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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)
Numatrin is a nuclear matrix phosphoprotein whose synthesis and abundance were shown to be regulated during the cell cycle in mitogen-stimulated lymphocytes (Feuerstein, N., and Mond, J. (1987) J. Biol. Chem. 262, 11389-11397). We examined the effect of (a) CTD-kinase, which contains the
cdc2
catalytic component (p34) in a complex with a p58 subunit (
cdc2
/p58) and (b) the M phase-specific histone H1 kinase, which contains the
cdc2 kinase
in association with a
p62
subunit (
cdc2
/
p62
), on phosphorylation of numatrin. We show that both
cdc2 kinase
complexes can phosphorylate numatrin. However,
cdc2
/p58 at conditions that caused a similar effect to
cdc2
/
p62
on phosphorylation of histone H1 (dpm/micrograms of substrate/micrograms of enzyme) was found to have a 5-25-fold higher catalytic activity in the phosphorylation of numatrin. Analysis of the tryptic phosphopeptide map of numatrin phosphorylated by these
cdc2 kinase
complexes showed that both kinase complexes phosphorylated two major identical peptides, but minor additional peptides were differentially phosphorylated by each of these kinases. This indicates that under certain experimental conditions
cdc2
/p58 and
cdc2
/
p62
may express some differences in their catalytic activity. In vitro phosphorylation by CTD kinase of a whole nuclear protein extract from murine fibroblasts showed that numatrin is the most prominent substrate for CTD kinase in this nuclear extract. CTD kinase
cdc2
/p58 was found to induce significantly the phosphorylation of five other discrete nuclear substrates. Particularly, two nuclear proteins at 75 kDa/pI approximately 6.5 and 85 kDa/pI approximately 5.3, which were not Coomassie Blue stainable, were found to be markedly phosphorylated by CTD kinase. The results of this study call for further study of the role of CTD kinase
cdc2
/p58 in the phosphorylation of numatrin under physiological conditions and to further characterization of the other nuclear substrates for CTD kinase.
...
PMID:Phosphorylation of numatrin and other nuclear proteins by cdc2 containing CTD kinase cdc2/p58. 187 52
Tyrosine phosphorylation of
cdc2
is regulated in the cell cycle of mouse 3T3 fibroblasts. Phosphotyrosine in
cdc2
is detectable at the onset of DNA synthesis and becomes maximal in the G2 phase of the cell cycle. Quantitative tyrosine dephosphorylation of
cdc2
occurs during entry into mitosis and no phosphotyrosine is detected during the G1 phase of the cell cycle. While increasing tyrosine phosphorylation of
cdc2
correlates with the formation of a
cdc2
/
p62
complex, the tyrosine phosphorylated
cdc2
is inactive as a histone H1 kinase.
cdc2
is fully dephosphorylated in its most active mitotic form, yet specific tyrosine dephosphorylation of interphase
cdc2
in vitro is insufficient to activate the kinase. In vivo inhibition of tyrosine dephosphorylation by exposure of cells to a phosphatase inhibitor is associated with G2 arrest, which is reversible upon the removal of the phosphatase inhibitor. Tyrosine dephosphorylation of
cdc2
may be one of a number of obligatory steps in the mitotic activation of the kinase.
...
PMID:Reversible tyrosine phosphorylation of cdc2: dephosphorylation accompanies activation during entry into mitosis. 247 39
p60 is a cellular protein that binds to the adenovirus E1A protein complex in virally infected or transformed human cells. In both infected and uninfected cells, p60 was found in a complex with the
cdc2
protein kinase. Immune complexes containing p60 and
cdc2
display a cell cycle-dependent histone H1 kinase activity that is most active in interphase. The previously described
cdc2
-
p62
/cyclin complex also acts as a histone H1 kinase but is maximally active in mitotic metaphase. The shift in the timing of activation of different
cdc2
-containing complexes suggests that each might play a distinct role in regulation of the cell cycle.
...
PMID:A 60 kd cdc2-associated polypeptide complexes with the E1A proteins in adenovirus-infected cells. 257 Jun 39
A so-called "growth-associated" or "M phase-specific" histone H1 kinase (H1K) has been described in a wide variety of eukaryotic cell types. In starfish oocytes, the hormone 1-methyladenine triggers synchronous meiotic divisions that are accompanied by a rapid 30-fold stimulation of H1K activity. We have substantially purified this activated enzyme and find that it is enriched for a protein of 34 kd. Quantitative immunoblotting of the column fractions with antibodies raised against p34, the product of the fission yeast
cdc2
gene, revealed complete coelution of the H1K activity and a 34 kd anti-
cdc2
cross-reactive protein. Starfish H1K also displayed the same apparent molecular weight, on a molecular sizing column, as the mitotically activated p13/p34/
p62
protein kinase complex of HeLa cells. p13, the product of the fission yeast suc1+ gene, interacts tightly with p34 in yeast, Xenopus, and HeLa cells. H1K from starfish binds strongly to p13-Sepharose and the time course of 1-methyladenine-induced H1K activation, whether assayed in crude extract or on p13-Sepharose beads, is identical. These results indicate that a
cdc2
homolog is a subunit of the M phase-specific H1K of starfish meiotic oocytes. Since this protein is also a subunit of the M-phase promoting factor (MPF) of Xenopus oocytes, we suggest that H1K and MPF are the same entity, and that histone H1 is likely to be one substrate of the pleiotropic MPF.
...
PMID:cdc2 is a component of the M phase-specific histone H1 kinase: evidence for identity with MPF. 284 17
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)
...
PMID:Involvement of cyclins and cdc2 serine/threonine protein kinase in human sperm cell function. 848 36
We previously purified a nuclear localization signal binding protein, NBP60, from rat liver (1993, J. Biochem. 113, 308-313). In this study, the subcellular localization of NBP60 was examined using anti-NBP60. Most NBP60 was found to be localized in the nuclear envelope fraction of rat liver obtained on cell fractionation followed by immunoblotting. Staining of the nuclei of cultured cells by the antibody was observed on immunofluorescence microscopy. NBP60 was widely detected in rat nuclear fractions prepared from other tissues and also in nuclei of cultured cells derived from other species. It was shown by immunoelectron microscopy that most NBP60 is present in the nuclear envelope and at least some of that is present on nuclear pore complexes. Although NBP60 was localized in the nuclear envelope in interphase cells, it diffused into the cytoplasm in the mitotic phase. The purified NBP60 was highly phosphorylated by a
cdc2
mitotic kinase, whereas nuclear pore proteins p144,
p62
, p60, and p54 were not phosphorylated by the kinase directly. NBP60 was also phosphorylated by protein kinase A, calmodulin-dependent protein kinase II, and casein kinase II. The phosphorylation of NBP60 by
cdc2 kinase
and/or the other kinases may be related to the change in the protein's location during the mitotic phase.
...
PMID:Subcellular distribution and phosphorylation of the nuclear localization signal binding protein, NBP60. 859 27
Transcription factor IIH (TFIIH) is a multisubunit protein complex essential for both the initiation of RNA polymerase class II (pol II)-catalyzed transcription and nucleotide excision repair of DNA. Recent studies have shown that TFIIH copurifies with the cyclin-dependent kinase (cdk)-activating kinase complex (CAK) that includes
cdk7
, cyclin H, and p36/MAT1. Here we report the isolation of two TFIIH-related complexes: TFIIH* and ERCC2/CAK. TFIIH* consists of a subset of the TFIIH complex proteins including ERCC3 (XPB),
p62
, p44, p41, and p34 but is devoid of detectable levels of ERCC2 (XPD) and CAK. ERCC2/CAK was isolated as a complex that exhibits CAK activity that cosediments with the three CAK components (
cdk7
, cyclin H, and p36/MAT1) as well as the ERCC2 (XPD) protein. TFIIH* can support pol II-catalyzed transcription in vitro with lower efficiency compared with TFIIH. This TFIIH*-dependent transcription reaction was stimulated by ERCC2/CAK. The ERCC2/CAK and TFIIH* complexes are each active in DNA repair as shown by their ability to complement extracts prepared from ERCC2 (XPD)- and ERCC3 (XPB)-deficient cells, respectively, in supporting the excision of DNA containing a cholesterol lesion. These data suggest that TFIIH* and ERCC2/CAK interact to form the TFIIH holoenzyme capable of efficiently assembling the pol II transcription initiation complex and directly participating in excision repair reactions.
...
PMID:Isolation and characterization of two human transcription factor IIH (TFIIH)-related complexes: ERCC2/CAK and TFIIH. 869 41
The transcription/DNA repair factor TFIIH consists of nine subunits, several exhibiting known functions: helicase/ATPase, kinase activity and DNA binding. Three subunits of TFIIH,
cdk7
, cyclin H and MAT1, form a ternary complex,
cdk-activating kinase
(
CAK
), found either on its own or as part of TFIIH. In the present work, we demonstrate that purified human
CAK
complex (free
CAK
) and recombinant
CAK
(rCAK) produced in insect cells exhibit a strong preference for the cyclin-dependent kinase 2 (cdk2) over a ctd oligopeptide substrate (which mimics the carboxy-terminal domain of the RNA polymerase II). In contrast, TFIIH preferentially phosphorylates the ctd as well as TFIIE alpha, but not cdk2. TFIIH was resolved into four subcomplexes: the kinase complex composed of
cdk7
, cyclin H and MAT1; the core TFIIH which contains XPB,
p62
, p52, p44 and p34; and two other subcomplexes in which XPD is found associated with either the kinase complex or with the core TFIIH. Using these fractions, we demonstrate that TFIIH lacking the
CAK
subcomplex completely recovers its transcriptional activity in the presence of free
CAK
. Furthermore, studies examining the interactions between TFIIH subunits provide evidence that
CAK
is integrated within TFIIH via XPB and XPD.
...
PMID:Substrate specificity of the cdk-activating kinase (CAK) is altered upon association with TFIIH. 913 Jul 8
TFIIH is a general transcription factor for RNA polymerase II that in addition is involved in DNA excision repair. TFIIH is composed of eight or nine subunits and we show that at least four of them, namely
cdk7
, cyclin H, MAT1, and
p62
are localized in the coiled body, a distinct subnuclear structure that is transcription dependent and highly enriched in small nuclear ribonucleoproteins. Although coiled bodies do not correspond to sites of transcription, in vivo incorporation of bromo-UTP shows that they are surrounded by transcription foci. Immunofluorescence analysis using antibodies directed against the essential repair factors proliferating cell nuclear antigen and XPG did not reveal labeling of the coiled body in either untreated cells or cells irradiated with UV light, arguing that coiled bodies are probably not involved in DNA repair mechanisms. The localization of cyclin H in the coiled body was predominantly detected during the G1 and S-phases of the cell cycle, whereas in G2 coiled bodies were very small or not detected. Finally, both cyclin H and
cdk7
did not colocalize with P80 coilin after disruption of the coiled body, indicating that these proteins are specifically targeted to the small nuclear ribonucleoprotein-containing domain.
...
PMID:The cdk7-cyclin H-MAT1 complex associated with TFIIH is localized in coiled bodies. 924 2
Nuclear transcription is repressed when eukaryotic cells enter mitosis. Mitotic repression of transcription of various cellular and viral gene promoters by RNA polymerase II can be reproduced in vitro either with extracts prepared from cells arrested at mitosis with the microtubule polymerization inhibitor nocodazole or with nuclear extracts prepared from asynchronous cells and the mitotic protein kinase cdc2/cyclin B. Purified
cdc2
/cyclin B kinase is also sufficient to inhibit transcription in reconstituted transcription reactions with biochemically purified and recombinant basal transcription factors and RNA polymerase II. The cyclin-dependent kinase inhibitor p21Waf1/Cip1/Sdi1 can reverse the effect of
cdc2
/cyclin B kinase, indicating that repression of transcription is due to protein phosphorylation. Transcription rescue and inhibition experiments with each of the basal factors and the polymerase suggest that multiple components of the transcription machinery are inactivated by
cdc2
/cyclin B kinase. For an activated promoter, targets of repression are TFIID and TFIIH, while for a basal promoter, TFIIH is the major target for mitotic inactivation of transcription. Protein labeling experiments indicate that the
p62
and p36 subunits of TFIIH are in vitro substrates for mitotic phosphorylation. Using the carboxy-terminal domain of the large subunit of RNA polymerase II as a test substrate for phosphorylation, the TFIIH-associated kinase,
cdk7
/cyclin H, is inhibited concomitant with inhibition of transcription activity. Our results suggest that there exist multiple phosphorylation targets for the global shutdown of transcription at mitosis.
...
PMID:Repression of TFIIH transcriptional activity and TFIIH-associated cdk7 kinase activity at mitosis. 948 63
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