Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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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)
Bloom's syndrome is a rare human autosomal recessive disorder that combines a marked genetic instability and an increased risk of developing all types of cancers and which results from mutations in both copies of the
BLM
gene encoding a RecQ 3'-5' DNA helicase. We recently showed that
BLM
is phosphorylated and excluded from the nuclear matrix during mitosis. We now show that the phosphorylated mitotic BLM protein is associated with a 3'-5' DNA helicase activity and interacts with topoisomerase III alpha. We demonstrate that in mitosis-arrested cells, ionizing radiation and roscovitine treatment both result in the reversion of
BLM
phosphorylation, suggesting that
BLM
could be dephosphorylated through the inhibition of
cdc2 kinase
. This was supported further by our data showing that
cdc2 kinase
activity is inhibited in gamma-irradiated mitotic cells. Finally we show that after ionizing radiation,
BLM
is not involved in the establishment of the mitotic DNA damage checkpoint but is subjected to a subcellular compartment change. These findings lead us to propose that
BLM
may be phosphorylated during mitosis, probably through the
cdc2
pathway, to form a pool of rapidly available active protein. Inhibition of
cdc2 kinase
after ionizing radiation would lead to
BLM
dephosphorylation and possibly to
BLM
recruitment to some specific sites for repair.
...
PMID:Dephosphorylation and subcellular compartment change of the mitotic Bloom's syndrome DNA helicase in response to ionizing radiation. 1174 24
Bloom syndrome (BS) is a rare human autosomal recessive disorder characterized by marked genetic instability associated with greatly increased predisposition to a wide range of cancers affecting the general population. BS arises through mutations in both copies of the
BLM
gene which encodes a 3'-5' DNA helicase identified as a member of the RecQ family. Several studies support a major role for
BLM
in the cellular response to DNA damage and stalled replication forks. However, the specific function(s) of
BLM
remain(s) unclear. The BLM protein is strongly expressed and phosphorylated during mitosis, but very little information is available about the origin and the significance of this phosphorylation. We show here that ATM kinase provides only a limited contribution to the mitotic phosphorylation of
BLM
. We also demonstrate that
BLM
is directly phosphorylated at multiple sites in vitro by the mitotic
cdc2 kinase
, and identify two new sites of mitotic
BLM
phosphorylation: Ser-714 and Thr-766. Our results identify
BLM
helicase as a new substrate for
cdc2
, which may have potential physiological implications for the role of
BLM
in mitosis.
...
PMID:The Bloom syndrome helicase is a substrate of the mitotic Cdc2 kinase. 1688 Jul 35
Flap endonuclease-1 (FEN1) is a structure specific endonuclease. The natural substrates of FEN1 are 5'-flap structures formed by three DNA chains one of them has unannealed flapped 5'-end (flap). Flap structures are the intermediates of different processes of DNA metabolism, such as DNA recombination, Okazaki fragment maturation during replication of lagging strand, as well as strand displacement DNA synthesis in base excision repair. FEN1 also possesses 5'-exonuclease activity and newly discovered gap endonuclease activity. FEN1 is known to interact physically and functionally with a number of DNA replication and repair proteins such as the proliferating cell nuclear antigen, helicase/nuclease Dna2, WRN and
BLM
proteins, replication protein A, apurinic/apyrimidinic endonuclease 1, DNA polymerase beta, poly(ADP-riboso) polymerase 1, high mobility group protein 1, integrase of human immunodeficiency virus, transcription coactivator p300, chromatin proteins, cyclin-dependent kinases (Cdk1,
Cdk2
, Cyclin A). FEN1 activity is significant for maintaining the integrity of repeat sequences in genome. Recent data suppose the correlation between the abnormality of hFEN1 activity and arising/progression of neurodegenerative and cancer diseases. FEN1 has the dramatic effect on cell growth and development thereby attracting the interest to this enzyme.
...
PMID:[Flap endonuclease-1 and its role in the processes of DNA metabolism in eucaryotic cells]. 1870 99
CtIP plays an important role in homologous recombination (HR)-mediated DNA double-stranded break (DSB) repair and interacts with Nbs1 and BRCA1, which are linked to Nijmegen breakage syndrome (NBS) and familial breast cancer, respectively. We identified new
CDK
phosphorylation sites on CtIP and found that phosphorylation of these newly identified
CDK
sites induces association of CtIP with the N-terminus FHA and BRCT domains of Nbs1. We further showed that these
CDK
-dependent phosphorylation events are a prerequisite for ATM to phosphorylate CtIP upon DNA damage, which is important for end resection to activate HR by promoting recruitment of
BLM
and Exo1 to DSBs. Most notably, this
CDK
-dependent CtIP and Nbs1 interaction facilitates ATM to phosphorylate CtIP in a substrate-specific manner. These studies reveal one important mechanism to regulate cell-cycle-dependent activation of HR upon DNA damage by coupling
CDK
- and ATM-mediated phosphorylation of CtIP through modulating the interaction of CtIP with Nbs1, which significantly helps to understand how DSB repair is regulated in mammalian cells to maintain genome stability.
...
PMID:The interaction of CtIP and Nbs1 connects CDK and ATM to regulate HR-mediated double-strand break repair. 2346 39
Homologous recombination (HR) is initiated by DNA end resection, a process in which stretches of single-strand DNA (ssDNA) are generated and used for homology search. Factors implicated in resection include nucleases MRE11, EXO1, and DNA2, which process DNA ends into 3' ssDNA overhangs; helicases such as
BLM
, which unwind DNA; and other proteins such as BRCA1 and CtIP whose functions remain unclear.
CDK
-mediated phosphorylation of CtIP on T847 is required to promote resection, whereas
CDK
-dependent phosphorylation of CtIP-S327 is required for interaction with BRCA1. Here, we provide evidence that CtIP functions independently of BRCA1 in promoting DSB end resection. First, using mouse models expressing S327A or T847A mutant CtIP as a sole species, and B cells deficient in CtIP, we show that loss of the CtIP-BRCA1 interaction does not detectably affect resection, maintenance of genomic stability or viability, whereas T847 is essential for these functions. Second, although loss of 53BP1 rescues the embryonic lethality and HR defects in BRCA1-deficient mice, it does not restore viability or genome integrity in CtIP(-/-) mice. Third, the increased resection afforded by loss of 53BP1 and the rescue of BRCA1-deficiency depend on CtIP but not EXO1. Finally, the sensitivity of BRCA1-deficient cells to poly ADP ribose polymerase (PARP) inhibition is partially rescued by the phospho-mimicking mutant CtIP (CtIP-T847E). Thus, in contrast to BRCA1, CtIP has indispensable roles in promoting resection and embryonic development.
...
PMID:CtIP-mediated resection is essential for viability and can operate independently of BRCA1. 2484 72
