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Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Identification of the cellular proteins whose expression is regulated during the cell cycle in normal cells is essential for understanding the mechanisms involved in the control of cell proliferation. A nuclear protein called
cyclin
of relative molecular mass 36,000 (Mr 36K), whose synthesis correlates with the proliferative state of the cell, has been identified in several cell types of human, mouse, hamster and avian origin. The rate of
cyclin
synthesis is very low in quiescent cells and increases several fold after serum stimulation shortly before DNA synthesis. Immunofluorescence and autoradiography studies have shown that the nuclear staining patterns of
cyclin
during S phase have a sequential order of appearance and a clear correlation can be found between DNA synthesis and
cyclin
positive nuclei. The proliferating cell nuclear antigen (PCNA) and
cyclin
have many common properties and it has been shown that these two are identical. Recently a protein which is required by
DNA polymerase
-delta for its catalytic activity with templates having low primer/template ratios has been isolated from calf thymus. We report here that
cyclin
and the auxiliary protein of
DNA polymerase
-delta are identical.
...
PMID:Cyclin/PCNA is the auxiliary protein of DNA polymerase-delta. 288 23
The mechanism of replication of the simian virus 40 (SV40) genome closely resembles that of cellular chromosomes, thereby providing an excellent model system for examining the enzymatic requirements for DNA replication. Only one viral gene product, the large tumour antigen (large-T antigen), is required for viral replication, so the majority of replication enzymes must be cellular. Indeed, a number of enzymatic activities associated with replication and the S phase of the cell cycle are induced upon SV40 infection. Cell-free extracts derived from human cells, when supplemented with immunopurified SV40 large-T antigen support efficient replication of plasmids that contain the SV40 origin of DNA replication. Using this system, a cellular protein of relative molecular mass 36,000 (Mr = 36K) that is required for the elongation stage of SV40 DNA replication in vitro has been purified and identified as a known cell-cycle regulated protein, alternatively called the proliferating cell nuclear antigen (PCNA) or
cyclin
. It was noticed that, in its physical characteristics, PCNA closely resembles a protein that regulates the activity of calf thymus
DNA polymerase
-delta. Here we show that PCNA and the polymerase-delta auxiliary protein have similar electrophoretic behaviour and are both recognized by anti-PCNA human autoantibodies. More importantly, both proteins are functionally equivalent; they stimulate SV40 DNA replication in vitro and increase the processivity of calf thymus
DNA polymerase
-delta. These results implicate a novel animal cell
DNA polymerase
,
DNA polymerase
-delta, in the elongation stage of replicative DNA synthesis in vitro.
...
PMID:Functional identity of proliferating cell nuclear antigen and a DNA polymerase-delta auxiliary protein. 288 24
Pulse-chase experiments have revealed that
cyclin
, the auxiliary protein of
DNA polymerase
-delta, is stable during the transition from growth to quiescence in 3T3 cells. Immunoblotting together with immunofluorescence analysis has shown that the amount of
cyclin
after 24 h of quiescence is 30-40% of that of growing cells and that it presents a nucleoplasmic staining. Immunofluorescence studies show the existence of two populations of
cyclin
during the S phase, one that is nucleoplasmic as in quiescent cells and is easily extracted by detergent, and another that is associated to specific nuclear structures. By using antibromodeoxyuridine immunofluorescence to detect the sites of DNA synthesis, it was shown that the staining patterns of the replicon clusters and their order of appearance throughout the S phase are identical to those observed for
cyclin
. Two-dimensional gel analysis of Triton-extracted cells show that 20-30% of
cyclin
remains associated with the replicon clusters. This population of
cyclin
could not be released from the nucleus using high-salt extractions. This demonstrates that
cyclin
is tightly associated to the sites of DNA replication and that it must have a fundamental role in DNA synthesis in eukaryotic cells.
...
PMID:Existence of two populations of cyclin/proliferating cell nuclear antigen during the cell cycle: association with DNA replication sites. 288 39
Human
cyclin
/PCNA (proliferating cell nuclear antigen) is structurally, functionally, and immunologically homologous to the calf thymus auxiliary protein for DNA polymerase delta. This auxiliary protein has been investigated as a stimulatory factor for the nuclear DNA polymerases from S. cerevisiae. Calf
cyclin
/PCNA enhances by more than ten-fold the ability of
DNA polymerase III
to replicate templates with high template/primer ratios, e.g. poly(dA).oligo(dT) (40:1). The degree of stimulation increases with the template/primer ratio. At a high template/primer ratio, i.e. low primer density,
cyclin
/PCNA greatly increases processive DNA synthesis by
DNA polymerase III
. At low template/primer ratios (e.g. poly(dA).oligo(dT) (2.5:1), where addition of
cyclin
/PCNA only minimally increases the processivity of
DNA polymerase III
, a several-fold stimulation of total DNA synthesis is still observed. This indicates that
cyclin
/PCNA may also increase productive binding of
DNA polymerase III
to the template-primer and stabilize the template-primer-polymerase complex. The activity of yeast DNA polymerases I and II is not affected by addition of
cyclin
/PCNA. These results strengthen the hypothesis that yeast
DNA polymerase III
is functionally analogous to the mammalian DNA polymerase delta.
...
PMID:Mammalian cyclin/PCNA (DNA polymerase delta auxiliary protein) stimulates processive DNA synthesis by yeast DNA polymerase III. 289 83
DNA polymerase III
from Saccharomyces cerevisiae is analogous to the mammalian DNA polymerase delta by several criteria, including an increased synthetic activity on poly(dA).oligo(dT) (40:1 nucleotide ratio) in the presence of calf thymus proliferating-cell nuclear antigen (PCNA), or
cyclin
. This stimulation assay has been used to purify the yeast analog of PCNA/
cyclin
(yPCNA) to homogeneity. yPCNA is a trimer or tetramer (Mr approximately 82,000) of identical subunits with a denatured Mr of 26,000. On a molar basis yPCNA and calf thymus PCNA/
cyclin
are equally active in stimulating DNA synthesis by
DNA polymerase III
. About 10 times more yPCNA than calf thymus PCNA/
cyclin
is needed, however, to stimulate calf thymus DNA polymerase delta, and the degree of stimulation obtained at saturating levels of yPCNA is a factor of 2-3 less than with calf thymus PCNA/
cyclin
. Both stimulatory proteins exert their effect in an identical fashion, i.e., by increasing the processivity of the
DNA polymerase
. Yeast DNA polymerases I and II and calf thymus
DNA polymerase alpha
are not stimulated by yPCNA. Treatment of logarithmic-phase cells with hydroxyurea blocks them in the S phase and produces a 4- to 5-fold increase in yPCNA.
...
PMID:The yeast analog of mammalian cyclin/proliferating-cell nuclear antigen interacts with mammalian DNA polymerase delta. 290 31
We have previously reported the purification of yeast analogs to mammalian DNA polymerase delta and proliferating-cell nuclear antigen (PCNA)/
cyclin
:
DNA polymerase III
and yeast PCNA, respectively. Through the use of gel-filtration chromatography, we have studied the interaction of the model template-primer system poly(dA).(dT)16 (40:1) with yeast
DNA polymerase III
and with PCNAs. Yeast
DNA polymerase III
binds to the DNA in the absence of yeast PCNA/
cyclin
, but comigration of either yeast or calf thymus PCNA/
cyclin
with the DNA requires the additional presence of yeast
DNA polymerase III
. We could also isolate a DNA-calf thymus DNA polymerase delta-calf thymus PCNA/
cyclin
complex. From these data, we propose that PCNA/
cyclin
is involved not in the binding step of the polymerase to the template-primer, but in the elongation step. The 3'----5' exonuclease associated with yeast
DNA polymerase III
acts in a distributive manner on poly(dA).(pT)16, and dissociates from the DNA when addition of dTTP allows switching from the exonuclease to the polymerase mode. Addition of PCNA/
cyclin
had no effect on these activities.
...
PMID:Protein-protein interactions of yeast DNA polymerase III with mammalian and yeast proliferating cell nuclear antigen (PCNA)/cyclin. 290 71
Proliferating cell nuclear antigen (PCNA) is an auxiliary protein for DNA polymerase delta and is required for both DNA replication and DNA repair. PCNA forms complexes with D-type cyclins, candidate G1 cyclins in mammalian cells. To better understand the functions of the complexes, we examined interactions between PCNA and D-type cyclins, using in vitro-translated mouse PCNA and mouse cyclin D1 or D3 fused to glutathione S-transferase (GST). Analysis of a set of deletion mutants of PCNA revealed that either the N-terminal (residues 2-64) or the C-terminal (residues 197-228) region is necessary for association with D-type cyclins. The
cyclin
binding of the chimeric protein of the N-terminal (residues 1-68) or the C-terminal (residues 195-261) region of PCNA and rat
DNA polymerase beta
which does not bind to the cyclins by itself supports this notion. The purified recombinant mouse PCNA expressed in Escherichia coli bound to the D-type cyclin-GST fusion proteins, thereby suggesting that PCNA binds directly to D-type cyclins, without the requirement of other cellular factors. This is apparently the first report on the structure-function relationship of PCNA which may link DNA replication and DNA repair with cell cycle control.
...
PMID:D-type cyclin-binding regions of proliferating cell nuclear antigen. 790 6
Cell cycle is regulated by the activation of complexes of cyclins and
cyclin
-dependent protein kinases at specific points. Quiescent cells lack both cyclins and
cyclin
-dependent kinases but their expression is induced after proliferative activation. Cyclin A/cdk2 complexes are involved in the onset of DNA replication whereas
cyclin
B/cdc2 trigger mitosis. We report here that Ca2+ and calmodulin regulate the expression of cdk2, cdc2,
cyclin
B and the proliferating cell nuclear antigen (a co-factor of
DNA polymerase
-delta) in human T lymphocytes. Likewise, the expression of cdk4, cyclin A and DNA polymerase-alpha is dependent of the synergistic effect of both the Ca2+/calmodulin and the protein kinase C pathways. Thus, calmodulin controls DNA synthesis by regulating the levels of cdk2 and proliferating cell nuclear antigen and mitosis entry by modulating the expression of
cyclin
B and cdc2.
...
PMID:Calmodulin regulates the expression of cdks, cyclins and replicative enzymes during proliferative activation of human T lymphocytes. 790 33
The p53 tumour-suppressor protein controls the expression of a gene encoding the p21
cyclin
-dependent protein kinase (CDK) regulator. Levels of p21 protein are increased in senescent cells and p21 overexpression blocks the growth of tumour cells. In normal human cells, but not in many tumour cells, p21 exists in a quaternary complex with a
cyclin
, a CDK, and the proliferating-cell nuclear antigen (PCNA). p21 controls CDK activity, thereby affecting cell-cycle control, whereas PCNA functions in both DNA replication and repair. Here we use simian virus 40 DNA replication in vitro to show than p21 directly inhibits PCNA-dependent DNA replication in the absence of a
cyclin
/CDK. Furthermore, p21 blocks the ability of PCNA to activate DNA polymerase delta, the principal replicative
DNA polymerase
. This regulation results from a direct interaction between p21 and PCNA. Thus, during p53-mediated suppression of cell proliferation, p21 and PCNA may be important for coordinating cell-cycle progression, DNA replication and repair of damaged DNA.
...
PMID:The p21 inhibitor of cyclin-dependent kinases controls DNA replication by interaction with PCNA. 791 Dec 27
We have defined a coordinate program of transcription of S-phase genes (
DNA polymerase alpha
, PCNA and the two ribonucleotide reductase subunits) that can be induced by the G1
cyclin
, cyclin E. In Drosophila embryos, this program drives an intricate spatial and temporal pattern of gene expression that perfectly parallels the embryonic program of S-phase control. This dynamic pattern of expression is not disrupted by a mutation, string, that blocks the cell cycle. Thus, the transcriptional program is not a secondary consequence of cell cycle progression. We suggest that developmental signals control this transcriptional program and that its activation either directly or indirectly drives transition from G1 to S phase in the stereotyped embryonic pattern.
...
PMID:Developmental control of a G1-S transcriptional program in Drosophila. 805 Mar 59
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