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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The MUS81 endonuclease complex has been shown to play an important role in the repair of stalled or blocked replication forks and in the processing of meiotic recombination intermediates from yeast to humans. This
endonuclease
is composed of two subunits,
MUS81
and EME1. Surprisingly, unlike other organisms, Arabidopsis (Arabidopsis thaliana) has two EME1 homologs encoded in its genome. AtEME1A and AtEME1B show 63% identity on the protein level. We were able to demonstrate that, after expression in Escherichia coli, each EME1 protein can assemble with the unique AtMUS81 to form a functional
endonuclease
. Both complexes, AtMUS81-AtEME1A and AtMUS81-AtEME1B, are not only able to cleave 3'-flap structures and nicked Holliday junctions (HJs) but also, with reduced efficiency, intact HJs. While the complexes have the same cleavage patterns with both nicked DNA substrates, slight differences in the processing of intact HJs can be detected. Our results are in line with an involvement of both
MUS81
-EME1
endonuclease
complexes in DNA recombination and repair processes in Arabidopsis.
...
PMID:Two distinct MUS81-EME1 complexes from Arabidopsis process Holliday junctions. 1933 4
Telomerase-negative cancer cells maintain their telomeres through the alternative lengthening of telomeres (ALT) pathway. Although a growing body of evidence demonstrates that the ALT mechanism is a post-replicative telomere recombination process, molecular details of this pathway are largely unknown. Here we demonstrate that
MUS81
, a DNA structure specific recombination
endonuclease
, has a key role in the maintenance of telomeres in human ALT cells. We find that
MUS81
specifically localizes to ALT-associated promyelocytic leukaemia (PML) nuclear bodies (APBs) and associates with telomeric DNA in ALT cells, which is enriched during the G2 phase of the cell cycle. Depletion of
MUS81
results in the reduction of ALT-specific telomere recombination and leads to proliferation arrest of ALT cells. In addition, the
endonuclease
activity of
MUS81
is required for recombination-based ALT cell survival, and the interaction of
MUS81
with the telomeric repeat-binding factor TRF2 regulates this enzymatic activity, thereby maintaining telomere recombination. Thus, our results suggest that
MUS81
is involved in the maintenance of ALT cell survival at least in part by homologous recombination of telomeres.
...
PMID:Telomere recombination requires the MUS81 endonuclease. 1936 87
Budding yeast Slx4 interacts with the structure-specific
endonuclease
Slx1 to ensure completion of ribosomal DNA replication. Slx4 also interacts with the Rad1-Rad10
endonuclease
to control cleavage of 3' flaps during repair of double-strand breaks (DSBs). Here we describe the identification of human SLX4, a scaffold for DNA repair nucleases XPF-ERCC1,
MUS81
-EME1, and SLX1. SLX4 immunoprecipitates show SLX1-dependent nuclease activity toward Holliday junctions and
MUS81
-dependent activity toward other branched DNA structures. Furthermore, SLX4 enhances the nuclease activity of SLX1,
MUS81
, and XPF. Consistent with a role in processing recombination intermediates, cells depleted of SLX4 are hypersensitive to genotoxins that cause DSBs and show defects in the resolution of interstrand crosslink-induced DSBs. Depletion of SLX4 causes a decrease in DSB-induced homologous recombination. These data show that SLX4 is a regulator of structure-specific nucleases and that SLX4 and SLX1 are important regulators of genome stability in human cells.
...
PMID:Coordination of structure-specific nucleases by human SLX4/BTBD12 is required for DNA repair. 1959 21
Structure-specific endonucleases resolve DNA secondary structures generated during DNA repair and recombination. The yeast 5' flap
endonuclease
Slx1-Slx4 has received particular attention with the finding that Slx4 has Slx1-independent key functions in genome maintenance. Although Slx1 is a highly conserved protein in eukaryotes, no orthologs of Slx4 were reported other than in fungi. Here we report the identification of Slx4 orthologs in metazoa, including fly MUS312, essential for meiotic recombination, and human BTBD12, an ATM/ATR checkpoint kinase substrate. Human SLX1-SLX4 displays robust Holliday junction resolvase activity in addition to 5' flap
endonuclease
activity. Depletion of SLX1 and SLX4 results in 53BP1 foci accumulation and H2AX phosphorylation as well as cellular hypersensitivity to MMS. Furthermore, we show that SLX4 binds the XPF(ERCC4) and
MUS81
subunits of the XPF-ERCC1 and
MUS81
-EME1 endonucleases and is required for DNA interstrand crosslink repair. We propose that SLX4 acts as a docking platform for multiple structure-specific endonucleases.
...
PMID:Human SLX4 is a Holliday junction resolvase subunit that binds multiple DNA repair/recombination endonucleases. 1959 31
A substantial number of human tumors (approximately 10%) are telomerase negative, and cells in such tumors have been proposed to maintain telomere length by the alternative lengthening of telomeres (ALT) pathway. Although details of the molecular mechanism of ALT are largely unknown, previous studies have shown that telomere homologous recombination (HR) is implicated in the ALT pathway.
MUS81
is a DNA structure-specific recombination
endonuclease
and functions on aberrant DNA replication and recombination. Recently, we demonstrate that
MUS81
plays a key role in the maintenance of telomeres in ALT cells (Zeng, et al. Nature Cell Biology, 2009). The MUS81 endonuclease specifically localizes to ALT-associated promyelocytic leukemia nuclear bodies (APBs) and interacts with telomeres in ALT cells. Depletion of
MUS81
leads to reduced telomere recombination resulting in the growth arrest of ALT cells. The
endonuclease
activity of
MUS81
, regulated by its binding partner TRF2, is found to be essential for telomere post-replicative recombination. This study provides the first direct evidence that
MUS81
specifically functions on ALT recombination-based cell survival. The specific function of
MUS81
on the ALT pathway provides a potential powerful diagnostic marker and a therapeutic target for ALT tumors.
...
PMID:The MUS81 endonuclease is essential for telomerase negative cell proliferation. 1961 16
Complex DNA structures, such as double Holliday junctions and stalled replication forks, arise during DNA replication and DNA repair. Factors processing these intermediates include the
endonuclease
MUS81
, helicases of the RecQ family, and the yeast SNF2 ATPase RAD5 and its Arabidopsis thaliana homolog RAD5A. By testing sensitivity of mutant plants to DNA-damaging agents, we defined the roles of these factors in Arabidopsis. rad5A recq4A and rad5A mus81 double mutants are more sensitive to cross-linking and methylating agents, showing that RAD5A is required for damage-induced DNA repair, independent of
MUS81
and RECQ4A. The lethality of the recq4A mus81 double mutant indicates that
MUS81
and RECQ4A also define parallel DNA repair pathways. The recq4A/mus81 lethality is suppressed by blocking homologous recombination (HR) through disruption of RAD51C, showing that RECQ4A and
MUS81
are required for processing recombination-induced aberrant intermediates during replication. Thus, plants possess at least three different pathways to process DNA repair intermediates. We also examined HR-mediated double-strand break (DSB) repair using recombination substrates with inducible site-specific DSBs:
MUS81
and RECQ4A are required for efficient synthesis-dependent strand annealing (SDSA) but only to a small extent for single-strand annealing (SSA). Interestingly, RAD5A plays a significant role in SDSA but not in SSA.
...
PMID:RAD5A, RECQ4A, and MUS81 have specific functions in homologous recombination and define different pathways of DNA repair in Arabidopsis thaliana. 2097 95
DNA interstrand cross-links (ICLs) pose a significant threat to genomic and cellular integrity by blocking essential cellular processes, including replication and transcription. In mammalian cells, much ICL repair occurs in association with DNA replication during S phase, following the stalling of a replication fork at the block caused by an ICL lesion. Here, we review recent work showing that the XPF-ERCC1
endonuclease
and the hSNM1A exonuclease act in the same pathway, together with SLX4, to initiate ICL repair, with the
MUS81
-EME1 fork incision activity becoming important in the absence of the XPF-SNM1A-SLX4-dependent pathway. Another nuclease, the Fanconi anemia-associated nuclease (FAN1), has recently been implicated in the repair of ICLs, and we discuss the possible ways in which the activities of different nucleases at the ICL-stalled replication fork may be coordinated. In relation to this, we briefly speculate on the possible role of SLX4, which contains XPF and
MUS81
- interacting domains, in the coordination of ICL repair nucleases.
...
PMID:Orchestrating the nucleases involved in DNA interstrand cross-link (ICL) repair. 2210 40
The yeast heterodimeric Mus81-Mms4 complex possesses a structure-specific
endonuclease
activity that is critical for the restart of stalled replication forks and removal of toxic recombination intermediates. Previously, we reported that Mus81-Mms4 and Rad27 (yeast FEN1, another structure-specific
endonuclease
) showed mutual stimulation of nuclease activity. In this study, we investigated the interactions between human FEN1 and
MUS81
-EME1 or
MUS81
-EME2, the human homologs of the yeast Mus81-Mms4 complex. We found that both
MUS81
-EME1 and
MUS81
-EME2 increased the activity of FEN1, but FEN1 did not stimulate the activity of
MUS81
-EME1/EME2. The
MUS81
subunit alone and its N-terminal half were able to bind to FEN1 and stimulate its
endonuclease
activity. A truncated FEN1 fragment lacking the C-terminal region that retained catalytic activity was not stimulated by
MUS81
. Michaelis-Menten kinetic analysis revealed that
MUS81
increased the interaction between FEN1 and its substrates, resulting in increased turnover. We also showed that, after DNA damage in human cells, FEN1 co-localizes with
MUS81
. These findings indicate that the human proteins and yeast homologs act similarly, except that the human FEN1 does not stimulate the nuclease activities of
MUS81
-EME1 or
MUS81
-EME2. Thus, the mammalian
MUS81
complexes and FEN1 collaborate to remove the various flap structures that arise during many DNA transactions, including Okazaki fragment processing.
...
PMID:Human MUS81 complexes stimulate flap endonuclease 1. 2255 Oct 69
Although the SLX4 complex, which includes structure-specific nucleases such as XPF,
MUS81
, and SLX1, plays important roles in the repair of several kinds of DNA damage, the function of SLX1 in the germline remains unknown. Here we characterized the
endonuclease
activities of the Caenorhabditis elegans SLX-1-HIM-18/SLX-4 complex co-purified from human 293T cells and determined SLX-1 germline function via analysis of slx-1(tm2644) mutants. SLX-1 shows a HIM-18/SLX-4-dependent
endonuclease
activity toward replication forks, 5'-flaps, and Holliday junctions. slx-1 mutants exhibit hypersensitivity to UV, nitrogen mustard, and camptothecin, but not gamma irradiation. Consistent with a role in DNA repair, recombination intermediates accumulate in both mitotic and meiotic germ cells in slx-1 mutants. Importantly, meiotic crossover distribution, but not crossover frequency, is altered on chromosomes in slx-1 mutants compared to wild type. This alteration is not due to changes in either the levels or distribution of double-strand breaks (DSBs) along chromosomes. We propose that SLX-1 is required for repair at stalled or collapsed replication forks, interstrand crosslink repair, and nucleotide excision repair during mitosis. Moreover, we hypothesize that SLX-1 regulates the crossover landscape during meiosis by acting as a noncrossover-promoting factor in a subset of DSBs.
...
PMID:SLX-1 is required for maintaining genomic integrity and promoting meiotic noncrossovers in the Caenorhabditis elegans germline. 2292 25
The
MUS81
-EME1
endonuclease
maintains metazoan genomic integrity by cleaving branched DNA structures that arise during the resolution of recombination intermediates. In humans,
MUS81
also forms a poorly characterized complex with EME2. Here, we identify and determine the structure of a winged helix (WH) domain from human
MUS81
, which binds DNA. WH domain mutations greatly reduce binding of the isolated domain to DNA and impact on incision activity of
MUS81
-EME1/EME2 complexes. Deletion of the WH domain reduces the
endonuclease
activity of both
MUS81
-EME1 and
MUS81
-EME2 complexes, and incisions made by
MUS81
-EME2 are made closer to the junction on substrates containing a downstream duplex, such as fork structures and nicked Holliday junctions. WH domain mutation or deletion in Schizosaccharomyces pombe phenocopies the DNA-damage sensitivity of strains deleted for mus81. Our results indicate an important role for the WH domain in both yeast and human
MUS81
complexes.
...
PMID:A winged helix domain in human MUS81 binds DNA and modulates the endonuclease activity of MUS81 complexes. 2398 16
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