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Query: EC:2.3.1.28 (
chloramphenicol acetyltransferase
)
5,100
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Progression through the somatic cell cycle requires the temporal regulation of cyclin gene expression and cyclin protein turnover. One of the best-characterized examples of this regulation is seen for the B-type cyclins. These cyclins and their catalytic component,
cdc2
, have been shown to mediate both the entry into and maintenance of mitosis. The cyclin B1 gene has been shown to be expressed between the late S and G2 phases of the cell cycle, while the protein is degraded specifically at interphase via ubiquitination. To understand the molecular basis for transcriptional regulation of the cyclin B1 gene, we cloned the human cyclin B1 gene promoter region. Using a
chloramphenicol acetyltransferase
reporter system and both stable and transient assays, we have shown that the cyclin B1 gene promoter (extending to -3800 bp relative to the cap site) can confer G2-enhanced promoter activity. Further analysis revealed that an upstream stimulatory factor (USF)-binding site and its cognate transcription factor(s) are critical for expression from the cyclin B1 promoter in cycling HeLa cells. Interestingly, USF DNA-binding activity appears to be regulated in a G2-specific fashion, supporting the idea that USF may play some role in cyclin B1 gene activation. These studies suggest an important link between USF and the cyclin B1 gene, which in part explains how maturation promoting factor complex formation is regulated.
...
PMID:Upstream stimulatory factor regulates expression of the cell cycle-dependent cyclin B1 gene promoter. 773 59
CDK2 (cyclin-dependent kinase 2) is a serine/threonine kinase which is involved in regulating S-phase entry in higher eukaryotes. To investigate the transcriptional control of this gene, a 13-kb Xenopus laevis genomic clone containing the 5' flanking sequences was isolated. A 2.7-kb fragment containing the promoter region was sequenced and the transcription start point (tsp) was determined by primer extension. Several putative regulatory elements, such as the E2F-binding site, Y box and octamer-binding site, were localized in this region, but no TATA box was found. When fused to cat, a reporter gene encoding
chloramphenicol acetyltransferase
, the 5' flanking sequences were shown to function in oocytes and an enhancer activity was found in this region. During early embryogenesis,
cdk2
promoter activity was tested and de novo transcription was detected at the mid-blastula transition.
...
PMID:Cloning of the Xenopus laevis cdk2 promoter and functional analysis in oocytes and during early development. 782 9
cdc2
mRNA transcripts were detected in immature bone marrow cells and became undetectable along with differentiation. Peripheral blood resting cells did not express
cdc2
mRNA, but it was induced in T-lymphocytes when the cells reentered the cell cycle in response to specific mitogens. In contrast,
cdc2
mRNA could not be induced in granulocytes and monocytes even after the culture with the appropriate stimulants. In order to investigate the mechanism of the regulation of
cdc2
mRNA expression in hematopoietic cells, we isolated the 5'-flanking sequence of the
cdc2
gene and found the putative E2F binding site at the position of nucleotides -124 to -117. The binding of E2F at this region was detected by a gel-retardation assay and DNaseI footprinting in phytohemagglutinin-stimulated T-lymphocytes, which was coincident with the expression of
cdc2
mRNA. E2F binding was not observed in both granulocytes and monocytes. Transient
chloramphenicol acetyltransferase
assay revealed that the region containing E2F binding site had a strong promoter activity, and introduction of the mutation at the E2F binding site resulted in a significant loss of the activity. E2F-1 and DP-1 mRNAs were not detectable in granulocytes, monocytes and resting T-lymphocytes but were induced after the mitogenic stimulation of T-lymphocytes. The induction of E2F activity preceded the appearance of
cdc2
mRNA, which is consistent with the role of E2F in the regulation of
cdc2
mRNA expression. These results suggest that
cdc2
mRNA expression is related to the cell cycling of normal human hematopoietic cells and that E2F plays some roles in the regulation of its expression.
...
PMID:The role of cellular transcription factor E2F in the regulation of cdc2 mRNA expression and cell cycle control of human hematopoietic cells. 792 42
Cytoplasmic poly(A) elongation is one mechanism that regulates translational recruitment of maternal mRNA in early development. In Xenopus laevis, poly(A) elongation is controlled by two cis elements in the 3' untranslated regions of responsive mRNAs: the hexanucleotide AAUAAA and a U-rich structure with the general sequence UUUUUAAU, which is referred to as the cytoplasmic polyadenylation element (CPE). B4 RNA, which contains these sequences, is polyadenylated during oocyte maturation and maintains a poly(A) tail in early embryos. However,
cdk2
RNA, which also contains these sequences, is polyadenylated during maturation but deadenylated after fertilization. This suggests that cis-acting elements in
cdk2
RNA signal the removal of the poly(A) tail at this time. By using poly(A) RNA-injected eggs, we showed that two elements which reside 5' of the CPE and 3' of the hexanucleotide act synergistically to promote embryonic deadenylation of this RNA. When an identical RNA lacking a poly(A) tail was injected, these sequences also prevented poly(A) addition. When fused to CAT RNA, the
cdk2
3' untranslated region, which contains these elements, as well as the CPE and the hexanucleotide, promoted poly(A) addition and enhanced
chloramphenicol acetyltransferase
activity during maturation, as well as repression of these events after fertilization. Incubation of fertilized eggs with cycloheximide prevented the embryonic inhibition of
cdk2
RNA polyadenylation but did not affect the robust polyadenylation of B4 RNA. This suggests that a maternal mRNA, whose translation occurs only after fertilization, is necessary for the
cdk2
deadenylation or inhibition of RNA polyadenylation. This was further suggested when poly(A)+ RNA isolated from two-cell embryos was injected into oocytes that were then allowed to mature. Such oocytes became deficient for
cdk2
RNA polyadenylation but remained proficient for B4 RNA polyadenylation. These data show that CPE function is developmentally regulated by multiple sequences and factors.
...
PMID:Multiple sequence elements and a maternal mRNA product control cdk2 RNA polyadenylation and translation during early Xenopus development. 806 20
E2F is a heterodimeric transcription factor that controls transcription of several growth-regulatory genes including
cdc2
. To investigate the mechanism of interferon-alpha (IFN-alpha)-mediated growth suppression of hematopoietic cells, we examined the effect of IFN-alpha on the expression and function of E2F using IFN-sensitive Daudi cells. Down-regulation of E2F-1, a subunit of E2F, was observed after 8 h of culture with IFN-alpha; expression of E2F-4, another subunit of E2F, and DP-1, a heterodimeric partner of E2F, was unaffected. Gel shift assays revealed that the DNA binding activity of free E2F, which is composed of E2F-1 and E2F-4, was inhibited by IFN-alpha. In contrast, IFN-alpha did not affect the DNA binding ability of E2F-1 and E2F-4 in a complex with retinoblastoma (RB) susceptibility gene family proteins including pRB, p107, and p130. IFN-alpha could induce dephosphorylation of pRB, thereby turning active E2F-pRB complexes into transcriptional repressors. Transient
chloramphenicol acetyltransferase
assays revealed that the activity of the E2F-dependent
cdc2
promoter was suppressed by IFN-alpha. These results suggest that the antiproliferative action of IFN-alpha is mediated through the modulation of E2F activity in two different ways: down-regulation of transcriptionally active free E2F and conversion of E2F-pRB complexes into transcriptional repressors.
...
PMID:Modulation of E2F activity is linked to interferon-induced growth suppression of hematopoietic cells. 913 87
CTCF is a multifunctional transcription factor encoded by a novel candidate tumor suppressor gene (Filippova, G. N., Lindblom, A., Meinke, L. J., Klenova, E. M., Neiman, P. E., Collins, S. J., Doggett, N. D., and Lobanenkov, V. V. (1998) Genes Chromosomes Cancer 22, 26-36). We characterized genomic organization of the chicken CTCF (chCTCF) gene, and studied the chCTCF promoter. Genomic locus of chCTCF contains a GC-rich untranslated exon separated from seven coding exons by a long intron. The 2-kilobase pair region upstream of the major transcription start site contains a CpG island marked by a "Not-knot" that includes sequence motifs characteristic of a TATA-less promoter of housekeeping genes. When fused upstream of a reporter
chloramphenicol acetyltransferase
gene, it acts as a strong transcriptional promoter in transient transfection experiments. The minimal 180-base pair chCTCF promoter region that is fully sufficient to confer high level transcriptional activity to the reporter contains high affinity binding element for the transcription factor YY1. This element is strictly conserved in chicken, mouse, and human CTCF genes. Mutations in the core nucleotides of the YY1 element reduce transcriptional activity of the minimal chCTCF promoter, indicating that the conserved YY1-binding sequence is critical for transcriptional regulation of vertebrate CTCF genes. We also noted in the chCTCF promoter several elements previously characterized in cell cycle-regulated genes, including the "cell cycle-dependent element" and "cell cycle gene homology region" motifs shown to be important for S/G2-specific up-regulation of cdc25C,
cdc2
, cyclin A, and Plk (polo-like kinase) gene promoters. Presence of the cell cycle-dependent element/cell cycle gene homology region element suggested that chCTCF expression may be cell cycle-regulated. We show that both levels of the endogenous chCTCF mRNA, and the activity of the stably transfected chCTCF promoter constructs, increase in S/G2 cells.
...
PMID:Characterization of the chicken CTCF genomic locus, and initial study of the cell cycle-regulated promoter of the gene. 975 95
Butyrolactone I is a selective inhibitor of the cyclin-dependent kinase (cdk) family,
cdk2
and
cdc2 kinase
. In the present study, the effect of butyrolactone I on expression of the albumin and alpha-fetoprotein (AFP) genes was investigated in HuH-7 human hepatoma cells. Butyrolactone I inhibited cell growth and arrested cells predominantly in G2/M phase. By Northern blot analysis, the levels of both albumin and AFP mRNA were suppressed dose-dependently by butyrolactone I. In transient
chloramphenicol acetyltransferase
plasmid transfection experiments, the albumin promoter activity and the AFP promoter and enhancer activities were suppressed by butyrolactone I. Consistent with this, the transcripts of hepatocyte nuclear factor-1 (HNF-1), a liver-specific transcription factor which transactivates these promoter and enhancer regions were reduced by butyrolactone I in a dose-dependent manner. These results indicate that butyrolactone I down-regulates both the albumin and the AFP gene transcription through the reduction of HNF-1 expression.
...
PMID:Suppression of albumin and alpha-fetoprotein gene expression by butyrolactone I, a selective inhibitor of the cdk family, in HuH-7 human hepatoma cells. 989 85
