UNIPROT:P06889 - FACTA Search

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suc1 is an essential gene initially identified for its ability to rescue certain temperature-sensitive alleles of cdc2 in Schizosaccharomyces pombe. The role of suc1 in the regulation of the cdc2 kinase is not well understood. In our study, we have characterized the biochemical effect of loss of suc1 function on specific cdc2-cyclin complexes. We show that the cig1 cyclin is associated with cdc2 and that the cdc2-cig1 kinase is activated at mitosis, with kinetics similar to those of the cdc2-cdc13 kinase. We provide evidence that loss of suc1 function affects the kinase activity of the two distinct mitotic forms of the cdc2 kinase. We also show that a dramatic increase in the level of the cdc13 protein is associated with loss of suc1. These results suggest that mitosis cannot be properly completed in the absence of suc1, possibly because of an increase in the level of cdc2-cdc13 complex, and support the idea of a role for suc1 in the regulation of multiple forms of the cdc2 kinase.
Mol Cell Biol 1995 Apr
PMID:p13suc1 of Schizosaccharomyces pombe regulates two distinct forms of the mitotic cdc2 kinase. 789 98

We have recently shown that two proteins, proliferating cell nuclear antigen (PCNA) and p21, are associated with cyclin D. Here we show that PCNA and p21 are common components of a wide variety of cyclin/cyclin-dependent kinase complexes in nontransformed cells. These include kinase complexes containing cyclin A, cyclin B, and cyclin D, associated either with CDC2, CDK2, CDK4, or CDK5. We show that PCNA and p21 form separate quaternary complex with each cyclin/CDK and that these quaternary complexes contain a substantial, if not major, fraction of the cell cycle kinases in asynchronously growing cells. These results suggest that PCNA and p21 may perform a common function for all these kinases.
Mol Biol Cell 1993 Sep
PMID:Proliferating cell nuclear antigen and p21 are components of multiple cell cycle kinase complexes. 790 56

Herpesvirus saimiri contains an open reading frame called eclf2 with homology to the cellular type D cyclins. We now show that the eclf2 gene product is a novel virus-encoded cyclin (v-cyclin). The protein encoded by the v-cyclin gene of this oncogenic herpesvirus was found to have an apparent molecular size of 29 kDa in transformed cells. v-Cyclin protein was found to be associated with cdk6, a cellular cyclin-dependent kinase known to interact with cellular type D cyclins. cdk6/v-cyclin complexes strongly phosphorylated Rb fusion protein and histone H1 as substrates in vitro. Mutational analyses showed that highly conserved amino acids in the cyclin box of v-cyclin were important for association with cdk6 and for activation of cdk6 kinase activity. Thus, v-cyclin resembles cellular type D cyclins in primary sequence, in its association with cdk6, by its ability to activate protein kinase activity, and by the presence of functional cyclin box sequences. v-Cyclin exhibited a selective preference for association with cdk6 over other cyclin-dependent kinases and a high level of kinase activation. The properties of v-cyclin suggest a likely role in oncogenic transformation by this T-lymphotropic herpesvirus.
Mol Cell Biol 1994 Nov
PMID:Virus-encoded cyclin. 793 38

The assembly of functional holoenzymes composed of regulatory D-type cyclins and cyclin-dependent kinases (cdks) is rate limiting for progression through the G1 phase of the mammalian somatic cell cycle. Complexes between D-type cyclins and their major catalytic subunit, cdk4, are catalytically inactive until cyclin-bound cdk4 undergoes phosphorylation on a single threonyl residue (Thr-172). This step is catalyzed by a cdk-activating kinase (CAK) functionally analogous to the enzyme which phosphorylates cdc2 and cdk2 at Thr-161/160. Here, we demonstrate that the catalytic subunit of mouse cdc2/cdk2 CAK (a 39-kDa protein designated p39MO15) can assemble with a regulatory protein present in either insect or mammalian cells to generate a CAK activity capable of phosphorylating and enzymatically activating both cdk2 and cdk4 in complexes with their respective cyclin partners. A newly identified 37-kDa cyclin-like protein (cyclin H [R. P. Fisher and D. O. Morgan, Cell 78:713-724, 1994]) can assemble with p39MO15 to activate both cyclin A-cdk2 and cyclin D-cdk4 in vitro, implying that CAK is structurally reminiscent of cyclin-cdk complexes themselves. Antisera produced to the p39MO15 subunit can completely deplete mammalian cell lysates of CAK activity for both cyclin A-cdk2 and cyclin D-cdk4, with recovery of activity in the resulting immune complexes. By using an immune complex CAK assay, CAK activity for cyclin A-cdk2 and cyclin D-cdk4 was detected both in quiescent cells and invariantly throughout the cell cycle. Therefore, although it is essential for the enzymatic activation of cyclin-cdk complexes, CAK appears to be neither rate limiting for the emergence of cells from quiescence nor subject to upstream regulatory control by stimulatory mitogens.
Mol Cell Biol 1994 Nov
PMID:Activation of cyclin-dependent kinase 4 (cdk4) by mouse MO15-associated kinase. 793 41

Swi4 and Swi6 form a complex which is required for Start-dependent activation of HO and for high-level expression of G1 cyclin genes CLN1 and CLN2. To identify other regulators of this pathway, we screened for dominant, recessive, conditional, and allele-specific suppressors of swi4 mutants. We isolated 16 recessive suppressors that define three genes, SSF1, SSF5, and SSF9 (suppressor of swi four). Mutations in all three genes bypass the requirement for both Swi4 and Swi6 for HO transcription and activate transcription from reporter genes lacking upstream activating sequences (UASs). SSF5 is allelic with SIN4 (TSF3), a gene implicated in global repression of transcription and chromatin structure, and SSF9 is likely to be a new global repressor of transcription. SSF1 is allelic with CDC68 (SPT16). cdc68 mutations have been shown to increase expression from defective promoters, while preventing transcription from other intact promoters, including CLN1 and CLN2. We find that CDC68 is a required activator of both SWI4 and SWI6, suggesting that CDC68's role at the CLN promoters may be indirect. The target of CDC68 within the SWI4 promoter is complex in that known activating elements (MluI cell cycle boxes) in the SWI4 promoter are required for CDC68 dependence but only within the context of the full-length promoter. This result suggests that there may be both a chromatin structure and a UAS-specific component to Cdc68 function at SWI4. We suggest that Cdc68 functions both in the assembly of repressive complexes that form on many intact promoters in vivo and in the relief of this repression during gene activation.
Mol Cell Biol 1994 Nov
PMID:Differential effects of Cdc68 on cell cycle-regulated promoters in Saccharomyces cerevisiae. 793 60

Transcription of 5S rRNA and tRNA genes by RNA polymerase III (pol III) in cytosolic extracts of unfertilized Xenopus eggs and in a reconstituted system derived from Xenopus oocytes is repressed by the action of one or more mitotic protein kinases. Repression is due to the phosphorylation of a component of the pol III transcription apparatus. We find that the maturation/mitosis-promoting factor kinase (MPF, p34cdc2-cyclin B) can directly mediate this repression in vitro. Affinity-purified MPF and immune complexes formed with antibodies to the protein subunits of MPF (p34cdc2 and cyclin B) retain both histone H1 kinase activity and the capacity to repress transcription in the reconstituted transcription system. Transcription complexes of oocyte-type 5S RNA genes and tRNA genes are quantitatively more sensitive to MPF repression than the corresponding transcription complexes of the somatic-type 5S RNA gene. The differential transcription of oocyte- and somatic-type genes observed during early Xenopus embryogenesis has been reproduced with the reconstituted transcription system and affinity-purified MPF. This differential transcription may be due to the instability of transcription complexes on the oocyte-type genes and the heightened sensitivity of soluble transcription factors to inactivation by mitotic phosphorylation. Our results suggest that MPF may play a role in vivo in the establishment of the embryonic pattern of pol III gene expression.
Mol Cell Biol 1994 Jul
PMID:Role of maturation-promoting factor (p34cdc2-cyclin B) in differential expression of the Xenopus oocyte and somatic-type 5S RNA genes. 800 72

The transcription factor E2F has been implicated in cell cycle control by virtue of its association with cyclins, cyclin-dependent kinases, and pRb-related tumor suppressor gene products. Eggs and embryos from the frog Xenopus laevis have been used to investigate the characteristics of E2F-like molecules in the Xenopus cell cycle and throughout early development. We find multiple E2F species in Xenopus eggs, at least one of which is modified by phosphorylation. The vast majority of E2F remains in the free form throughout the very early embryonic cell cycle, and it also remains predominantly free until some time after the mid-blastula transition, the onset of zygotic transcription. At this time, E2F complexes significantly to pRb but not to cdk2, although cdk2 binding is found in tissue culture cells from a very advanced stage in embryogenesis. This suggests that the complexing of E2F to cyclins, cyclin-dependent kinases, and tumor suppressor gene products may be controlled separately in early Xenopus development. Thus, the association of E2F with other molecules may not result solely from processes affecting cell cycle progression but may also reflect developmental and differentiation cues.
Mol Cell Biol 1994 Jul
PMID:E2F and its developmental regulation in Xenopus laevis. 800 93

MPM-2 antigens, a discrete set of phosphoproteins that contain similar phosphoepitopes recognized by the monoclonal antibody MPM-2, are phosphorylated during M-phase induction. Our previous studies suggested that certain MPM-2 antigens are involved in the appearance of maturation-promoting factor (MPF) activity. Because the central mitotic regulator cdc2 kinase has been shown to exhibit MPF activity, we explored the possibility that certain MPM-2 antigens are regulators of cdc2 kinase. We found that MPM-2 binding of its antigens would inhibit the autoamplification of cdc2 kinase in Xenopus oocytes and interfere with cyclin-activation of cdc2 kinase in Xenopus interphase egg extract. Immunodepletion of MPM-2 antigens from cyclin-induced M-phase egg extract caused the inactivation of cdc2 kinase, which was accompanied by an inhibitory phosphorylation of p34cdc2 on Thr 14 and Tyr 15, indicating that at least one MPM-2 antigen is a positive regulator of p34cdc2 dephosphorylation. We then showed that cdc25 from M-phase arrested egg extract is an MPM-2 antigen. These results suggest that phosphorylation of the epitope recognized by MPM-2 may be a crucial event in the activation of cdc25 and that the kinase(s) that phosphorylates this MPM-2 epitope may be an important regulator of cdc2 kinase activation.
Mol Biol Cell 1994 Feb
PMID:cdc25 is one of the MPM-2 antigens involved in the activation of maturation-promoting factor. 801

Activation of muscle gene transcription in differentiating skeletal myoblasts requires their withdrawal from the cell cycle. The effects of ectopic cyclin expression on activation of muscle gene transcription by myogenic basic helix-loop-helix (bHLH) regulators were investigated. Ectopic expression of cyclin D1, but not cyclins A, B1, B2, C, D3, and E, inhibited transcriptional activation of muscle gene reporter constructs by myogenic bHLH regulators in a dose-dependent manner. Ectopic expression of cyclin D1 inhibited the activity of a myogenic bHLH regulator mutant lacking the basic region protein kinase C site, indicating that phosphorylation of this site is not relevant to the mechanism of inhibition. Analysis of cyclin D1 mutants revealed that the C-terminal acidic region was required for inhibition of myogenic bHLH regulator activity, whereas an intact N-terminal pRb binding motif was not essential. Together, these results implicate expression of cyclin D1 as a central determinant of a putatively novel mechanism that links positive control of cell cycle progression to negative regulation of genes expressed in differentiated myocytes.
Mol Cell Biol 1994 Aug
PMID:Ectopic expression of cyclin D1 prevents activation of gene transcription by myogenic basic helix-loop-helix regulators. 803 4

Growing pig oocytes (< or = 90 microns in diameter) are unable to resume meiosis in vitro. The objective of our present experiments has been to identify the reasons for meiotic competence in these cells. By comparing histone H1 kinase activity in growing and fully grown oocytes we demonstrate that incompetence is associated with an inability to activate H1 kinase in growing oocytes. Immunoblotting was used to determine whether this kinase inactivity resulted from a lack of either p34cdc2 protein or B-type cyclin. The results established that each of these cell cycle molecules are present in comparable amounts in both growing and fully grown oocytes. In the third series of studies experiments were carried out in an attempt to induce p34cdc2 activation during growth. Treatment with okadaic acid, an inhibitor of phosphatase 1 and 2A known to stimulate and accelerate the transition into M-phase of the meiotic cycle in a number of different species, was able to induce p34cdc2 kinase activity and facilitated the G2- to M-phase in growing oocytes. We conclude that although growing oocytes in pigs have sufficient key cell cycle components for the G2 to M transition, they remain incapable of converting these components to active maturation-promoting factor (MPF) until growth is virtually completed. Inhibition of phosphatase 1 or 2A induces the formation of active MPF during growth by an as yet unidentified pathway.
Mol Reprod Dev 1994 May
PMID:MPF components and meiotic competence in growing pig oocytes. 804 69

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