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

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 26 S proteolytic complex ("26 S proteasome") is a macromolecular assembly thought to be involved in ATP- and ubiquitin-dependent protein degradation in the cytoplasm of higher eukaryotic cells. This complex is composed of one 20 S cylinder particle (multicatalytic proteinase, 20 S proteasome) and two cap-shaped 19 S particles comprising a set of polypeptides in the M(r) range of 35,000-110,000. Here we show that cell supernatant fractions contain both these two subunit complexes as distinct particles as well as assembled to 26 S proteasomes. We have separated and purified all three forms from Xenopus laevis oocytes and have determined their peptidase and protease activities. Using various antibodies specific for either a constitutive p52 polypeptide of the 19 S cap complex or for proteins of the 20 S cylinder particle, we have immunolocalized these complexes in both the cytoplasm and the nucleus of diverse species and cell types. The occurrence of all three forms, the 26 S proteasome, the 20 S cylinder particle, and the 19 S cap complex in the nucleoplasm has also been demonstrated in analyses of isolated giant nuclei from Xenopus oocytes. In addition, we show that the 19 S and 20 S subcomplexes can be released from 26 S proteasomes by ATP depletion and that readdition of ATP to 19 S and 20 S particles in cell extracts leads to the reformation of 26 S proteasomes. We discuss that all three particles (19 S, 20 S, and 26 S) exist in a dynamic equilibrium in both cell compartments and serve cytoplasmic as well as nucleus-specific functions.
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PMID:Distinct 19 S and 20 S subcomplexes of the 26 S proteasome and their distribution in the nucleus and the cytoplasm. 812 97

The identification of genes in the class II region of the MHC that are homologous to genes encoding subunits of the proteasome has led to intense interest in the possible role of this enzyme in the proteolytic processing of polypeptide Ags. We have tested the ability of the 20S proteasome to produce peptides that can be presented by class I molecules as targets for killing by OVA-specific and beta-galactosidase-specific CTL clones. Samples of intact OVA and beta-galactosidase were subjected to digestion in vitro by 20S proteasome purified from bovine red cells and the resulting peptide mixtures were fractionated by reverse-phase HPLC. The fractions were tested for their ability to sensitize appropriate mouse target cells for lysis by specific CTL clones. In both cases, components that under all chromatographic conditions eluted with retention times indistinguishable from synthetic peptides representing known epitopes of the naturally processed proteins were found to be able to sensitize the target cells. Moreover, in the case of OVA, the presence of the expected target peptides was demonstrated directly by amino acid sequence and mass spectrometric analysis. The results demonstrate that the pure 20S proteasome is capable of generating antigenic peptides from two proteins for presentation by class I molecules without the participation of additional components of the protein degradation system. This finding is consistent with the hypothesis of proteasome involvement in Ag processing in vivo.
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PMID:Proteolytic processing of ovalbumin and beta-galactosidase by the proteasome to a yield antigenic peptides. 814 58

Yeast fatty acid synthase consists of two independent polypeptide strains, alpha and beta. The functional multienzyme complex, composed of six alpha- and six beta-subunits, is rather stable against proteolysis in vivo. Mutations in one of the subunits or deletion of one subunit lead to degradation of the nonmutated remaining fatty acid synthase protein. We show that the unassembled alpha-subunit of this enzyme is short-lived, and degradation depends on the presence of active cytoplasmic proteinase yscE, the yeast proteasome. The unassembled beta-subunit is degraded by a nonvacuolar proteolytic system under vegetative growth conditions. However, starvation of a vacuolar proteinase mutant strain, which lacks the alpha-subunit of fatty acid synthase, leads to appearance of the unassembled beta-subunit is isolated vacuoles. This indicates that the major vacuolar peptidases proteinase yscA and yscB are at least partly involved in degradation of the beta-subunit of fatty acid synthase. In a proteinase yscA and yscB double mutant strain wild type for fatty acid synthase both subunits of fatty acid synthase, alpha and beta, are detectable in vacuoles. In addition, under the same starvation conditions other cytoplasmic proteins are found in the vacuole of a proteinase yscA and yscB double mutant strain. The experiments in conjunction with the previous finding of the appearance of vesicles in vacuoles of starved cells (Simeon, A., van der Klei, I.J., Veenhuis, M., and Wolf, D. H. (1992) FEBS Lett. 301, 231-235) indicate that transport of these tested cytoplasmic proteins into the vacuole is an unselective bulk process induced by nutritional stress.
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PMID:Tracing intracellular proteolytic pathways. Proteolysis of fatty acid synthase and other cytoplasmic proteins in the yeast Saccharomyces cerevisiae. 826 67

The nucleotide sequence of a cDNA that encodes a new subunit, named RC10-II, of the 20S proteasome of rat embryonic brain has been determined. The polypeptide predicted from the open reading frame consists of 205 amino acid residues with a calculated molecular weight of 22,965 and isoelectric point of 6.15. Computer analysis showed that RC10-II belongs to the beta-type subgroup of proteasomes, differing clearly from alpha-type subunits of the proteasome gene family. The primary structure of RC10-II was found to contain the partial amino acid sequences of several fragments of subunit 13, which has a cysteinyl residue critical for the trypsin-like catalytic activity, as reported by L. R. Dick et al. [Biochemistry 31, 7347-7355, 1992], suggesting that RC10-II is a proteasomal subunit necessary for the expression of tryptic activity.
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PMID:cDNA cloning of rat proteasome subunit RC10-II, assumed to be responsible for trypsin-like catalytic activity. 828 11

We have cloned the yeast PRE2 gene by complementation of pre2 mutants, which are defective in the chymotrypsin-like activity of the 20 S proteasome (multicatalytic-multifunctional proteinase complex). The PRE2 gene, a beta-type member of the proteasomal gene family, is essential for life and codes for a 287-amino acid proteasomal subunit with a predicted molecular mass of 31.6 kDa. Missense mutations in two pre2 mutant alleles were identified. They led to enhanced sensitivity of yeast cells against stress. At the same time, pre2 mutants accumulated ubiquitinated proteins. The Pre2 protein shows striking homology to the human Ring10 protein (60% identity excluding the 70 amino-terminal residues), which is encoded in the major histocompatibility complex class II region. It represents a component of the low molecular mass polypeptide complex, previously shown to be a special type of the 20 S proteasome. The low molecular mass polypeptide complex is assumed to be involved in antigen presentation, generating peptides from cytosolic protein antigens, which are subsequently presented to cytotoxic T-lymphocytes on the cell surface. The high homology of Pre2 to Ring10 implies the hypothesis that Ring10 is a subunit of the low molecular mass polypeptide complex central in its chymotryptic activity. One might further suggest that replacement of constitutive proteasomal components by functionally related major histocompatibility complex-linked low molecular mass polypeptides, as is Ring10, adapts mammalian proteasomes for functions in the immune response.
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PMID:PRE2, highly homologous to the human major histocompatibility complex-linked RING10 gene, codes for a yeast proteasome subunit necessary for chrymotryptic activity and degradation of ubiquitinated proteins. 838 29

It is shown that proteasomes from the arachaebacterium Thermoplasma acidophilum selectively degrade substrate proteins partially unfolded by phenylhydrazine- or hydrogen peroxide-treatment. Surprisingly, the pre-incubation of the substrate proteins with ubiquitin is also sufficient to render them susceptible to proteolytic degradation by proteasomes. We propose that, upon spontaneously associating with the substrate protein, ubiquitin exerts a chaotropic effect on it; this may involve the exposure of hydrophobic segments of the polypeptide chain which are recognized by the binding sites of the proteasome.
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PMID:Thermoplasma acidophilum proteasomes degrade partially unfolded and ubiquitin-associated proteins. 839 97

The nucleotide sequence of a cDNA that encodes a new subunit, named RC7-I, of the 20 S proteasome of rat hepatoma cells has been determined. The polypeptide predicted from the open reading frame consists of 201 amino acid residues with a calculated molecular weight of 22,912 and isoelectric point of 7.25. Approximately 80% of the partial amino acid sequences of several fragments of RC7-I, determined by protein chemical analyses, were found to be in excellent accordance with those deduced from the cDNA sequence. Computer analysis showed that RC7-I belongs to the beta-type subgroup of proteasomes with similarity to the beta-subunit of the archaebacterial proteasome, differing clearing from alpha-type subunits of the proteasome gene family. The overall structure of RC7-I was found to be homologous to that of yeast PRE1, which is necessary for chymotryptic activity.
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PMID:cDNA cloning of rat proteasome subunit RC7-I, a homologue of yeast PRE1 essential for chymotrypsin-like activity. 840 48

Ubiquitin is a highly conserved polypeptide found in all eukaryotes. The major function of ubiquitin is to target proteins for complete or partial degradation by a multisubunit protein complex called the proteasome. Here, the Drosophila fat facets gene, which is required for the appropriate determination of particular cells in the fly eye, was shown to encode a ubiquitin-specific protease (Ubp), an enzyme that cleaves ubiquitin from ubiquitin-protein conjugates. The Fat facets protein (FAF) acts as a regulatory Ubp that prevents degradation of its substrate by the proteasome. Flies bearing fat facets gene mutations were used to show that a Ubp is cell type--and substrate-specific and a regulator of cell fate decisions in a multicellular organism.
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PMID:Control of cell fate by a deubiquitinating enzyme encoded by the fat facets gene. 852 78

The biological effect of type 1 interferons is proposed to arise in part from the conjugation of ubiquitin cross-reactive protein (UCRP), the ISG15 gene product, to intracellular target proteins in a process analogous to that of its sequence homolog ubiquitin, a highly conserved 8.6-kDa polypeptide whose ligation marks proteins for degradation via the 26 S proteasome. Inclusion of CoCl2 during the purification of recombinant UCRP blocks the proteolytic inactivation of the polypeptide occurring by cleavage of the carboxyl-terminal glycine dipeptide required for activation and subsequent ligation. Intact UCRP supports a low rate of ubiquitin-activating enzyme (E1)-dependent ATP:PPi exchange but fails to form a stoichiometric E1-UCRP thiol ester or undergo transfer to ubiquitin carrier protein (E2). The binding affinity of E1 for UCRP is significantly diminished relative to that of ubiquitin. These results suggest that UCRP conjugation proceeds through an enzyme pathway distinct from that of ubiquitin, at least with respect to the step of activation. This was confirmed for an in vitro conjugation assay in which 125I-UCRP could be ligated in an ATP-dependent reaction to proteins present within an A549 human lung carcinoma cell extract and could be competitively inhibited by excess unlabeled UCRP but not ubiquitin. Other results demonstrate that 125I-UCRP conjugation is significantly increased in cell extracts after 24 h of incubation in the presence of interferon-beta, consistent with the late induction of UCRP conjugating activity. Thus, interferon-responsive cells contain a pathway for UCRP ligation that is parallel but distinct from that of ubiquitin.
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PMID:Conjugation of the 15-kDa interferon-induced ubiquitin homolog is distinct from that of ubiquitin. 855 May 81

Nascent polypeptide chains are in a dangerous situation as soon as they leave their place of birth, the channel of the large ribosomal subunit: more than 20 different pathways for the degradation of proteins exist in cells. Chaperones protect and guide the young protein molecules and support their correct foldings. Targeting signals direct the proteins to the organelles of their destination. The lysosome is the site of random degradation, while the proteasome is highly selective. Although these two organelles provide the most important pathways for the degradation of long- and short-lived proteins, other pathways with roles in deciding the fate of cellular proteins must also be considered.
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PMID:The fates of proteins in cells. 856 49


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