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)

Bloom syndrome (BS), an autosomal recessive disorder, is marked by a high incidence of cancer early in life. Cells derived from BS patients are unstable genetically and exhibit frequent sister chromatid exchanges, reflective of homologous recombination (HR) deregulation. BLM, the RecQ-like helicase mutated in BS, is found in several cellular protein complexes, all of which contain topoisomerase IIIalpha (Topo IIIalpha) and a novel protein BLAP75. Here, using highly purified human proteins, we show that BLAP75 associates independently with both Topo IIIalpha and BLM. Even though BLM and Topo IIIalpha can dissolve the double Holliday junction (DHJ) to yield non-crossover recombinants (1), under physiological conditions, DHJ dissolution becomes completely dependent on BLAP75. The effect of BLAP75 on BLM-Topo IIIalpha is highly specific, as it is not seen with the combination of Topo IIIalpha and Escherichia coli RecQ helicase or another human RecQ-like helicase WRN. Thus, BLM, Topo IIIalpha, and BLAP75 constitute a dissolvasome complex that processes HR intermediates to limit DNA crossover formation. This function of the BLM-Topo IIIalpha-BLAP75 dissolvasome is likely indispensable for genome maintenance and cancer avoidance.
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PMID:A double Holliday junction dissolvasome comprising BLM, topoisomerase IIIalpha, and BLAP75. 1659 95

Werner syndrome (WS) is a premature aging disorder characterized by genomic instability and increased cancer risk (Martin, 1978). The WRN gene product defective in WS belongs to the RecQ family of DNA helicases (Yu et al., 1996). Mutations in RecQ family members BLM and RecQ4 result in two other disorders associated with elevated chromosomal instability and cancer, Bloom syndrome and Rothmund-Thomson syndrome, respectively (for review see Opresko et al., 2004a). RecQ helicase mutants display defects in DNA replication, recombination, and repair, suggesting a role for RecQ helicases in maintaining genomic integrity. The WRN gene encodes a 1,432 amino acid protein that has several catalytic activities (Brosh and Bohr, 2002) (Fig. 1). WRN is a DNA-dependent ATPase and utilizes the energy from ATP hydrolysis to unwind double-stranded DNA. WRN is also a 3' to 5' exonuclease, consistent with the presence of three conserved exonuclease motifs homologous to the exonuclease domain of Escherichia coli DNA polymerase I and RNase D. Most recently, WRN (Machwe et al., 2005) and other human RecQ helicases (Garcia et al., 2004; Machwe et al., 2005; Sharma et al., 2005) have been reported to possess an intrinsic single-strand annealing activity. In addition to its catalytic activities, WRN interacts with a number of proteins involved in various aspects of DNA metabolism. To understand the role of WRN in the maintenance of genome stability, a number of laboratories have undertaken a thorough characterization of its molecular and cellular functions. Here, we describe methods and approaches used for the functional and mechanistic analysis of WRN helicase or exonuclease activity. Protocols for measuring ATP hydrolysis, DNA binding, and catalytic unwinding or exonuclease activity of WRN protein are provided. Application of these procedures should enable the researcher to address fundamental questions regarding the biochemical properties of WRN or related helicases or nucleases, which would serve as a platform for further investigation of its molecular and cellular functions.
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PMID:Enzymatic mechanism of the WRN helicase/nuclease. 1679 95

The RecQ family of DNA helicases is highly conserved in evolution from bacteria to mammals. There are five human RecQ family members (RECQ1, BLM, WRN, RECQ4 and RECQ5), defects, three of which give rise to inherited human disorders. Mutations of BLM have been identified in patients with Bloom's syndrome, WRN has been shown to be mutated in Werner's syndrome, while mutations of RECQ4 have been associated with at least a subset of cases of both Rothmund-Thomson syndrome and RAPADILINO. The most characteristic features of these diseases are a predisposition to the development of malignancies of different types (particularly in Bloom's syndrome), some aspects of premature aging (particularly in Werner's syndrome), and on the cellular level, genome instability. In order to gain understanding of the molecular defects underlying these diseases, many laboratories have focused their research on a study of the biochemical properties of human RecQ helicases, particularly those associated with disease, and of RecQ proteins from other organisms (e.g., Sgs1p of budding yeast, Rqh1p of fission yeast, and RecQ of E.coli). In this chapter, we summarize the assay systems that we employ to analyze the catalytic properties of the BLM helicase. We have successfully used these methods for the study of other RecQ and non-RecQ helicases, indicating that they are likely to be applicable to all helicases.
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PMID:Analysis of the DNA unwinding activity of RecQ family helicases. 1679 96

Sgs1 is a RecQ family DNA helicase required for genome stability in Saccharomyces cerevisiae whose human homologs BLM, WRN, and RECQL4 are mutated in Bloom's, Werner, and Rothmund Thomson syndromes, respectively. Sgs1 and mismatch repair (MMR) are inhibitors of recombination between similar but divergent (homeologous) DNA sequences. Here we show that SGS1, but not MMR, is critical for suppressing spontaneous, recurring translocations between diverged genes in cells with mutations in the genes encoding the checkpoint proteins Mec3, Rad24, Rad9, or Rfc5, the chromatin assembly factors Cac1 or Asf1, and the DNA helicase Rrm3. The S-phase checkpoint kinase and telomere maintenance factor Tel1, a homolog of the human ataxia telangiectasia (ATM) protein, prevents these translocations, whereas the checkpoint kinase Mec1, a homolog of the human ATM-related protein, and the Rad53 checkpoint kinase are not required. The translocation structures observed suggest involvement of a dicentric intermediate and break-induced replication with multiple cycles of DNA template switching.
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PMID:Control of translocations between highly diverged genes by Sgs1, the Saccharomyces cerevisiae homolog of the Bloom's syndrome protein. 1680 76

Bloom syndrome (BS) is an autosomal recessive disorder characterized by a marked predisposition to cancer and elevated genomic instability. The defective protein in BS, BLM, is a member of the RecQ helicase family and is believed to function in various DNA transactions, including in replication, repair, and recombination. Here, we show that both endogenous and overexpressed human BLM accumulates at sites of laser light-induced DNA double-strand breaks within 10s and colocalizes with gammaH2AX and ATM. Like its RecQ helicase family member, WRN, the defective protein in Werner syndrome, dissection of the BLM protein revealed that its HRDC domain is sufficient for its recruitment to the damaged sites. In addition, we confirmed that the C-terminal region spanning amino acids 1250-1292 within the HRDC domain is necessary for BLM recruitment. To identify additional proteins required for the recruitment of BLM, we examined the recruitment of BLM in various mutants generated from chicken DT40 cells and found that the early accumulation of BLM was not dependent on the presence of ATM, RAD17, DNA-PKcs, NBS1, XRCC3, RAD52, RAD54, or WRN. Thus, HRDC domain in DNA helicases is a common early responder to DNA double-strand breaks, enabling BLM and WRN to be involved in DNA repair.
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PMID:BLM is an early responder to DNA double-strand breaks. 1687 11

The role of the human RECQ5beta helicase in the maintenance of genomic stability remains elusive. Here we show that RECQ5beta promotes strand exchange between arms of synthetic forked DNA structures resembling a stalled replication fork in a reaction dependent on ATP hydrolysis. BLM and WRN can also promote strand exchange on these structures. However, in the presence of human replication protein A (hRPA), the action of these RecQ-type helicases is strongly biased towards unwinding of the parental duplex, an effect not seen with RECQ5beta. A domain within the non-conserved portion of RECQ5beta is identified as being important for its ability to unwind the lagging-strand arm and to promote strand exchange on hRPA-coated forked structures. We also show that RECQ5beta associates with DNA replication factories in S phase nuclei and persists at the sites of stalled replication forks after exposure of cells to UV irradiation. Moreover, RECQ5beta is found to physically interact with the polymerase processivity factor proliferating cell nuclear antigen in vitro and in vivo. Collectively, these findings suggest that RECQ5beta may promote regression of stalled replication forks to facilitate the bypass of replication-blocking lesions by template-switching. Loss of such activity could explain the elevated level of mitotic crossovers observed in RECQ5beta-deficient cells.
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PMID:Human RECQ5beta helicase promotes strand exchange on synthetic DNA structures resembling a stalled replication fork. 1700 56

Recentstudies have shown that wild-type and recombinant adeno-associated virus (AAV and rAAV) genomes persist in human tissue predominantly as double-stranded (ds) circular episomes derived from input linear single-stranded virion DNA. Using self-complementary recombinant AAV (scAAV) vectors, we generated intermediates that directly transition to ds circular episomes. The scAAV genome ends are palindromic hairpin-structured terminal repeats, resembling a double-stranded break repair intermediate. Utilizing this substrate, we found cellular DNA recombination and repair factors to be essential for generating circular episomal products. To identify the specific cellular proteins involved, the scAAV circularization-dependent vector was used as a reporter in 19 mammalian DNA repair-deficient cell lines. The results show that RecQ helicase family members (BLM and WRN), Mre11 and NBS1 of the Mre11-Rad50-Nbs1 (MRN) complex, and ATM are required for efficient scAAV genome circularization. We further demonstrated that the scAAV genome requires ATM and DNA-PK(CS), but not NBS1, to efficiently convert to a circular form in nondividing cells in vivo using transgenic mice. These studies identify specific pathways involved for further elucidating viral and cellular mechanisms of DNA maintenance important to the viral life cycle and vector utilizations.
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PMID:Host cell DNA repair pathways in adeno-associated viral genome processing. 1704 Dec 15

The premature aging and cancer-prone diseases Werner and Bloom syndromes are caused by loss of function of WRN and BLM proteins, respectively. At the cellular level, WRN or BLM deficiency causes replication abnormalities, DNA damage hypersensitivity, and genome instability, suggesting that these proteins might participate in resolution of replication blockage. Although WRN and BLM are helicases belonging to the RecQ family, both have been recently shown to also facilitate pairing of complementary DNA strands. In this study, we demonstrate that both WRN and BLM (but not other selected helicases) can coordinate their unwinding and pairing activities to regress a model replication fork substrate. Notably, fork regression is widely believed to be the initial step in responding to replication blockage. Our findings suggest that WRN and/or BLM might regress replication forks in vivo as part of a genome maintenance pathway, consistent with the phenotypes of WRN- and BLM-deficient cells.
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PMID:The Werner and Bloom syndrome proteins catalyze regression of a model replication fork. 1711 88

DNA helicases are molecular motors that catalyse the unwinding of energetically unstable structures into single strands and have therefore an essential role in nearly all metabolism transactions. Defects in helicase function can result in human syndromes in which predisposition to cancer and genomic instability are common features. So far different helicase genes have been found associated in 8 such disorders. RecQ helicases are a family of conserved enzymes required for maintaining the genome integrity that function as suppressors of inappropriate recombination. Mutations in RecQ4, BLM and WRN give rise to various disorders: Bloom syndrome, Rothmund-Thomson syndrome, and Werner syndrome characterized by genomic instability and increased cancer susceptibility. The DNA helicase BRIP1/BACH1 is involved in double-strand break repair and is defective in Fanconi anemia complementation group J. Mutations in XPD and XPB genes can result in xeroderma pigmentosum, Cockayne syndrome and trichothiodystrophy, three genetic disorders with different clinical features but with association of transcription and NER defects. This review summarizes our current knowledge on the diverse biological functions of these helicases and the molecular basis of the associated diseases.
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PMID:[DNA helicases and human diseases]. 1715 31

The mouse gene Recql is a member of the RecQ subfamily of DEx-H-containing DNA helicases. Five members of this family have been identified in both humans and mice, and mutations in three of these, BLM, WRN, and RECQL4, are associated with human diseases and a cellular phenotype that includes genomic instability. To date, no human disease has been associated with mutations in RECQL and no cellular phenotype has been associated with its deficiency. To gain insight into the physiological function of RECQL, we disrupted Recql in mice. RECQL-deficient mice did not exhibit any apparent phenotypic differences compared to wild-type mice. Cytogenetic analyses of embryonic fibroblasts from the RECQL-deficient mice revealed aneuploidy, spontaneous chromosomal breakage, and frequent translocation events. In addition, the RECQL-deficient cells were hypersensitive to ionizing radiation, exhibited an increased load of DNA damage, and displayed elevated spontaneous sister chromatid exchanges. These results provide evidence that RECQL has a unique cellular role in the DNA repair processes required for genomic integrity. Genetic background, functional redundancy, and perhaps other factors may protect the unstressed mouse from the types of abnormalities that might be expected from the severe chromosomal aberrations detected at the cellular level.
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PMID:RECQL, a member of the RecQ family of DNA helicases, suppresses chromosomal instability. 1715 23

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