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Query: UNIPROT:P06889 (Mol)
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c-Fos is associated with c-Jun to increase the transcription of a number of target genes and is a nuclear proto-oncoprotein with a very short half-life. This instability of c-Fos may be important in regulation of the normal cell cycle. Here we report a mechanism for degradation of c-Fos. Coexpression of c-Fos and c-Jun in HeLa cells caused marked increase in the instability of c-Fos, whereas v-Fos, the retroviral counterpart of c-Fos, was stable irrespective of the coexpression of c-Jun. Interestingly, deletion of the C-terminal PEST region of c-Fos, which is altered in v-Fos by a frameshift mutation, greatly enhanced its stability, with loss of the effect of c-Jun on its stability. c-Fos synthesized in vitro was degraded by the 26S proteasome in a ubiquitin-dependent fashion. Simple association with c-Jun had no effect on the degradation of c-Fos, but the additions of three protein kinases, mitogen-activated protein kinase, casein kinase II, and CDC2 kinase, resulted in marked acceleration of its degradation by the proteasome-ubiquitin system, though only in the presence of c-Jun. In contrast, v-Fos and c-Fos with a truncated PEST motif were not degraded, suggesting that they escaped from down-regulation by breakdown. These findings indicate a new oncogenic pathway induced by acquisition of intracellular stability of a cell cycle modulatory factor.
Mol Cell Biol 1995 Oct
PMID:Degradation of c-Fos by the 26S proteasome is accelerated by c-Jun and multiple protein kinases. 756 19

The yeast Sen1 protein was discovered by virtue of its role in tRNA splicing in vitro. To help determine the role of Sen1 in vivo, we attempted to overexpress the protein in yeast cells. However, cells with a high-copy SEN1-bearing plasmid, although expressing elevated amounts of SEN1 mRNA, show little increase in the level of the encoded protein, indicating that a posttranscriptional mechanism limits SEN1 expression. This control depends on an amino-terminal element of Sen1. Using a genetic selection for mutants with increased expression of Sen1-derived fusion proteins, we identified mutations in a novel gene, designated SEN3. SEN3 is essential and encodes a 945-residue protein with sequence similarity to a subunit of an activator of the 20S proteasome from bovine erythrocytes, called PA700. Earlier work indicated that the 20S proteasome associates with a multisubunit regulatory factor, resulting in a 26S proteasome complex that degrades substrates of the ubiquitin system. Mutant sen3-1 cells have severe defects in the degradation of such substrates and accumulate ubiquitin-protein conjugates. Most importantly, we show biochemically that Sen3 is a subunit of the 26S proteasome. These data provide evidence for the involvement of the 26S proteasome in the degradation of ubiquitinated proteins in vivo and for a close relationship between PA700 and the regulatory complexes within the 26S proteasome, and they directly demonstrate that Sen3 is a component of the yeast 26S proteasome.
Mol Cell Biol 1995 Nov
PMID:The yeast SEN3 gene encodes a regulatory subunit of the 26S proteasome complex required for ubiquitin-dependent protein degradation in vivo. 756 84

Short-lived proteins are targeted for turnover by sequence elements known as degradation signals. Because of the large size and heterogeneity of these signals, the structural features important for their function are not well defined. In this study, we have isolated three classes of degradation signals by screening short artificial sequences for the ability to destabilize a reporter protein. Class I and class II signals were derived by inserting random nonapeptide sequences after the second residue of beta-galactosidase. Class III signals contained five-residue homopolymers at the same position. Class I beta-galactosidase turnover was inhibited in mutants lacking either the ubiquitin-conjugating enzyme Ubc2 or the ubiquitin protein ligase Ubr1. Class I random inserts functioned to promote N-terminal proteolytic processing and define a novel pathway for exposure of residues that are destabilizing according to the N-end rule. Efficient degradation of proteins containing class II signals required at least three Ubc enzymes: Ubc6, Ubc7, and either one of the related enzymes Ubc4 and Ubc5. Analysis of 56 amino acid substitutions in the class II signal suggested that it is recognized in the form of an amphipathic alpha helix. Class III signals consisted of short tracts of hydrophobic residues such as Leu and Ile. Degradation of class III proteins involved the Ubc4 and Ubc5 enzymes but not Ubc2, Ubc6, or Ubc7. Clusters of hydrophobic residues appear to be critical for the recognition of both class II and class III signals.
Mol Cell Biol 1995 Aug
PMID:Synthetic signals for ubiquitin-dependent proteolysis. 762 4

CBF2/NDC10/CTF14 encodes the 110-kDa subunit of CBF3, a key component of the yeast centromere/kinetochore. Overexpression of yeast CDC34 specifically suppresses the temperature-sensitive growth phenotype of the ndc10-1 mutation. Mutations in CDC34, which specifies a ubiquitin-conjugating enzyme, arrest yeast cells in the G1 phase of the cell cycle, with no intact spindles formed (M. G. Goebl, J. Yochem, S. Jentsch, J. P. McGrath, A. Varshavsky, and B. Byers, Science 241:1331-1335, 1988). The cdc34-2 mutation drastically alters the pattern of Cbf2p modification. Results of experiments using antibodies against Cbf2p and ubiquitin indicate that Cbf2p is ubiquitinated in vivo. Purified Cdc34p catalyzes the formation of Cbf2p-monoubiquitin conjugate in vitro. These data suggest that Cbf2p is an endogenous substrate of the CDC34 ubiquitin-conjugating enzyme and imply that ubiquitination of a kinetochore protein plays a regulatory role in kinetochore function.
Mol Cell Biol 1995 Sep
PMID:Genetic and biochemical interactions between an essential kinetochore protein, Cbf2p/Ndc10p, and the CDC34 ubiquitin-conjugating enzyme. 765 1

Immediate early gene (IEG) products, such as FOS and JUN, may partially mediate the long-term transcriptional response of CNS cells to specific changes in their environment. To determine whether IEG products might be involved in the immature brain's response to hypoxia-ischemia (H-I), 7-day-old rat pups were subjected to unilateral common carotid artery ligation followed by 3 h of hypoxia (8% O2/92% N2) at 37 degrees C, which results in pathological changes only in specific regions of the hemisphere ipsilateral to ligation. Time course experiments were performed, in which animals were sacrificed between 1 and 24 h after H-I. RNAs from several brain regions were analyzed by Northern blot hybridization for their relative concentrations of nine IEG mRNAs (c-fos, c-jun, junB, TIS 1 (nur77), TIS7, TIS8 (zif268), TIS10, TIS11, and TIS21). Induction of all IEGs, except TIS7 and TIS10, was observed in ipsilateral forebrain, and, less frequently, in contralateral forebrain, at 1, 2, and 3 h post-hypoxia. In some animals, lower levels of expression were also detected at 4, 18 and 24 h. With minor exceptions, co-induction of all seven IEGs was observed in a given RNA sample. Induction of two other mRNAs, representing the heat shock and astrocytic responses, were also observed. Hsp70 mRNA levels were increased only in the brains of animals exhibiting IEG induction. However, hsp70 induction was confined to the ipsilateral forebrain, implying a more direct relationship between its expression and permanent morphological damage. GFAP mRNA induction occurred predominantly in ipsilateral forebrain samples at 18 and 24 h post-hypoxia. Levels of B-actin and ubiquitin mRNAs were relatively constant in the same RNA samples. In control experiments c-fos mRNA induction was not detected after sham ligation with hypoxia, ligation with sham hypoxia, or hypoxia alone. These results suggest that the immature brain is highly responsive to H-I at the level of gene expression, involving at least three different rapid response systems.
Brain Res Mol Brain Res 1993 May
PMID:Immediate early gene induction after neonatal hypoxia-ischemia. 768 83

Differentiation between Carabus species (ground beetle) and subspecies is difficult, although there have been extensive studies. To address this problem we have applied PCR in combination with SSCP analysis focussing on the evolutionally conservative ubiquitin gene to elaborate a new approach to molecular differentiation between species. We report that Carabidae possess an ubiquitin gene and that its gene has a multimeric structure. Differential SSCP analysis was performed with the monomeric form of the gene to generate a clear SSCP pattern. Such PCR/SSCP resulted in reproducible patterns throughout our experiments. Comparing different Carabus species (Carabus granulatus, C. irregularis, C. violaceus and C. auronitens) we could observe clear interspecies differences but no differences between genders. Some species showed some remarkable differences between the individuals. We suggest that the ubiquitin PCR-SSCP technique might be an additional tool for the differentiation of ground beetles.
Insect Mol Biol 1994 Nov
PMID:Molecular polymorphism as a tool for differentiating ground beetles (Carabus species): application of ubiquitin PCR/SSCP analysis. 770 11

Extensive experimental data are available on the native, partially and fully unfolded states of ubiquitin. Two and three-dimensional NMR experiments of a partially unfolded form of the protein in 60% methanol indicate that approximately one-half of the molecule contains disrupted but native-like structure while the other half is unstructured and/or contains non-native structure. In contrast, the interpretation of hydrogen-exchange data have led to the conclusion that this state is native-like. Thus, there are discrepancies between the experimental studies, or interpretations based on the data. We compare the results of molecular dynamics simulations, under varying conditions, with the experimental results. The simulations extend past 0.5 ns and include explicit solvent molecules: either pure water or 60% methanol. To begin with, ubiquitin was thermally denatured in water (at 498 K). Two particular structures, or "aliquots", during the unfolding process were selected for further study (60 and 198 ps). These structures were then simulated separately in water and 60% methanol at a lower and experimentally meaningful temperature (335 K). The conformations generated from the structure extracted later in the simulation contained significant amounts of non-native structure in the presence of methanol while satisfying both the NMR and hydrogen exchange data. In fact, clearly non-native regions of the structure yielded the desired protection from hydrogen exchange. In contrast, an earlier, more native-like, intermediate did not do as well at predicting the hydrogen-exchange behavior and was inconsistent with the NMR data. These data suggest that the results and interpretations using the different experimental techniques can be reconciled by a single state. This finding also brings into question the practice of interpreting protection to hydrogen exchange in terms of native secondary and tertiary structure, especially when one has weak patterns and low protection factors. When the partially unfolded states were placed in pure water, the protein collapsed and began to refold. Therefore, the desired solvent-dependent properties were observed: the partially unfolded conformations with increased exposure of hydrophobic residues remained expanded in methanol but collapsed in water as the non-polar groups minimized their exposure to solvent.
J Mol Biol 1995 Mar 31
PMID:Molecular dynamics simulations of protein unfolding and limited refolding: characterization of partially unfolded states of ubiquitin in 60% methanol and in water. 771 3

Proteasomes (prosomes) are large multiprotein complexes. They are involved in protein degradation of ubiquitin-conjugated proteins and in the generation of MHC class I peptides. We gave further evidence that they interfere with in vitro protein synthesis. Proteasomes inhibit the translation of Tobacco mosaic virus RNA. Analysis of cell-free systems by sucrose gradient centrifugation revealed that they prevent the formation of 80S initiation complexes but not the early phase of initiation.
Mol Biol Rep 1994
PMID:Proteasomes (prosomes) inhibit the translation of tobacco mosaic virus RNA by preventing the formation of initiation complexes. 771 10

Peptide transport in Saccharomyces cerevisiae is controlled by three genes: PTR1, PTR2, and PTR3, PTR1 was cloned and sequenced and found to be identical to UBR1, a gene previously described as encoding the recognition component of the N-end-rule pathway of the ubiquitin-dependent proteolytic system. Independently derived ubr1 mutants, like ptr1 mutants, were unable to transport small peptides into cells. Concomitantly, ptr1 mutants, like ubr1 mutants, were unable to degrade an engineered substrate of the N-end-rule pathway. Further, ptr1 mutants did not express PTR2, a gene encoding the integral membrane component required for peptide transport in S. cerevisiae. These results establish a physiological role for a protein previously known to be required for the degradation of N-end-rule substrates. Our findings show that peptide transport and the ubiquitin pathway--two dynamic phenomena universal to eukaryotic cells--share a common component, namely UBR1/PTR1.
Mol Microbiol 1995 Jan
PMID:A recognition component of the ubiquitin system is required for peptide transport in Saccharomyces cerevisiae. 774 44

A one nanosecond molecular dynamics simulation of ubiquitin in solution has been used for the calculation of the total dipolar, the radial and the reorientational correlation functions of 174 interproton NOEs and the 76 peptide chain NH vectors. The NOEs have been classified according to the structural elements they are associated with. Using multiexponential fits of the raw data spectral densities and cross-relaxation rate constants have been determined. Statistical distributions of correlation function parameters are given. On the basis of these data the assumptions underlying the standard method for distance measurement using NOE enhancements have been scrutinized. The separability of elongation and reorientation is verified for the vast majority of NOEs, but the rigid-body assumption is not supported by the simulation results. Relying on a spectral density expression that neither makes use of the product approximation nor neglects spatially restricted motion, a "bias-free" (with regard to molecular motion) distance measurement method is suggested and compared with the standard method. Errors in distances up to 24% and 50% occur due to the neglect of the dispersion of order parameters and correlation times, respectively. The preconditions for a class-specific calibration method have been investigated. Within the framework of the product approximation a method for decomposing the total cross-relaxation rate constant into contributions from radial and angular motion has been developed and applied. In several cases distance fluctuation contributes significantly to cross-relaxation with both amplitude and time behaviour.
J Mol Biol 1995 Jun 09
PMID:NMR cross-relaxation investigated by molecular dynamics simulation: a case study of ubiquitin in solution. 778 14


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