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)

Sites of an endogenous activity that has the properties of a DNA topoisomerase I have been identified on the palindromic ribosomal RNA genes of the slime mould Dictyostelium discoideum. This was done in vitro, by treating isolated nuclei with sodium dodecyl sulphate, which denatures topoisomerase during its cycle of nicking, strand passing and resealing, and hence reveals the DNA cleavages. It was also done in vivo using the drug camptothecin, which is believed to stabilize the cleavable complex of topoisomerase I plus DNA, hence increasing the chances of cleavage when sodium dodecyl sulphate is subsequently added. The cleavages in vitro and in vivo were mapped by indirect end-labelling. Both treatments cause what appear to be strong double-stranded cleavages at 200 and 2200 base-pairs and at 17 X 10(3) base-pairs upstream from the rRNA transcription start. The cleavage at 200 base-pairs was analysed in greater detail using RNA hybridization probes specific for single DNA strands. The cleavage is in fact composed of three closely spaced nicks on each DNA strand. The DNA sequence at each of the nicks is strongly homologous across 15 base-pairs. Sodium dodecyl sulphate-induced cleavage by eukaryotic topoisomerase I is known to yield enzyme covalently attached to the 3' cut end of the DNA. We show that protein-linked DNA restriction fragments with their 3' ends at the cleavage sites are selectively retarded on denaturing gels, which provides strong evidence that the unusual cluster of cleavages is caused by a topoisomerase I. Additionally, the camptothecin results revealed cleavages not only at the specific upstream sites, but also across the transcribed region. Interestingly, the zone of camptothecin-assisted cleavage does not extend as far at the 3' end of the gene as the zone of endogenous nuclease sensitivity.
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PMID:Topoisomerase I cleavage sites identified and mapped in the chromatin of Dictyostelium ribosomal RNA genes. 283 75

Indirect end-labelling and the digestion patterns of endogenous and exogenous nucleases were used to analyse chromatin organization along the ribosomal RNA genes of Dictyostelium discoideum cells. A zone just upstream from the 5' end of the coding region was particularly sensitive to endogenous nucleases. In exponentially growing cells, this hypersensitive zone extended from -350 to -1600 bp relative to the transcription start. In sharp contrast, the DNA between 0 and -350 bp was strongly protected. In differentiating cells, in which the ribosomal RNA transcription rate is low, the 5' hypersensitive zone was more diffuse than in exponentially growing cells, and the protected region at the 5' end of the transcribed region was less pronounced. It is known that where DNA topoisomerase is acting on DNA, the addition of sodium dodecyl sulphate will result in cleavage of the DNA and covalent attachment of the enzyme to the cut DNA end. Treatment of nuclei from both exponentially growing cells and differentiating cells with SDS caused double-stranded cleavages at -200 (i.e. within the protected region), at -2200, and at two sites at about -17 kb. A fraction of the cleavage products appeared to be strongly associated with protein. Novobiocin, a DNA topoisomerase II inhibitor, did not inhibit the SDS-induced cleavages in vegetative cells. However, it significantly reduced the extent of nuclease cleavage within the -350 to -1600 bp hypersensitive zone. The possibility is discussed that there are two DNA topoisomerase-like activities on the ribosomal genes. One is site-specific and novobiocin-insensitive. We speculate that the other is responsible for maintaining DNA at the 5' end of the gene in a torsionally strained, nuclease-hypersensitive state.
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PMID:Mapping of endogenous nuclease-sensitive regions and of putative topoisomerase sites of action along the chromatin of Dictyostelium ribosomal RNA genes. 301 83

We describe a rapid method for creating Dictyo stelium gene disruption constructs, whereby the target gene is interrupted by a drug resistance cassette using in vitro transposition. A fragment of genomic DNA containing the gene to be disrupted is amplified by PCR, cloned into a plasmid vector using topoisomerase and then employed as the substrate in an in vitro Tn5 transposition reaction. The transposing species is a fragment of DNA containing a Dictyostelium blasticidin S resistance (bs(r)) cassette linked to a bacterial tetracycline resistance (tet(r)) cassette. After transposition the plasmid DNA is transformed into Escherichia coli and clones in which the bs(r)-tet(r) cassette is inserted into the Dictyostelium target DNA are identified. To demonstrate its utility we have employed the method to disrupt the gene encoding QkgA, a novel protein kinase identified from the Dictyostelium genome sequencing project. QkgA is structurally homologous to two previously identified Dictyostelium kinases, GbpC and pats1. Like them it contains a leucine-rich repeat domain, a small GTP-binding (ras) domain and a MEKK domain. Disruption of the qkgA gene causes a marked increase in growth rate and, during development, aggregation occurs relatively slowly to form abnormally large multicellular structures.
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PMID:Rapid generation of gene disruption constructs by in vitro transposition and identification of a Dictyostelium protein kinase that regulates its rate of growth and development. 1295 83

We have determined the complete nucleotide sequence of the cDNA encoding DNA topoisomerase II from Physarum polycephalum. Using degenerate primers, based on the conserved amino acid sequences of other eukaryotic enzymes, a 250-bp fragment was polymerase chain reaction (PCR) amplified. This fragment was used as a probe to screen a Physarum cDNA library. A partial cDNA clone was isolated that was truncated at the 3' end. Rapid amplification of cDNA ends (RACE)-PCR was employed to isolate the remaining portion of the gene. The complete sequence of 4613 bp contains an open reading frame of 4494 bp that codes for 1498 amino acid residues with a theoretical molecular weight of 167 kDa. The predicted amino acid sequence shares similarity with those of other eukaryotes and shows the highest degree of identity with the enzyme of Dictyostelium discoideum. However, the enzyme of P. polycephalum contains an atypical amino-terminal domain very rich in serine and proline, whose function is unknown. Remarkably, both a mitochondrial targeting sequence and a nuclear localization signal were predicted respectively in the amino and carboxy-terminus of the protein, as in the case of human topoisomerase III alpha. At the Physarum genomic level, the topoisomerase II gene encompasses a region of about 16 kbp suggesting a large proportion of intronic sequences, an unusual situation for a gene of a lower eukaryote, often free of introns. Finally, expression of topoisomerase II mRNA does not appear significantly dependent on the plasmodium cycle stage, possibly due to the lack of G1 phase or (and) to a mitochondrial localization of the enzyme.
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PMID:An atypical topoisomerase II sequence from the slime mold Physarum polycephalum. 1469 12

We describe a series of Dictyostelium expression vectors for recombination cloning using the Gateway technology. DNA fragments generated by high fidelity polymerase chain reaction are cloned by topoisomerase-mediated ligation, then recombined into any of several Dictyostelium expression vectors using phage lambda LR recombinase. No restriction enzymes are used in this procedure. Coding regions can be expressed from their own promoters, or from a strong actin 15 promoter as a native protein, or with an amino or carboxyl-terminal GFP fusion. Gene promoters of interest can be analyzed by controlled expression of GFP and beta-galactosidase. These vectors allow for rapid and simple characterization of novel DNA, and are ideal for high-throughput studies.
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PMID:A series of Dictyostelium expression vectors for recombination cloning. 1676 43