation of the synthetase components by affinity chromatography on ubiquitin-Sepharose and calmodulin-Sepharose yielded two essentially inactive components: a ubiquitin-Sepharose binding fraction (uCaM Syn-F1) and a calmodulin-Sepharose binding fraction (uCaM Syn-F2). The full activity of uCaM synthetase can be reconstituted when these two fractions are reunited. uCaM Syn-F1 could then be separated from all other enzymes of ubiquitin metabolism and, employing the second component with the natural substrate calmodulin, could be purified over 3500-fold to homogeneity. The ability to catalyze its own thiol labile ubiquitylation identified it as a member of the ubiquitin-activating enzyme family (E1). The homogeneous preparation contained a single protein of molecular mass 213 +/- 21 kDa (mean +/- SEM) as determined by gel filtration. The molecular mass of the monomer was determined by electrospray ion mass spectrometry to 112,140 +/- 47 Da (mean +/- SD). N-terminal sequence analysis (20 amino acids) led to a single N-terminal peptide beginning at residue 57 of the known rabbit cDNA sequence. No ragged N-terminus was detected, as would be expected by the action of an aminopeptidase or other peptidases of low specificity. The monomer molecular mass calculated from the cDNA sequence (Arg57-Arg1058) is 111,975 Da, characterizing this enzyme from reticulocytes as a homodimer of 224 kDa.
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PMID:The ubiquityl-calmodulin synthetase system from rabbit reticulocytes: isolation of the ubiquitin-binding first component, a ubiquitin-activating enzyme. 971 91

Ubiquitin-calmodulin ligase (uCaM synthetase: EC 6.3.2.21), which has been detected in all tissues so far examined, catalyzes the Ca2+-dependent reversible synthesis of ubiquityl-calmodulin which is not directed to degradation by the ATP-dependent 26-S protease [Laub, M. & Jennissen, H. P. (1997) Biochim. Biophys. Acta 1357, 173-191]. As has been shown in the preceding paper in this journal, the uCaM synthetase holosystem can be separated into two essential protein components: uCaM Syn-F1, a ubiquitin-binding protein belonging to the ubiquitin-activating enzyme family (E1) and uCaM Syn-F2 which bestows the reaction specificity leading to the covalent modification of calmodulin with ubiquitin. UCaM Syn-F2, which binds to calmodulin-Sepharose in a Ca2+-dependent manner, has been purified over 3500-fold in seven steps from rabbit reticulocytes and has a native molecular mass of approximately 620 kDa. It binds calmodulin with a Km of 5 microM and to uCaM Syn-F1, i.e. ubiquitin-activating enzyme (E1), with a Km of 3 nM. The maximal specific activity obtained in enriched uCaM Syn-F2 is 6-8 pkat/mg. The pH optimum of uCaM synthetase lies at pH 8.5. In kinetic experiments the Km values for 125I-ubiquitin and ATP/Mg2+ were determined to be 8 microM and 16 nM, respectively, for the uCaM synthetase holosystem. The existence of a third separable protein component of uCaM synthetase, as is the case in E1, E2, E3 systems, is very unlikely since affinity chromatography on calmodulin-Sepharose, two ion-exchange chromatography steps and finally a gel-filtration step failed to indicate any additional protein component essential for synthetase activity. We therefore propose a two-component model for uCaM synthetase. This model is also supported by simple hyperbolic velocity curves in kinetic experiments based on the variation of these two components. The data suggests that uCaM Syn-F2 is neither an E2 nor an E3 but evidently combines the properties of both, making the Ca2+-dependent uCaM synthetase the member of a group of two-component ubiquitin ligase systems.
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PMID:The ubiquityl-calmodulin synthetase system from rabbit reticulocytes: isolation of the calmodulin-binding second component and enzymatic properties. 971 92

The ubiquitin-proteasome pathway is regarded as playing a crucial role in protein breakdown in inflammation and sepsis as well as in the regulation of inflammatory cell responses. In this pathway, ubiquitylation of target proteins is believed to act as a recognition signal for degradation by the 26S proteasome. As yet neither the ubiquitylation rate of cytosolic proteins, as a result of the total ubiquitin-protein ligase (tUbPL) activity, nor the specific ubiquitylation of calmodulin (ubiquitin-calmodulin ligase, uCaM-synthetase) has been determined in human mononuclear cells. Therefore, we studied cytosolic protein ubiquitylation in normal and in endotoxin (LPS)-stimulated human peripheral blood mononuclear cells (PBMNCs).PBMNCs from healthy volunteers were incubated with 0 or 100 ng/ml LPS for 18 h. Cytosolic extracts were obtained by hypotonic lysis and ultracentrifugation. TUbPL was measured as [(125)I]-[CT]-ubiquitin incorporation into the sum of cytosolic proteins. UCaM-synthetase activity was quantified with the fluphenazine (FP)-Sepharose affinity adsorption test. Endotoxin stimulation appears to inhibit tUbPL 3.7 +/- 2.7-fold to 48 +/- 43 fkat/mg (n = 6). UCaM-synthetase in cultures (n = 5) without endotoxin was determined to be 91 +/- 32 fkat/mg +Ca(2+) and 29 +/- 23 fkat/mg -Ca(2+). With endotoxin uCaM-synthetase was 138 +/- 73 fkat/mg +Ca(2+) and 14 +/- 22 fkat/mg -Ca(2+). Ca(2+)-specificity (ratio +/- Ca(2+)) of uCaM-synthetase increases from 3.1 without LPS to 10 after LPS stimulation, which was caused by a 2-fold decrease in minus Ca(2+) activity and a 1.5-fold increase in plus Ca(2+) activity. The data indicate specific regulatory effects of endotoxin on the cytosolic ubiquitylation systems in human PBMNCs.
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PMID:Cytosolic protein ubiquitylation in normal and endotoxin stimulated human peripheral blood mononuclear cells. 1152 Oct 75