EC:2.7.11.22 - FACTA Search

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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The yeast Cdc7 function is required for the G1/S transition and is dependent on passage through START, a point controlled by the Cdc28/cdc2/p34 protein kinase. CDC7 encodes a protein kinase activity, and we now show that this kinase activity varies in the cell cycle but that protein levels appear to remain constant. We present several lines of evidence that periodic activation of CDC7 kinase is at least in part through phosphorylation. First, the kinase activity of the Cdc7 protein is destroyed by dephosphorylation of the protein in vitro with phosphatase. Second, Cdc7 protein is hypophosphorylated and inactive as a kinase in extracts of cells arrested at START but becomes active and maximally phosphorylated subsequent to passage through START. The phosphorylation pattern of Cdc7 protein is complex. Phosphopeptide mapping reveals four phosphopeptides in Cdc7 prepared from asynchronous yeast cells. Both autophosphorylation and phosphorylation in trans appear to contribute to this pattern. Autophosphorylation is shown to occur by using a thermolabile Cdc7 protein. A protein in yeast extracts can phosphorylate and activate Cdc7 protein made in Escherichia coli, and phosphorylation is thermolabile in cdc28 mutant extracts. Cdc7 protein carrying a serine to alanine change in the consensus recognition site for Cdc28 kinase shows an altered phosphopeptide map, suggesting that this site is important in determining the overall Cdc7 phosphorylation pattern.
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PMID:Regulation of Saccharomyces cerevisiae CDC7 function during the cell cycle. 838 76

To understand the role of the type 2A-like protein phosphatase in the cell division cycle, we investigated the mutant phenotypes obtained when the fission yeast ppa1+ and ppa2+ phosphatase genes (which encode polypeptides with approximately 80% identity to mammalian type 2A phosphatases) were either deleted or overexpressed. We also investigated the in vivo effect of okadaic acid, an inhibitor of protein serine/threonine phosphatases, on cell division. We show that ppa2+ interacts genetically with the cell cell regulators cdc25+ and wee1+, as a ppa2 deletion is lethal when combined with wee1-50 but partially suppresses the conditional lethality of cdc25-22 mutation. Evidence that ppa2+ negatively controls the entry into mitosis, possibly through the regulation of cdc2 tyrosine phosphorylation, is presented. ppa2 phosphatase is abundant in the cytoplasm, in contrast to the type 1-like phosphatase dis2, which is enriched in the nucleus. Overproduced ppa1 or ppa2 proteins accumulate in the cytoplasm near the nuclear periphery, and cells arrest in interphase. Okadaic acid-treated cells, like a ppa2 deletion, are short in length and display protein hyperphosphorylation. Cytokinesis is also inhibited, producing binucleated cells. We show that ppa2 is the genetic locus controlling okadaic acid sensitivity. The ppa2 deletion reveals the same hyperphosphorylated proteins as okadaic acid. When a strain deleted for ppa2 is treated with okadaic acid, cell size is reduced further to that of wee1-50 mutant strain or overexpressing the cdc25+ gene product, suggesting functional relationship of ppa2 with the cdc25 tyrosine phosphatase and/or the wee1 kinase in cell cycle control.
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PMID:Negative regulation of mitosis by the fission yeast protein phosphatase ppa2. 838 6

Biological activities of many of the eukaryotic DNA replication proteins are modulated by protein phosphorylation. Investigations of the phosphorylation of adenovirus DNA polymerase (AdPol) have been difficult mainly because of its low level of synthesis in adenovirus-infected HeLa cells. However, when AdPol was overproduced using the recombinant vaccinia virus (RV-AdPol) and the baculovirus expression systems, or by a large scale metabolic labeling of adenovirus 2-infected HeLa cells (native AdPol), in vivo phosphorylation of AdPol could be demonstrated. Phosphoamino acid analysis of [32P]AdPol indicated the presence of phosphoserine independent of the source of AdPol. Comparison of tryptic peptide maps of native AdPol and RV-AdPol revealed that the majority of phosphopeptides were common. Fractionation by high performance liquid chromatography and sequencing of one of the major phosphopeptides revealed serine 67 as a site of phosphorylation. Interestingly, this site is located close to the nuclear localization signal of AdPol and has a consensus substrate recognition sequence for histone H1 (cdc2-related) kinases and mitogen-activated protein kinases. Dephosphorylation of AdPol with calf intestinal alkaline phosphatase resulted in significant decrease in its activity in the in vitro DNA replication initiation assay, suggesting that phosphorylation is important for its biological activity.
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PMID:Adenovirus DNA polymerase is a phosphoprotein. 841 49

RNA polymerase II is a multisubunit enzyme composed of two large subunits of molecular weight in excess of 100,000 and a collection of 8-10 smaller subunits. The largest subunit, designated IIa, contains at its carboxyl terminus a highly repetitive domain consisting of tandem repeats of the consensus sequence Tyr-Ser-Pro-Thr-Ser-Pro-Ser. Extensive phosphorylation within this COOH-terminal domain (CTD) gives rise to subunit IIo which has a markedly reduced mobility in SDS-polyacrylamide gel electrophoresis (PAGE) relative to subunit IIa. Recent evidence suggests that RNA polymerase IIA, containing an unphosphorylated CTD, is involved in preinitiation complex assembly, whereas RNA polymerase IIO is involved in elongation. Consequently, CTD phosphorylation is thought to occur after RNA polymerase II has bound to the promoter by a protein kinase that stably associates with the preinitiation complex. We present here the partial purification and characterization of two distinct CTD kinases from a HeLa cell transcription extract. These CTD kinases, designated CTDK1 and CTDK2, are fractionated by chromatography on Mono Q. CTDK1 catalyzes the incorporation of approximately 33 pmol of phosphate/pmol of calf thymus RNA polymerase subunit IIa, almost exclusively on serine. CTDK2 catalyzes the incorporation of approximately 50 pmol of phosphate/pmol of calf thymus subunit IIa, predominantly on serine; appreciable phosphate transfer onto threonine is also observed. Phosphorylation by CTDK2, but not CTDK1, results in a complete mobility shift in SDS-PAGE of subunit IIa to the position of IIo. CTDK1 can utilize ATP, dATP, or GTP as phosphate donor, whereas CTDK2 can utilize only ATP or dATP. The apparent Km for ATP is 30 microM for CTDK1 and 60 microM for CTDK2. CTDK1 and CTDK2 also differ in their protein substrate specificity. CTDK1 phosphorylates casein whereas CTDK2 does not. Neither kinase phosphorylates phosvitin or histone H1 to an appreciable extent. CTDK1 and CTDK2 do not appear to be related to cdc2 kinases as determined by their inability to phosphorylate H1 and their failure to react with antibodies directed against the cdc2 kinase. These results establish that a partially fractionated HeLa transcription extract contains two distinct CTD kinases that differ in their nucleotide requirements and in their patterns of CTD phosphorylation.
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PMID:Partial purification and characterization of two distinct protein kinases that differentially phosphorylate the carboxyl-terminal domain of RNA polymerase subunit IIa. 841 77

G0S24 is a member of a set of genes (putative G0/G1 switch regulatory genes) that are expressed transiently within 1-2 hr of the addition of lectin or cycloheximide to human blood mononuclear cells. Comparison of a full-length cDNA sequence with the corresponding genomic sequence reveals an open reading frame of 326 amino acids, distributed across two exons. Potential phosphorylation sites include the sequence PSPTSPT, which resembles an RNA polymerase II repeat reported to be a target of the cell cycle control kinase cdc2. Comparison of the derived protein sequence with those of rodent homologs allows classification into three groups. Group 1 contains G0S24 and the rat and mouse TIS11 genes (also known as TTP, Nup475, and Zfp36). Members of this group have three tetraproline repeats. Groups 1 and 2 have a serine-rich region and an "arginine element" (RRLPIF) at the carboxyl terminus. All groups contain cysteine- and histidine-rich putative zinc finger domains and a serine-phenylalanine "SFS" domain similar to part of the large subunit of eukaryotic RNA polymerase II. Comparison of group 1 human and mouse genomic sequences shows high conservation in the 5' flank and exons. A CpG island suggests expression in the germ line. G0S24 has potential sites for transcription factors in the 5' flank and intron; these include a serum response element. Protein and genomic sequences show similarities with those of a variety of proteins involved in transcription, suggesting that the G0S24 product has a similar role.
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PMID:A human putative lymphocyte G0/G1 switch gene homologous to a rodent gene encoding a zinc-binding potential transcription factor. 842 74

To identify protein kinases that may regulate fetal growth and differentiation, we used an oligonucleotide probe encoding the conserved sequence of serine/threonine kinases to screen a fetal lung cDNA library. Several clones were isolated and sequenced, one of which encodes the rat homolog of the 34 kilodalton cyclin-dependent kinase 4 (p34cdk4). Northern blot analyses of pre- and postnatal rat tissues show that rat cdk4 is expressed in a developmentally regulated pattern in all tissues examined. The mRNA is also significantly decreased in cells that are arrested in the G1 phase of cell cycle. The regulated expression of rat cdk4 is consistent with a proliferation-, rather than a differentiation-, dependent pattern.
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PMID:Cloning of the rat cyclin-dependent kinase 4 cDNA: implication in proliferation-dependent expression in rat tissues. 846 25

Human adenovirus early region 1A (E1A) proteins act as transcriptional regulators and function in the control of DNA synthesis and cell transformation. Little is known about how these viral products are functionally regulated. E1A proteins of adenovirus serotype 5 (Ad5) are phosphorylated at several serine residues and previous studies had indicated that both Ser-89 and Ser-219 are substrates for one or more of the cdc2 family of cell cycle kinases. A second residue near the amino terminus, Ser-96, may also be a site. Although phosphorylation of Ser-89 causes a major shift in gel mobility, the effect on E1A biological activity is unclear. In the present studies we have shown by mutational analysis that phosphorylation at Ser-89 also regulates phosphorylation at Ser-96, suggesting that the gel mobility shift is the result of multiple phosphorylation events. Phosphorylation at Ser-89 did not seem to affect E1A-mediated repression of the simian virus 40 enhancer or trans-activation of the E3 promoter significantly, but it did appear to have a modest but significant effect on transformation of primary baby rat kidney cells.
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PMID:Role of phosphorylation near the amino terminus of adenovirus type 5 early region 1A proteins. 846 52

The presence and roles of mitotic cyclins (cyclin A and cyclin B1), and cdc2 and related (having an N-terminal PSTAIRE conserved sequence) serine/threonine protein kinases were investigated by use of specific antibodies. The cyclin A and cyclin B1 antibodies reacted specifically with the acrosomal regions of human sperm cells in the indirect immunofluorescence technique (IFT) and recognized the specific band of p60 (cyclin A) and p62 (cyclin B1) on the Western blot of sodium deoxycholate (DOC)-solubilized noncapacitated human sperm preparation. Both antibodies reacted more strongly with the specific cell region/band of capacitated sperm than with that of noncapacitated sperm. The cdc2 and PSTAIRE antibodies also reacted predominantly with the acrosomal regions of human sperm cells in IFT and recognized the specific band of 34 kDa corresponding to p34 cdc2 protein on the Western blot of DOC-solubilized noncapacitated human sperm preparation. Again, both antibodies reacted more strongly with the specific cell region/band of capacitated sperm than with that of noncapacitated sperm. The cyclin A antibodies (but not the cyclin B1 antibodies) and cdc2 antibodies as well as the PSTAIRE antibodies significantly (p = 0.02 to p < 0.001) increased (rather than decreased) the human sperm penetration rates of zona-free hamster ova; the cyclin A and cdc2 antibodies showed the strongest enhancing effects. These three antibodies significantly increased the acrosome reaction and release of acrosin activity from the sperm cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of cyclins and cdc2 serine/threonine protein kinase in human sperm cell function. 848 36

To understand better growth regulation in the protozoan parasite, Entamoeba histolytica (Eh), a homologue of the cdc2 gene encoding the yeast cyclin-dependent protein kinase, p34cdc2, has been cloned and sequenced. This gene, called Eh cdc2, contains a 79-bp intron located in the same place as the second of four introns in the Schizosaccharomyces pombe cdc2 gene. The sequence of an Eh cdc2 cDNA confirms the conserved eukaryotic splice donor (GT) and acceptor (AG) sites and shows that Eh is able to splice mRNAs. The spliced Eh cdc2 open reading frame is 291 amino acids (aa) long, encoding an M(r) 33,806 protein. The primary sequence of Eh cdc2 is most like those of cdc2 homologues Eg1 of Xenopus laevis and CDK2 of man (52% aa identity with each) and codes for (i) the serine (Ser), threonine (Thr), and tyrosine residues phosphorylated in p34cdc2 proteins, (ii) 32 of 33 aa conserved in other Ser/Thr protein kinases, and (iii) the sequence PVTSVRE instead of PSTAIRE found in most p34cdc2 proteins. This is the first cell-division-cycle regulatory protein homologue, as well as the first intron identified from Eh.
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PMID:Cloning of the Eh cdc2 gene from Entamoeba histolytica encoding a protein kinase p34cdc2 homologue. 850 Jul 62

Maturation-promoting factor, consisting of cdc2 protein kinase and a regulatory B-type cyclin, is a universal regulator of meiosis and mitosis in eukaryotes. In Xenopus, there are two subtypes of B-type cyclins, designated B1 and B2, both of which are phosphorylated. In this study, we have investigated the biological significance of this phosphorylation for Xenopus cyclin B1 during meiotic maturation. We have used a combination of site-directed mutagenesis and phosphopeptide-mapping to identify serine residues 2, 94, 96, 101, and 113 as presumptive phosphorylation sites, and together these sites account for all cyclin B1 phosphorylation in oocytes before germinal vesicle breakdown (GVBD). Single Ser-->Ala mutants as well as multiple site mutants have been constructed and characterized. Phosphorylation of cyclin B1 appears to be required for Xenopus oocyte maturation, based on the significantly diminished ability of the quintuple Ala mutant to induce oocyte maturation. Furthermore, partial phosphorylation of these five sites is sufficient to meet this requirement. Phosphorylation of cyclin B1 is not required for cdc2 kinase activity, for binding to cdc2 protein, for stability of cyclin B1 before GVBD, or for destruction of cyclin B1 after GVBD or after egg activation. A quintuple Glu mutant was also constructed, with serine residues 2, 94, 96, 101, and 113 mutated to Glu. In contrast to the quintuple Ala mutant, the quintuple Glu mutant was able to induce oocyte maturation efficiently, and with more rapid kinetics than wild-type cyclin B1. These data confirm that phosphorylation, as mimicked by Ser-->Glu mutations, confers enhanced biological activity to cyclin B1. Possible roles of cyclin B1 phosphorylation are discussed that might account for the increased biological activity of the quintuple Glu mutant.
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PMID:Requirement for phosphorylation of cyclin B1 for Xenopus oocyte maturation. 853 10

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