Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stimulation of topoisomerase II cleavage activity by antitumor drugs with or without DNA intercalative ability has been tested in vivo on the c-myc proto-oncogene. Two human tumor cell lines (N417 and HL60 cells) were treated with mAMSA, OH-9-ellipticine, VM26, and BD-40 (an aza-ellipticine analog), and DNA breaks were mapped in the gene locus by Southern blot hybridization with c-myc probes. Most of the major cleavage sites induced in vivo by drugs in the 5' end of c-myc were also observed in vitro using purified topoisomerase II and a c-myc gene DNA insert. Moreover, they closely mapped to some DNAse I hypersensitive sites, the presence of which reflects gene activity. DNA from drug treated cells probed with a human beta 1 globin pseudogene, and the c-mos proto-oncogene did not reveal topoisomerase II cleavage bands, suggesting that topoisomerase II-mediated drug activity may correlate with gene activity.
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PMID:In vivo and in vitro stimulation by antitumor drugs of the topoisomerase II-induced cleavage sites in c-myc proto-oncogene. 281 30

We have initiated a genetic analysis of the physiologically important enzyme type I DNA topoisomerase in mouse. The exon-intron structures of the 5' part and the 3' part of the active gene, Top-1, were determined and shown to be quite similar to those of the previously determined human gene TOP1. The active mouse gene was mapped to the distal Chromosome (Chr) 2. In addition, the mouse genome contains one truncated processed topoisomerase-I-related pseudogene (retroposon), Top-1ps, on Chr 16. The Top-1ps locus, together with the immunoglobulin-lambda-light-chain locus, defines an additional conserved linkage group common to murine Chr 16 and human Chr 22, the site of the human pseudogene TOP1P2. The mapping data suggest that the pseudogene was established before mammalian radiation. Structural features, shared by the mouse and the human pseudogene, support this possibility.
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PMID:Mouse genes encoding DNA topoisomerase I. 811 Nov 24

In order to clone the gene encoding a type I DNA topoisomerase from Leishmania donovani, a PCR-amplified DNA fragment obtained with degenerate oligodeoxyribonucleotides was used to screen a genomic library from this parasite. An open reading frame of 1905 bases encoding a putative protein of 635 amino acid residues was isolated. A substantial part of the protein shares a significant degree of homology with the sequence of other known members of the IB topoisomerase family, in a highly conserved region of these enzymes termed the core domain. However, homology is completely lost after this conserved central core. Moreover, no conventional active tyrosine site could be identified. In fact, the protein expressed in Escherichia coli did not show any relaxation activity in vitro and was unable to complement a mutant deficient in topoisomerase I activity. The results of Southern blot experiments strongly suggested that the cloned gene was not a pseudogene. Northern analysis revealed that the gene was transcribed in its full length and also excluded the possibility that some form of splicing is necessary to produce a mature messenger. Furthermore, our results indicate that the gene is preferentially expressed in actively growing L.donovani promastigotes and that it is also expressed in other kinetoplastid parasites.
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PMID:Characterization of a Leishmania donovani gene encoding a protein that closely resembles a type IB topoisomerase. 1037 92

Warsaw Breakage Syndrome (WABS) is a rare disorder related to cohesinopathies and Fanconi anemia, caused by bi-allelic mutations in DDX11. Here, we report multiple compound heterozygous WABS cases, each displaying destabilized DDX11 protein and residual DDX11 function at the cellular level. Patient-derived cell lines exhibit sensitivity to topoisomerase and PARP inhibitors, defective sister chromatid cohesion and reduced DNA replication fork speed. Deleting DDX11 in RPE1-TERT cells inhibits proliferation and survival in a TP53-dependent manner and causes chromosome breaks and cohesion defects, independent of the expressed pseudogene DDX12p. Importantly, G-quadruplex (G4) stabilizing compounds induce chromosome breaks and cohesion defects which are strongly aggravated by inactivation of DDX11 but not FANCJ. The DNA helicase domain of DDX11 is essential for sister chromatid cohesion and resistance to G4 stabilizers. We propose that DDX11 is a DNA helicase protecting against G4 induced double-stranded breaks and concomitant loss of cohesion, possibly at DNA replication forks.
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PMID:Warsaw Breakage Syndrome associated DDX11 helicase resolves G-quadruplex structures to support sister chromatid cohesion. 3285 19