Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.22 (cdc2)
 8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of c-myc with constitutively active mutants of the ras gene results in the cooperative transformation of primary fibroblasts, although the precise mechanism by which these genes cooperate is unknown. Since c-Myc has been shown to function as a transcriptional activator, we have examined the ability of c-Myc and activated Ras (H-RasV-12) to cooperatively induce the promoter activity of cdc2, a gene which is critical for cell cycle progression. Microinjection of expression constructs encoding H-RasV-12 and c-Myc along with a cdc2 promoter-luciferase reporter plasmid into quiescent cells led to an increase in cdc2 promoter activity approximately 30 h after injection, a period which coincides with the S-to-G2/M transition in these cells. Expression of H-RasV-12 alone weakly activated the cdc2 promoter, while expression of c-Myc alone had no effect. Mutants of c-Myc lacking either the leucine zipper dimerization domain or the phosphoacceptor site Ser-62 could not cooperate with H-RasV-12 to induce the cdc2 promoter. These mutants also lacked the ability to cooperate with H-RasV-12 to stimulate DNA synthesis. Deletion analysis identified a distinct region of the cdc2 promoter which was required for c-Myc responsiveness. Taken together, these observations suggest a mechanistic link between the molecular activities of c-Myc and Ras and induction of the cell cycle regulator Cdc2.
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PMID:c-Myc cooperates with activated Ras to induce the cdc2 promoter. 806 6

The ubiquitous transcription factor upstream stimulatory factor (USF) 1 is a member of the bzHLH (leucine zipper-basic-helix-loop-helix) family, which is structurally related to the Myc family of proteins. It plays a role in the regulation of many genes, including the cyclin B1 gene, which is active during the G2/M and M phases of the cell cycle and may also play a role in the regulation of cellular proliferation. We show that the affinity of recombinant USF-1 for DNA is greatly increased by treatment with active cyclin A2-p34(cdc2) or cyclin B1-p34(cdc2) complexes and that its interaction with DNA is dependent on p34(cdc2)-mediated phosphorylation. We have localized the phosphorylation site(s) to a region that lies outside the minimal DNA-binding domain but overlaps with the previously identified USF-specific region. Deletion studies of USF-1 suggest that amino acids 143-197 regulate DNA-binding activity in a phosphorylation-dependent manner.
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PMID:DNA-binding activity of the transcription factor upstream stimulatory factor 1 (USF-1) is regulated by cyclin-dependent phosphorylation. 1054 44

Periodic expression of the Cdc6 protein is essential for the entry of budding yeast cells into S phase, and also for participating in checkpoint controls that ensure that DNA replication is completed before mitosis is initiated. We have identified a mouse protein closely related to Cdc6p (MmCdc6p) as well as to its human and Xenopus homologs. The gene coding for MmCdc6p (Cdc6) is located at band D on murine chromosome 11. Analysis of its genomic region revealed that the 13-kb Cdc6 gene is divided into 12 exons by 11 introns. MmCdc6p has putative cyclin-dependent phosphorylation sites, a destruction box, nuclear localization signals, a nucleotide triphosphate-binding motif, and a potential leucine zipper. None of these consensus motifs except the leucine-zipper and the destruction box overlaps an intron. Expression of MmCdc6 mRNA and protein is suppressed in mouse NIH3T3 fibroblasts made quiescent by serum starvation. Upon replenishment of the medium, transcript and protein levels increase during progression through G(1), peaking as cells enter S phase. MmCdc6p is phosphorylated in vitro by cdk1/cyclin B, cdk4/cyclin D, cdk2/cyclin E, and cdk2/cyclin A, respectively at serine-residues. In vivo however, phosphorylation of MmCdc6p is carried out by cdk2/cyclin A at serine-residues exclusively. Conservation of structures among members of the Cdc6-related proteins suggests that these proteins play a key role in the regulation of DNA replication during the cell cycle in all eukaryotes. These results strongly suggest, that Cdc6p plays an important role in cell cycle regulation and replication licensing.
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PMID:Identification and characterization of a mouse homolog to yeast Cdc6p. 1057 31

A 1933 bp cDNA fragment, coding a truncated testis-specific novel nucleoporin, was isolated from a human testis lambdaZAPII cDNA library, designated as BS-63 and assigned GenBank accession number: U64675. By applying the methods of rapid amplification of cDNA ends (5' RACE) and PCR, a full-length BS-63 cDNA composed of 5475 bp was obtained. BS-63 cDNA contained an open reading frame consisting of 1765 codons and XFXFG or GLFG repetitive sequence motifs. These repetitive motifs are structural characteristic of nucleoporins. BS-63 cDNA has high homology with Nup358/Ran BP2. A 1599 bp fragment, corresponding to the C-terminus of BS-63 cDNA, was prepared and expressed in E. coli BL21(DE3). The recombinant product was purified by affinity chromatography and SDS-PAGE and polyclonal antibodies raised. In rat testis section, the BS-63 protein was localized at the sites of nuclear pores in spermatids by immuno-gold transmission electron microscopy and on the nuclear membrane of Triton X-treated sperm by colloidal silver immuno-gold scanning electron microscopy. The recombinant BS-63 protein can be phosphorylated in vitro with PKC and p34(cdc2). A yeast two-hybrid system was used to screen a mouse testis cDNA library to identify proteins capable of interacting with BS-63. Using the 1.6 kb cDNA fragment as bait, the following interacting proteins were identified: Ran, transportin (karyopherin beta2), two proteins related to the nucleocytoplasmic transporter and aF10 protein. The latter protein is a putative transcriptor containing a cysteine-rich N-terminus, a LAP/PHD finger, a leucine zipper domain and a glutamine-rich C-terminus. Also it is highly expressed in murine testis and is located in the cell nucleus and cytoplasm. The interaction of BS-63 with aF10 (696-1001aa) was validated by surface plasmon resonance and by affinity precipitation combined with Western blot. aF10 (696-1001aa) interacted in vitro with BS-63 extracted from rat testis germ cells. It is hypothesized that BS-63 is a testis-specific nucleoporin and possibly acts as a docking site and a cotransporter of Ran and transportin. The complex performs the task of a carrier system in transporting aF10 into the nucleus of germ cells during spermiogenesis.
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PMID:Characterization and potential function of a novel testis-specific nucleoporin BS-63. 1177 84

CCAAT/enhancer binding protein alpha (C/EBPalpha) transactivates target genes dependent upon DNA binding via its basic region-leucine zipper domain and slows G1 progression by interaction with E2F, cdk2, or cdk4. E2F interacts with the non-DNA-binding surface of the C/EBPalpha basic region and C/EBPalpha residues 1-70 are required for repressing E2F targets, while cdk2 and cdk4 bind residues 177-191. C/EBPalpha-ER induces the 32D cl3 myeloblast cell line to differentiate to granulocytes. C/EBPalpha-ER variants incapable of binding DNA slowed G1, but did not induce early or late granulopoiesis, indicating that cell cycle inhibition as mediated by C/EBPalpha is not sufficient for differentiation. C/EBPalpha-ER variants lacking residues 11-70 or residues 11-70 and 178-200 both slowed the G1 to S transition. C/EBPalpha(GZ)-ER, containing the GCN4 rather than the C/EBPalpha leucine zipper, also slowed G1. In contrast, C/EBPalpha(BRM2)-ER, carrying mutations in the outer surface of the basic region required for interaction with E2F, did not slow G1. C/EBPalpha(BRM2)-ER induced early markers of granulopoiesis much less efficiently than C/EBPalpha-ER and did not direct terminal maturation. Inhibition of G1 progression using mimosine increased induction of late markers by G-CSF. Thus, both DNA binding and cell cycle arrest, mediated by opposite surfaces of the C/EBPalpha basic region, are required for granulopoiesis.
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PMID:Cell cycle inhibition mediated by the outer surface of the C/EBPalpha basic region is required but not sufficient for granulopoiesis. 1273 Jun 69

Previous work has demonstrated that the human cytomegalovirus IE1-72 protein is able to bind to the N terminus of p107, and IE1-72 alone is sufficient for alleviation of p107-mediated cell growth suppression. However, the mechanism of this alleviation is unclear. Here, we show that IE1-72 can alleviate p107 inhibition of cyclin E/cdk2 kinase activity. We cotransfected various IE1-72 and p107 constructs into C33A cells and demonstrated that IE1-72 could activate the kinase activity of cyclin E/cdk2. Conversely, IE2-86 did not activate this activity, suggesting that the interaction between p107 and IE1-72 and the subsequent kinase activation are specific. By the use of a series of deletion and point mutants of IE1-72 and p107, we observed that a mutation of the loop region of helix-loop-helix-turn-helix in exon 3 of IE1-72 as well as a mutation of the leucine zipper-2 region in exon 4 of IE1-72 abolished binding to p107. In addition, these two IE1-72 mutants did not alleviate p107 inhibition of cyclin E/cdk2 kinase activity and also failed to alleviate p107 inhibition of the E2F-responsive promoter. Meanwhile, deletion of the N-terminal aa 1 to 175 of p107 abolished both p107 binding with IE1-72 and p107 inhibition of cyclin E/cdk2 kinase activity. This result confirms that the N-terminus aa 1 to 175 region of p107 is a common region where both IE1-72 protein and cyclin E/cdk2 bind. We propose a mechanism in which binding of IE1-72 to p107 displaces cyclin E/cdk2 from p107. Once released from p107, cyclin E/cdk2 is able to function as an active kinase.
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PMID:Interactions between human cytomegalovirus IE1-72 and cellular p107: functional domains and mechanisms of up-regulation of cyclin E/cdk2 kinase activity. 1461 Jan 88