EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclic GMP (cGMP)-dependent protein kinase (PKG) has a limited substrate specificity, and only cerebellar G-substrate has been demonstrated in brain. In view of the physiological importance of cGMP and PKG in the nervous system, it is important to identify endogenous PKG substrates in rat brain. We devised a combination of ion-exchange and hydrophobic chromatographies to identify potential PKG substrates. Extracts from cytosol, peripheral membrane proteins, or a fraction enriched in Ca(2+)-sensitive lipid-binding proteins were partly purified and phosphorylated with purified PKG. Using whole extracts only a single specific PKG substrate-P34-was found. However, after chromatography we detected > 40 distinct proteins that were phosphorylated by PKG to a much greater extent than by cyclic AMP-dependent protein kinase or protein kinase C. Four PKG substrates--P140, P65, P32, and P18--were detected in the cytosol. Six PKG substrates--P130, P85 (doublet), P58, P54, and P38--were enriched from the Ca(2+)-sensitive lipid-binding protein fraction. In peripheral membrane fractions > 30 relatively specific PKG substrates were enriched after chromatography, especially P130, P94, P58, P52, P45, P40, P36, P34, P28, P26, P24, and P20. These results indicate that brain is not lacking in PKG substrates and show that many are apparently quite specific substrates for this enzyme. The identification of some of these novel PKG substrates will facilitate understanding the role of cGMP signaling in the brain.
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PMID:Cyclic GMP-dependent protein kinase substrates in rat brain. 761 14

p21Cip1 is a cyclin-dependent kinase (Cdk) inhibitor that is transcriptionally activated by p53 in response to DNA damage. We have explored the interaction of p21 with the currently known Cdks. p21 effectively inhibits Cdk2, Cdk3, Cdk4, and Cdk6 kinases (Ki 0.5-15 nM) but is much less effective toward Cdc2/cyclin B (Ki approximately 400 nM) and Cdk5/p35 (Ki > 2 microM), and does not associate with Cdk7/cyclin H. Overexpression of P21 arrests cells in G1. Thus, p21 is not a universal inhibitor of Cdks but displays selectivity for G1/S Cdk/cyclin complexes. Association of p21 with Cdks is greatly enhanced by cyclin binding. This property is shared by the structurally related inhibitor p27, suggesting a common biochemical mechanism for inhibition. With respect to Cdk2 and Cdk4 complexes, p27 shares the inhibitory potency of p21 but has slightly different kinase specificities. In normal diploid fibroblasts, the vast majority of active Cdk2 is associated with p21, but this active kinase can be fully inhibited by addition of exogenous p21. Reconstruction experiments using purified components indicate that multiple molecules of p21 can associate with Cdk/cyclin complexes and inactive complexes contain more than one molecule of p21. Together, these data suggest a model whereby p21 functions as an inhibitory buffer whose levels determine the threshold kinase activity required for cell cycle progression.
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PMID:Inhibition of cyclin-dependent kinases by p21. 762 5

Phosphorylation of the carboxyl-terminal domain (CTD) of the large subunit of RNA polymerase II has been suggested to be critical for transcription initiation, activation, or elongation. A kinase activity specific for CTD is a component of the general transcription factor TFIIH. Recently, a cyclin-dependent kinase-activator kinase (MO15 and cyclin H) was found to be associated with TFIIH preparations and was suggested to be the CTD kinase. TFIIH preparations containing mutant, kinase-deficient MO15 lack CTD kinase activity, indicating that MO15 is critical for polymerase phosphorylation. Nonetheless, these mutant TFIIH preparations were fully functional (in vitro) in both basal and activated transcription. These results indicate that CTD phosphorylation is not required for transcription with a highly purified system.
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PMID:A kinase-deficient transcription factor TFIIH is functional in basal and activated transcription. 776 69

The protein kinase p34cdc2 plays a central role in controlling the G2 to mitosis transition in all eukaryotic cells. It is regulated by protein-protein association and by multiple phosphorylations; one of these phosphorylations is absolutely required for activity. Until recently, the molecular identity of the protein kinase that phosphorylates this site was unknown. The subunits of this enzyme have been identified recently as p40MO15, the catalytic subunit, and cyclin H, a regulatory subunit. Similarities between this kinase and the p34cdc2 family of protein kinases suggest how p40MO15 itself may be regulated.
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PMID:The function(s) of CAK, the p34cdc2-activating kinase. 785 94

KIN28, a member of the p34cdc2/CDC28 family of protein kinases, is identified as a subunit of yeast RNA polymerase transcription factor IIH (TFIIH) on the basis of sequence determination, immunological reactivity, and copurification. KIN28 is, moreover, one of three subunits of TFIIK, a subassembly of TFIIH with protein kinase activity directed toward the C-terminal repeat domain (CTD) of the largest subunit of RNA polymerase II. Itself a phosphoprotein, KIN28 interacts specifically with the two largest subunits of RNA polymerase II. Previous work of others points to two further associations: KIN28 interacts in vivo with the cyclin CCL1, and KIN28 and CCL1 are homologous to human MO15 and cyclin H, which form the cyclin-dependent kinase-activating kinase (CAK). We show that human CAK possesses the CTD kinase activity characteristic of TFIIH.
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PMID:Relationship of CDK-activating kinase and RNA polymerase II CTD kinase TFIIH/TFIIK. 800 Nov 36

Phosphorylation by the CDK-activating kinase (CAK) is a required step in the activation of cyclin-dependent kinases. We have purified CAK from mammalian cells; the enzyme comprises two major polypeptides of 42 and 37 kDa. Protein sequencing indicates that the 42 kDa subunit is the mammalian homolog of MO15, a protein kinase known to be a component of CAK in amphibians and echinoderms. Cloning of a cDNA encoding the 37 kDa subunit identifies it as a novel cyclin (cyclin H). We have reconstituted CAK in vitro with the MO15 catalytic subunit and cyclin H, demonstrating that MO15 is a cyclin-dependent kinase (CDK7). Like other CDKs, MO15/CDK7 contains a conserved threonine required for full activity; mutation of this residue severely reduces CAK activity. The CAK holoenzyme activates complexes of CDK2 and CDC2 with various cyclins and also phosphorylates CDK2, but not CDC2, in the absence of cyclin. Thus, CAK is a CDK-cyclin complex implicated in the control of multiple cell cycle transitions.
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PMID:A novel cyclin associates with MO15/CDK7 to form the CDK-activating kinase. 806 18

The eukaryotic cell cycle is regulated by the sequential activation of cyclin-dependent kinases (CDKs). CDK activation is dependent on cyclin binding and phosphorylation of a conserved threonine (T161 in Cdc2) mediated by the CDK-activating kinase CAK. A CDK-related kinase, MO15 (ref. 10), has been identified as the catalytic subunit of CAK (refs 11-13). Here we use a yeast two-hybrid screen to show that a new human cyclin (cyclin H) is a MO15-associated protein. Cyclin H is a major MO15 partner in vivo and enhances the kinase activity of MO15 towards Cdk2/cyclin A. These findings demonstrate that a cyclin/kinase complex can function as a regulator of other cyclin/kinase complexes, and suggest that cyclin/kinase cascades may exist.
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PMID:A cyclin associated with the CDK-activating kinase MO15. 807 87

Mammalian CDK7 is a protein kinase identified as the catalytic subunit of cyclin-dependent kinase (CDK)-activating kinase and as an essential component of the transcription factor TFIIH that is involved in transcription initiation and DNA repair. We have identified in human cells a number of CDK7-associated cellular proteins that appear to fall into two classes based on their relative [35S] metabolic labeling intensity. One class of proteins present in CDK7 immunocomplexes as a minor fraction contains components of the TFIIH transcription complex such as p62 and p89ERCC3, whereas the other fraction contains four polypeptides (p35, p37Cyclin H, p75, and p95) that are stoichiometrically associated with CDK7. Whereas the levels of association of p35, p37Cyclin H, and p75 with CDK7 remain unchanged between density-arrested and proliferating Ewing sarcoma EW-1 cells, the association of p95 with CDK7 was significantly decreased as cells reached confluency. Through a large-scale immunopurification of CDK7 complexes and protein microsequencing, we have isolated a cDNA that encodes p35 and have shown that it is the human homologue of Mat1 that is involved in the assembly of CAK. MAT1 contains a highly conserved C3HC4 motif at its NH2 terminus, a characteristic feature shared among RING finger proteins. The human MAT1 gene expresses a single 1.6-kb transcript, the steady-state level of which, like CDK7 and cyclin H, varies significantly in different cell lines and in different terminally differentiated tissues.
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PMID:Molecular cloning of CDK7-associated human MAT1, a cyclin-dependent kinase-activating kinase (CAK) assembly factor. 852 93

The activation of cyclin-dependent protein kinases (Cdks) is dependent upon site-specific phosphorylation and dephosphorylation reactions, as well as positive and negative regulatory subunits. The human Cdk-activating protein kinase (Cak1) is itself a Cdc2-related cyclin-dependent protein kinase that associates with cyclin H. The present study utilized specific anti-Cak1 antibodies and immunoaffinity chromatography to identify additional Cak1-associated proteins and potential target substrates. Immunoprecipitation of metabolically labeled human osteosarcoma cells revealed a number of Cak1-associated proteins, including p95, p37 (cyclin H), and a 35-kDa protein that was further characterized herein. Microsequence analysis obtained after limited proteolysis revealed peptide fragments that are similar, but not identical to, human and yeast cyclins, thus identifying p35 as a cyclin-like regulatory subunit. The greatest sequence similarity of human p35 is with Mcs2, a yeast cyclin that is essential for cell cycle progression. Immunoaffinity chromatography performed under nondenaturing conditions afforded the isolation of enzymatically active Cak1 from cell lysates, enabling studies of kinase autophosphorylation and comparative substrate utilization. Immunoaffinity-purified Cak1 phosphorylated monomeric Cdc2 and Cdk2, but not Cdk4; the phosphorylation of both Cdc2 and Cdk2 were increased in the presence of recombinant cyclin A. These studies indicate that the Cak1 catalytic subunit, like Cdc2 and Cdk2, associates with multiple regulatory partners and suggests that subunit composition may be an important determinant of this multifunctional enzyme.
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PMID:Biochemical characterization of the human cyclin-dependent protein kinase activating kinase. Identification of p35 as a novel regulatory subunit. 855 Jun 4

The cyclin-dependent kinase (CDK)-activating kinase, CAK, from mammals and amphibians consists of MO15/CDK7 and cyclin H, a complex which has been identified also as a RNA polymerase II C-terminal domain (CTD) kinase. While the Schizosaccharomyces pombe cdc2 gene product also requires an activating phosphorylation, the enzyme responsible has not been identified. We have isolated an essential S.pombe gene, mop1, whose product is closely related to MO15 and to Saccharomyces cerevisiae Kin28. The functional similarity of Mop1 and MO15 is reflected in the ability of MO15 to rescue a mop1 null allele. This suggests that Mop1 would be a CDK, and indeed Mop1 associates with a previously characterized cyclin H-related cyclin Mcs2 of S.pombe. Also, Mop1 and Mcs2 can associate with the heterologous partners human cyclin H and MO15, respectively. Moreover, the rescue of a temperature-sensitive mcs2 strain by expression of mop1+ demonstrates a genetic interaction between mop1 and mcs2. In a functional assay, immunoprecipitated Mop1-Mcs2 acts both as an RNA polymerase II CTD kinase and as a CAK. The CAK activity of Mop1-Mcs2 distinguishes it from the related CDK-cyclin pair Kin28-Ccl1 from S.cerevisiae, and supports the notion that Mop1-Mcs2 may represent a homolog of MO15-cyclin H in S.pombe with apparent dual roles as a RNA polymerase CTD kinase and as a CAK.
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PMID:Schizosaccharomyces pombe Mop1-Mcs2 is related to mammalian CAK. 855 36

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