KEGG:D03229 - FACTA Search

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Query: KEGG:D03229 (BLM)
1,348 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

P transposable elements in Drosophila are mobilized via a cut-and-paste mechanism. The broken DNA ends generated during transposition can be repaired via the homology-directed synthesis-dependent strand annealing or by nonhomologous end joining (NHEJ). Genetic studies have demonstrated an interaction between the gene (mus309, for mutagen-sensitive) encoding the Drosophila Bloom's syndrome helicase homolog (DmBLM) and the Ku70 gene, which is involved in NHEJ. We have used RNA interference (RNAi) to knock down expression of DmBLM and one or both of the Drosophila Ku subunits, DmKu70 or DmKu80. Our results show that upon reduction of DmKu, an increase in small deletions (1-49 bp) and large deletions (>/=50 bp) flanking the site of P element-induced breaks is observed, and a reduction in large deletions at these sites is found upon reduction of DmBLM. Moreover, double RNAi of DmKu and DmBLM results in an increase in small deletions characteristic of the DmKu RNAi and also partially suppresses the reduction in repair efficiency observed with DmKu RNAi. These results suggest that there are DNA double-strand break recognition and/or processing events involving DmKu and DmBLM that, when eliminated by RNAi, lead to deletions. Finally, these results raise the possibility that, unlike the situation in mammals, where BLM appears to function exclusively in the homologous repair pathway, in Drosophila, DmBLM may be directly involved in, or at least influence the double-strand break recognition that leads to the NHEJ repair pathway.
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PMID:Interplay between Drosophila Bloom's syndrome helicase and Ku autoantigen during nonhomologous end joining repair of P element-induced DNA breaks. 1518 50

In addition to increased DNA-strand exchange, a cytogenetic feature of cells lacking the RecQ-like BLM helicase is a tendency for telomeres to associate. We also report additional cellular and biochemical evidence for the role of BLM in telomere maintenance. BLM co-localizes and complexes with the telomere repeat protein TRF2 in cells that employ the recombination-mediated mechanism of telomere lengthening known as ALT (alternative lengthening of telomeres). BLM co-localizes with TRF2 in foci actively synthesizing DNA during late S and G2/M; co-localization increases in late S and G2/M when ALT is thought to occur. Additionally, TRF1 and TRF2 interact directly with BLM and regulate BLM unwinding activity in vitro. Whereas TRF2 stimulates BLM unwinding of telomeric and non-telomeric substrates, TRF1 inhibits BLM unwinding of telomeric substrates only. Finally, TRF2 stimulates BLM unwinding with equimolar concentrations of TRF1, but not when TRF1 is added in molar excess. These data suggest a function for BLM in recombination-mediated telomere lengthening and support a model for the coordinated regulation of BLM activity at telomeres by TRF1 and TRF2.
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PMID:Association and regulation of the BLM helicase by the telomere proteins TRF1 and TRF2. 1522 85

Proteins belonging to the highly conserved RecQ helicase family are essential for the maintenance of genomic stability. Here, we describe the biochemical properties of the human RECQ5beta protein. Like BLM and WRN, RECQ5beta is an ATP-dependent 3'-5' DNA helicase that can promote migration of Holliday junctions. However, RECQ5beta required the single-stranded DNA-binding protein RPA in order to mediate the efficient unwinding of oligonucleotide-based substrates. Surprisingly, we found that RECQ5beta possesses an intrinsic DNA strand-annealing activity that is inhibited by RPA. Analysis of deletion variants of RECQ5beta revealed that the DNA helicase activity resides in the conserved N-terminal portion of the protein, whereas strand annealing is mediated by the unique C-terminal domain. Moreover, the strand-annealing activity of RECQ5beta was strongly inhibited by ATPgammaS, a poorly hydrolyzable analog of ATP. This effect was alleviated by mutations in the ATP-binding motif of RECQ5beta, indicating that the ATP-bound form of the protein cannot promote strand annealing. This is the first demonstration of a DNA helicase with an intrinsic DNA strand-annealing function residing in a separate domain.
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PMID:Human RECQ5beta, a protein with DNA helicase and strand-annealing activities in a single polypeptide. 1524 74

Werner syndrome is a genetic disorder characterized by genomic instability, elevated recombination and replication defects. The WRN gene encodes a RecQ helicase whose function(s) in cellular DNA metabolism is not well understood. To investigate the role of WRN in replication, we examined its ability to rescue cellular phenotypes of a yeast dna2 mutant defective in a helicase-endonuclease that participates with flap endonuclease 1 (FEN-1) in Okazaki fragment processing. Genetic complementation studies indicate that human WRN rescues dna2-1 mutant phenotypes of growth, cell cycle arrest and sensitivity to the replication inhibitor hydroxyurea or DNA damaging agent methylmethane sulfonate. A conserved non-catalytic C-terminal domain of WRN was sufficient for genetic rescue of dna2-1 mutant phenotypes. WRN and yeast FEN-1 were reciprocally co-immunoprecipitated from extracts of transformed dna2-1 cells. A physical interaction between yeast FEN-1 and WRN is demonstrated by yeast FEN-1 affinity pull-down experiments using transformed dna2-1 cells extracts and by ELISA assays with purified recombinant proteins. Biochemical analyses demonstrate that the C-terminal domain of WRN or BLM stimulates FEN-1 cleavage of its proposed physiological substrates during replication. Collectively, the results suggest that the WRN-FEN-1 interaction is biologically important in DNA metabolism and are consistent with a role of the conserved non-catalytic domain of a human RecQ helicase in DNA replication intermediate processing.
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PMID:In vivo function of the conserved non-catalytic domain of Werner syndrome helicase in DNA replication. 1528 7

The Rothmund-Thomson syndrome (growth retardation, skin and bone defects, predisposition to cancer) and the RAPADILINO syndrome are caused by mutations in the RECQL4 gene. The 133 kDa RECQL4 is a putative DNA helicase, a member of the family that includes the BLM and WRN helicases. The latter are mutated, respectively, in the Bloom and Werner syndromes, whose manifestations include predisposition to cancer. Using antibodies to human RECQL4, we found that the bulk of RECQL4 was present in a cytoplasmic extract of HeLa cells, in contrast to the largely nuclear BLM and WRN helicases. However, in untransformed WI-38 fibroblasts, RECQL4 was found to be largely nuclear, and was present at significantly lower total levels than in transformed HeLa cells. RECQL4 from HeLa cells was isolated as a stable complex with UBR1 and UBR2. These 200 kDa proteins are ubiquitin ligases of the N-end rule pathway, whose substrates include proteins with destabilizing N-terminal residues. The functions of this proteolytic pathway include the regulation of peptide import, chromosome stability, meiosis, apoptosis and cardiovascular development. Although the known role of UBR1 and UBR2 is to mediate polyubiquitylation (and subsequent degradation) of their substrates, the UBR1/2-bound RECQL4 was not ubiquitylated in vivo, and was a long-lived protein in HeLa cells. The isolated RECQL4-UBR1/2 complex had a DNA-stimulated ATPase activity, but was inactive in DNA-based assays for helicases and translocases, the assays in which the BLM helicase was active. We discuss ramifications of these results, possible functions of RECQL4, and the involvement of the N-end rule pathway.
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PMID:RECQL4, mutated in the Rothmund-Thomson and RAPADILINO syndromes, interacts with ubiquitin ligases UBR1 and UBR2 of the N-end rule pathway. 1531 57

Repair of DSBs is important to prevent chromosomal fragmentation, translocations and deletions. To investigate the process in NHEJ, we have established an in vitro system to clarify the measurement and analysis of the efficiency and the fidelity of rejoining of DSBs, and applied the method to investigate NHEJ in human cells derived from patients suffering from cancer-prone hereditary diseases. A DSB was introduced in plasmid pZErO-2 at a specific site within the ccdB gene that is lethal to E. coli cells, and treated with nuclear extracts from human cells. The efficiency of rejoining in the nuclear extract from an A-T cell line was comparable to that from a control cell line. However, the accuracy of rejoining was much lower for the A-T cell extract than for the control cell extract. All mutations were deletions, most of which contained short direct repeats at the breakpoint junctions. The deletion spectrum caused by the A-T nuclear extract was distinct from that by the control extract. These results indicate that A-T cells have certain deficiencies in end-joining of double-strand breaks in DNA. The extract from BS cells also showed the similar activity and the lower fidelity of rejoing compared to that from normal cells. From the sequencing analysis of the junction of DSBs, it is speculated that the defect in the BLM helicase might cause irregular rejoining of DSBs. Radioadaptive response is the acquirement of cellular resistance to ionizing radiation by prior exposure to low dose. We investigated the in vitro end-joining activity of DNA ends in radioadaptive cells. Both the efficiency and the fidelity of rejoining in the cells pre-exposed to low dose are increased comparing to those without pre-exposure. We also investigated the joining activity of DNA ends in p53-deficient cells. Pre-irradiation caused no apparent alteration in both the efficiency and fidelity of end-joining. These results suggest that the exposure to low dose activates a cellular function to repair DSBs efficiently, which is dependent on p53. These results indicate that NHEJ pathway is regulated by many factors; genetic regulation by ATM and BLM, and physiological conditions such as irradiation with ionizing radiation. The observations also suggest that in some occasions p53 might play a key role in NHEJ.
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PMID:Genetic and physiological regulation of non-homologous end-joining in mammalian cells. 1547 91

Bloom syndrome is a rare autosomal recessive genetic disorder characterized by lupus-like erythematous telangiectasias of the face, sun sensitivity, stunted growth, and immunodeficiency. Chromosome instability syndromes have a common feature, being associated at high frequency with neoplasia. BS is considered as one of the chromosome instability syndromes since the fibroblasts or lymphocytes of BS patients show excessive spontaneous chromosome instability. The causative gene of BS (BLM) was identified as a RecQ helicase homologue. In this review, we showed the characteristic phenotypes of BS, especially two Japanese siblings. In the latter of the review, the functional domains of BLM, those are nuclear localization signal and the interacting proteins such as ATM, are shown. Several lines of reports indicates that BLM helicase is involved in the re-initiation of DNA replication at sites where replication forks have arrested or collapsed. To elucidate the precise function of RecQ helicase in DNA repair and replication aims not only to improve our understanding of the molecular basis for tumorigenesis, but also to extend the range of potential therapeutic targets.
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PMID:The function of RecQ helicase gene family (especially BLM) in DNA recombination and joining. 1547 92

Repair of DSBs is important to prevent chromosomal fragmentation, translocations and deletions. To investigate the process in NHEJ, we have established an in vitro system to clarify the measurement and analysis of the efficiency and the fidelity of rejoining of DSBs, and applied the method to investigate NHEJ in human cells derived from patients suffering from cancer-prone hereditary diseases. A DSB was introduced in plasmid pZErO-2 at a specific site within the ccdB gene that is lethal to E. coli cells, and treated with nuclear extracts from human cells. The efficiency of rejoining in the nuclear extract from an A-T cell line was comparable to that from a control cell line. However, the accuracy of rejoining was much lower for the A-T cell extract than for the control cell extract. All mutations were deletions, most of which contained short direct repeats at the breakpoint junctions. The deletion spectrum caused by the A-T nuclear extract was distinct from that by the control extract. These results indicate that A-T cells have certain deficiencies in end-joining of double-strand breaks in DNA. The extract from BS cells also showed the similar activity and the lower fidelity of rejoing compared to that from normal cells. From the sequencing analysis of the junction of DSBs, it is speculated that the defect in the BLM helicase might cause irregular rejoining of DSBs. Radioadaptive response is the acquirement of cellular resistance to ionizing radiation by prior exposure to low dose. We investigated the in vitro end-joining activity of DNA ends in radioadaptive cells. Both the efficiency and the fidelity of rejoining in the cells pre-exposed to low dose are increased comparing to those without pre-exposure. We also investigated the joining activity of DNA ends in p53-deficient cells. Pre-irradiation caused no apparent alteration in both the efficiency and fidelity of end-joining. These results suggest that the exposure to low dose activates a cellular function to repair DSBs efficiently, which is dependent on p53. These results indicate that NHEJ pathway is regulated by many factors; genetic regulation by ATM and BLM, and physiological conditions such as irradiation with ionizing radiation. The observations also suggest that in some occasions p53 might play a key role in NHEJ.
...
PMID:Genetic and physiological regulation of non-homologous end-joining in mammalian cells. 1549 26

Bloom syndrome is a rare autosomal recessive genetic disorder characterized by lupus-like erythematous telangiectasias of the face, sun sensitivity, stunted growth, and immunodeficiency. Chromosome instability syndromes have a common feature, being associated at high frequency with neoplasia. BS is considered as one of the chromosome instability syndromes since the fibroblasts or lymphocytes of BS patients show excessive spontaneous chromosome instability. The causative gene of BS (BLM) was identified as a RecQ helicase homologue. In this review, we showed the characteristic phenotypes of BS, especially two Japanese siblings. In the latter of the review, the functional domains of BLM, those are nuclear localization signal and the interacting proteins such as ATM, are shown. Several lines of reports indicates that BLM helicase is involved in the re-initiation of DNA replication at sites where replication forks have arrested or collapsed. To elucidate the precise function of RecQ helicase in DNA repair and replication aims not only to improve our understanding of the molecular basis for tumorigenesis, but also to extend the range of potential therapeutic targets.
...
PMID:The function of RecQ helicase gene family (especially BLM) in DNA recombination and joining. 1549 27

Bloom syndrome is a rare disorder associated with cancer predisposition and genomic instability and is caused by loss of the RecQ helicase BLM. The Drosophila ortholog of BLM (DmBlm) is required for accurate repair of DNA double-strand gaps by homologous recombination. Repair products from DmBlm mutants have shorter repair synthesis tract lengths compared to wild type and are frequently associated with deletions flanking the break site. To determine the mechanisms responsible for deletion formation in the absence of DmBlm, we characterized repair after excision of the P[w(a)] element in various genetic backgrounds. Flies lacking DmRad51 do not have an elevated deletion frequency. Moreover, loss of DmRad51 suppresses deletion formation in DmBlm mutants. These data support a model in which DmBlm acts downstream of strand invasion to unwind a D-loop intermediate to free the newly synthesized strand. In the absence of DmBlm, alternative pathways of D-loop disassembly result in short repair synthesis tracts or flanking deletions. This model explains how RecQ helicases can promote homologous recombination while preventing illegitimate recombination.
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PMID:Formation of deletions during double-strand break repair in Drosophila DmBlm mutants occurs after strand invasion. 1550 16

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