EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteasomes function mainly in the ATP-dependent degradation of proteins that have been conjugated with ubiquitin. To demonstrate the phosphorylation of proteasomes in plants, we conducted an enzymatic dephosphorylation experiment with a crude extract of rice cultured cells. The results indicated that the C2 subunit of the 20S proteasome is phosphorylated in vivo in cultured cells. An in-gel kinase assay and analysis of phospho-amino acids revealed that the C2 subunit is phosphorylated by a 40-kDa serine/threonine protein kinase, the activity of which is inhibited by heparin, a specific inhibitor of casein kinase II. The catalytic subunit of casein kinase II from Arabidopsis was also able to phosphorylate the C2 subunit. These results suggest that the C2 subunit in rice is probably phosphorylated by casein kinase II. Our demonstration of the phosphorylation of proteasomes in plants suggests that phosphorylation might be involved in the general regulation of the functions of proteasomes.
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PMID:Phosphorylation of the C2 subunit of the proteasome in rice (Oryza sativa L.). 909 24

Casein kinase II (CKII) is a highly conserved serine/threonine protein kinase that is ubiquitous in eukaryotic organisms. This review summarizes available data on CKII of the budding yeast Saccharomyces cerevisiae, with a view toward defining the possible physiological role of the enzyme. Saccharomyces cerevisiae CKII is composed of two catalytic and two regulatory subunits encoded by the CKA1, CKA2, CKB1, and CKB2 genes, respectively. Analysis of null and conditional alleles of these genes identifies a requirement for CKII in at least four biological processes: flocculation (which may reflect an effect on gene expression), cell cycle progression, cell polarity, and ion homeostasis. Consistent with this, isolation of multicopy suppressors of conditional cka mutations has identified three genes that have a known or potential role in either the cell cycle or cell polarity: CDC37, which is required for cell cycle progression in both G1 and G2/M; ZDS1 and 2, which appear to have a function in cell polarity; and SUN2, which encodes a protein of the regulatory component of the 26S protease. The identity and properties of known CKII substrates in S. cerevisiae are also reviewed, and advantage is taken of the complete genomic sequence to predict globally the substrates of CKII in this organism. Although the combined data do not yield a definitive picture of the physiological role of CKII, it is proposed that CKII serves a signal transduction function in sensing and/or communicating information about the ionic status of the cell to the cell cycle machinery.
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PMID:On the physiological role of casein kinase II in Saccharomyces cerevisiae. 942 41

Polo-like kinase (Plk) is a cell cycle-regulated, cyclin-independent serine/threonine protein kinase. Plk protein levels are low or undetectable in terminally differentiated cells and tissues and its expression is strongly correlated with cell growth. Plk protein and enzymatic activity are regulated by multiple mechanisms during cell cycle progression. During G1 Plk levels are low but increasing amounts of protein are detected during S phase and the highest amounts during G2M. Transcription of Plk message is specifically repressed during G1 but that cannot entirely account for the rapid disappearance of Plk protein at the end of mitosis. In this report we show that Plk protein can be degraded in vitro by partially purified proteasomes and that specific proteasome inhibitors can block Plk protein degradation both in vitro and in vivo. We also detected high molecular weight polyubiquitinated forms of Plk by immunoprecipitation and immunoblotting and confirmed that Plk, like other mitotic regulators, is targeted for destruction at the end of mitosis through the ubiquitin-proteasome mediated degradation pathway.
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PMID:Ubiquitination and proteasome mediated degradation of polo-like kinase. 982 31

Aurora2 is a cell cycle regulated serine/threonine protein kinase which is overexpressed in many tumor cell lines. We demonstrate that Aurora2 is regulated by phosphorylation in a cell cycle dependent manner. This phosphorylation occurs on a conserved residue, Threonine 288, within the activation loop of the catalytic domain of the kinase and results in a significant increase in the enzymatic activity. Threonine 288 resides within a consensus motif for the cAMP dependent kinase and can be phosphorylated by PKA in vitro. The protein phosphatase 1 is shown to dephosphorylate this site in vitro, and in vivo the phosphorylation of T288 is induced by okadaic acid treatment. Furthermore, we show that the Aurora2 kinase is regulated by proteasome dependent degradation and that Aurora2 phosphorylated on T288 may be targeted for degradation during mitosis. Our experiments suggest that phosphorylation of T288 is important for regulation of the Aurora2 kinase both for its activity and its stability.
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PMID:The mitotic serine/threonine kinase Aurora2/AIK is regulated by phosphorylation and degradation. 1103 8

We report the complete sequence of two cosmids, SPCC895 (38457 bp insert, EMBL Accession No. AL035247) and SPCC1322 (42068 bp insert, EMBL Accession No. AL035259), localized on chromosome III of the Schizosaccharomyces pombe genome. Fourteen Coding DNA sequences (CDSs) were identified in SPCC895 and 17 in SPCC1322. Two known genes were found in each cosmid: map2 and gms1 on SPCC895, encoding the mating type P-factor precursor and an UDP-galactose transporter, respectively, and bub1 and ade6 in SPCC1322, encoding a protein kinase and a phosphoribosylaminoimidazole carboxylase, respectively. The fission yeast K RNA gene has been localized to SPCC895. Three ribosomal proteins have been predicted among these two cosmids. Nine CDSs similar to known proteins were found on SPCC895, and seven on SPCC1322. They include putative genes for an uridylate kinase, a proteasome catalytic component, an ion transporter, a checkpoint protein, a translation initiation protein, a SNARE complex protein, a protein involved in cytoskeletal organization, a spindle pole body-associating protein, pre-mRNA splicing factor RNA helicase, a 3'-5' exonuclease for RNA 3' ss-tail, an UTP-glucose-1-phosphate uridylyltransferase, a leukotriene A(4) hydrolase, a member of the RanBP7-importin beta-Cse1p superfamily, a Ca(++)-calmodulin-dependent serine/threonine protein kinase and a prohibitin antiproliferative protein. One CDS is predicted to be an integral membrane protein. One CDS from SPCC895 is similar to a CDS of unknown function from Saccharomyces cerevisiae and three from SPCC1322 are similar to CDSs of unknown function from Candida albicans, S. cerevisiae and Sz. pombe, respectively. Finally, one CDS of SPCC895 and three of SPCC1322 correspond to orphan genes.
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PMID:Sequence analysis of two cosmids from Schizosaccharomyces pombe chromosome III. 1111 74

In the budding yeast Saccharomyces cerevisiae, entry into meiosis and its successful completion depend on two positive regulators, Ime1 and Ime2. Ime1 is a transcriptional activator that is required for transcription of IME2, a serine/threonine protein kinase. We show that in vivo Ime2 associates with Ime1, that in vitro Ime2 phosphorylates Ime1, and that in living cells the stability of Ime1 depends on Ime2. Diploid cells with IME2 deleted show an increase in the level of Ime1, whereas haploid cells overexpressing IME2 show a decrease in the stability of Ime1. Furthermore, the level of Ime1 depends on the kinase activity of Ime2. Using a mutation in one of the ATPase subunits of the proteasome, RPT2, we demonstrate that Ime1, amino acids 270 to 360, is degraded by the 26S proteasome. We also show that Ime2 itself is an extremely unstable protein whose expression in vegetative cultures is toxic. We propose that a negative-feedback loop ensures that the activity of Ime1 will be restricted to a narrow window.
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PMID:Ime2, a meiosis-specific kinase in yeast, is required for destabilization of its transcriptional activator, Ime1. 1188 93

LKB1 is a widely expressed serine/threonine protein kinase that is mutated in the inherited Peutz-Jeghers cancer syndrome. Recent findings indicate that LKB1 functions as a tumour suppressor, but little is known regarding the detailed mechanism by which LKB1 regulates cell growth. In this study we have purified LKB1 from cells and establish that it is associated with the heat-shock protein 90 (Hsp90) chaperone and the Cdc37 kinase-specific targetting subunit for Hsp90. We demonstrate that Cdc37 and Hsp90 bind specifically to the kinase domain of LKB1. We also perform experiments using Hsp90 inhibitors, which indicate that the association of Hsp90 and Cdc37 with LKB1 regulates LKB1 stability and prevents its degradation by the proteasome. Hsp90 inhibitors are being considered as potential anti-cancer agents. However, our observations indicate that prolonged usage of these drugs could possibly lead to tumour development by decreasing cellular levels of LKB1.
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PMID:Heat-shock protein 90 and Cdc37 interact with LKB1 and regulate its stability. 1248 81

LKB1, a tumor suppressor gene mutated in the Peutz-Jeghers syndrome, encodes a serine/threonine protein kinase. Recent biochemical studies have shown that LKB1 activates 14 AMP-activated protein kinase-related kinases including MARKs (microtubule-associated protein/microtubule affinity-regulating kinases) that regulate microtubule dynamics. Here we show in vitro that LKB1 phosphorylates and activates MARK2, which in turn phosphorylates microtubule-associated protein Tau at the KXGS motif and suppresses tubulin polymerization. In cells, forced expression of LKB1 suppresses microtubule regrowth, whereas LKB1 knockdown accelerates it. We further show that the phosphorylation of Tau by the LKB1-MARK signaling triggers proteasome-mediated degradation of Tau. These results indicate that LKB1 is involved in the regulation of microtubule dynamics through the activation of MARKs.
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PMID:Suppression of tubulin polymerization by the LKB1-microtubule-associated protein/microtubule affinity-regulating kinase signaling. 1757 48

The PML tumor suppressor controls growth suppression, induction of apoptosis, and cellular senescence. PML loss occurs frequently in hematopoietic and solid tumors. PML loss often correlates with tumor progression. Casein kinase 2 (CK2) is a stress-activated serine/threonine protein kinase that is oncogenic and frequently overexpressed in human tumor of multiple histological origins. In addition, CK2 overexpression due to gene amplification has been reported to be an adverse prognostic factor in non-small cell lung cancer. At the 5th International Conference on Protein Kinase CK2 in Padova, Italy, we reviewed our recent findings that PML undergoes ubiquitin/proteasome-mediated degradation in immortalized and tumor derived cell lines. PML degradation depends on direct CK2 phosphorylation of PML Ser517. PML mutants that are resistant to CK2 phosphorylation display increased tumor suppressive functions in assays measuring apoptosis, replicative senescence, and in xenograft models. More significantly, CK2 pharmacological inhibition enhances PML tumor suppressive property. These data identify a key post-translational mechanism that controls PML protein levels in cancer cells and suggest that CK2 inhibitors may be beneficial anti-cancer drugs.
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PMID:CK2 mediates phosphorylation and ubiquitin-mediated degradation of the PML tumor suppressor. 1856 54

In the present study, the molecular karyotypes of 12 KP1(+) and KP1(-) Trypanosoma rangeli strains were determined and 10 different molecular markers were hybridized to the chromosomes of the parasite, including seven obtained from T. rangeli [ubiquitin hydrolase (UH), a predicted serine/threonine protein kinase (STK), hexose transporter, hypothetical protein, three anonymous sequences] and three from Trypanosoma cruzi [ubiquitin-conjugating enzyme E2 (UBE2), ribosomal RNA methyltransferase (rRNAmtr), proteasome non-ATPase regulatory subunit 6 (PSMD6)]. Despite intraspecific variation, analysis of the karyotype profiles permitted the division of the T. rangeli strains into two groups coinciding with the KP1(+) and KP1(-) genotypes. Southern blot hybridization showed that, except for the hexose transporter probe, all other probes produced distinct patterns able to differentiate the KP1(+) and KP1(-) genotypes. The UH, STK and An-1A04 probes exclusively hybridized to the chromosomes of KP1(+) strains and can be used as markers of this group. In addition, the UBE2, rRNAmtr and PSMD6 markers, which are present in a conserved region in all trypanosomatid species sequenced so far, co-hybridized to the same T. rangeli chromosomal bands, suggesting the occurrence of gene synteny in these species. The finding of distinct molecular karyotypes in KP1(+) and KP1(-) strains of T. rangeli is noteworthy and might be used as a new approach to the study of genetic variability in this parasite. Together with the Southern blot hybridization results, these findings demonstrate that differences at the kDNA level might be associated with variations in nuclear DNA.
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PMID:Karyotype variability in KP1(+) and KP1(-) strains of Trypanosoma rangeli isolated in Brazil and Colombia. 1928 97

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