Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:6.3.2.19 (
ubiquitin-protein ligase
)
799
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Targeting of different cellular proteins for conjugation and subsequent degradation via the ubiquitin pathway involves diverse recognition signals and distinct enzymatic factors. A few proteins are recognized via their N-terminal amino acid residue and conjugated by a
ubiquitin-protein ligase
that recognizes this residue. Most substrates, including the N alpha-acetylated proteins that constitute the vast majority of cellular proteins, are targeted by different signals and are recognized by yet unknown ligases. We have previously shown that degradation of N-terminally blocked proteins requires a specific factor, designated FH, and that the factor acts along with the 26S protease complex to degrade ubiquitin-conjugated proteins. Here, we demonstrate that FH is the protein synthesis elongation factor EF-1 alpha. (a) Partial sequence analysis reveals 100% identity to EF-1 alpha. (b) Like EF-1 alpha, FH binds to immobilized GTP (or GDP) and can be purified in one step using the corresponding nucleotide for elution. (c) Guanine nucleotides that bind to EF-1 alpha protect the ubiquitin system-related activity of FH from heat inactivation, and nucleotides that do not bind do not exert this effect. (d)
EF-Tu
, the homologous bacterial elongation factor, can substitute for FH/EF-1 alpha in the proteolytic system. This last finding is of particular interest since the ubiquitin system has not been identified in prokaryotes. The activities of both EF-1 alpha and
EF-Tu
are strongly and specifically inhibited by ubiquitin-aldehyde, a specific inhibitor of ubiquitin isopeptidases. It appears, therefore, that EF-1 alpha may be involved in releasing ubiquitin from multiubiquitin chains, thus rendering the conjugates susceptible to the action of the 26S protease complex.
...
PMID:Protein synthesis elongation factor EF-1 alpha is essential for ubiquitin-dependent degradation of certain N alpha-acetylated proteins and may be substituted for by the bacterial elongation factor EF-Tu. 805 36
Targeting of different cellular proteins for conjugation and subsequent degradation via the ubiquitin pathway involves diverse recognition signals and distinct enzymatic factors. A few proteins are recognized via their N-terminal amino acid residue and conjugated by a
ubiquitin-protein ligase
that recognizes this residue. However, most substrates, including N-alpha-acetylated proteins that constitute the vast majority of cellular proteins, are targeted by different signals and are recognized by yet unknown ligases. In addition to the ligases, other factors may also be specific for the recognition of this subset of proteins. We have previously shown that degradation of N-terminally blocked proteins require a specific factor, designated FH, and that the factor acts along with the 26S protease complex to degrade ubiquitin-conjugated proteins (Gonen et al., 1991). Further studies have shown that FH is identical to the protein synthesis elongation factor EF-1 alpha, and that it can be substituted by the bacterial elongation factor
EF-Tu
(Gonen et al., 1994). This, rather surprising, finding raises two important and interesting problems. The first involves the mechanism of action of the factor and the second the possibility that protein synthesis and degradation may be regulated by a commonly shared factor. Here, we demonstrate that EF-1 alpha is a ubiquitin C-terminal hydrolase (isopeptidase) that is probably involved in trimming the conjugates to lower molecular weight forms recognized by the 26S proteasome complex. Additional findings demonstrate that its activity is inhibited specifically by tRNA. This finding raises the possibility that under anabolic conditions, when the factor is associated with AA.tRNA and GTP, it is active in protein synthesis but inactive in proteolysis. Under catabolic conditions, when the factor is predominantly found in its apo form, it is active in proteolysis.
...
PMID:Protein synthesis elongation factor EF-1 alpha is an isopeptidase essential for ubiquitin-dependent degradation of certain proteolytic substrates. 886 Oct 13
