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Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two DNA segments exhibiting ARS (autonomously replicating sequence) activity in the dimorphic yeast Yarrowia lipolytica were cloned from its chromosome on an integrative LEU2 plasmid. These ARS segments, designated Y1ARS1 and Y1ARS2, conferred on the hybrid plasmids high transformation efficiency and enabled extrachromosomal transmission of the plasmids in 1 or 2 copies per yeast cell under selective conditions. Deletion analysis showed that at least 728-1003 bp for Y1ARS1 and 1377-1629 bp for Y1ARS2 were required for full function. Both of these regions contained two 10/11 matches to an ARS core consensus in Saccharomyces cerevisiae, whereas neither was similar to the S. cerevisiae centromere sequence. Significantly, both Y1ARS elements contained at, or close to, their boundaries a 13 bp sequence, 5'-TATATTCAAGCAA-3', which resembles the cleavage site for topoisomerase II in Drosophila. A central 524 bp ClaI fragment of Y1ARS2 contained four stretches of a 17 bp direct repeat sequence, 5'-GAAAAACAAAAACAGGC-3', and exhibited the electrophoretic behavior typical of bent DNA.
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PMID:Analysis of regions essential for the function of chromosomal replicator sequences from Yarrowia lipolytica. 848 46

The pattern of sites for cleavage mediated by topoisomerase II was determined in 830 kb of cloned DNA from the Drosophila X chromosome, with the objectives of comparing it with mapped structural and functional landmarks and examining if the correlations with such landmarks reported in individual loci can be generalized to a region approximately 100 times longer. The relative frequencies of topoisomerase II cleavage sites in 247 restriction fragments from 67 clones were quantified by hybridization with probes prepared from DNA fragments which abutted all cleavage sites in each clone, selected through the covalently bound topoisomerase II subunit; the specificity and quantitative nature of this method were demonstrated using a plasmid DNA model. The 12 restriction fragments with strong nuclear scaffold attachment (SAR) activity, of which seven possess autonomous replication (ARS) activity, show statistically strong coincidence or contiguity ( P </=0.11) with regions of high topoisomerase II cleavage site frequency. These regions show no correlation with repetitive sequence or A/T or C/G content and some extend over >10 kb; their sensitivity is therefore unlikely to be due to alternating purine-pyrimidine repeats or regions of Z conformation, which are preferred motifs. The hypothesis that they possess intrinsic curvature is consistent with the similarity of their length and spacing to regions of predicted curvature in the 315 kb DNA of Saccharomyces cerevisiae chromosome III and with the reported strong binding preference of topoisomerase II for curved DNA. The topoisomerase II cleavage pattern in this DNA further shows that its relationships to functional properties seen in individual loci, especially to MAR/SAR and ARS activity and to the restricted accessibility of DNA to topoisomerase II in vivo, can be generalized to much longer regions of the genome.
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PMID:Distribution of topoisomerase II-mediated cleavage sites and relation to structural and functional landmarks in 830 kb of Drosophila DNA. 915

It was previously shown that the two members of the cell cycle-regulated histone H4 gene family, H4-1 and H4-2, are replicated at the onset of S phase in the naturally synchronous plasmodium of Physarum polycephalum, suggesting that they are flanked by replication origins. It was further shown that a DNA fragment upstream of the H4-1 gene is able to confer autonomous replication of a plasmid in the budding yeast. In this paper, we re-investigated replication of the unlinked Physarum histone H4 genes by mapping the replication origin of these two loci using alkaline agarose gel and neutral/neutral 2-dimensional agarose gel electrophoreses. We showed that the two replicons containing the H4 genes are simultaneously activated at the onset of S phase and we mapped an efficient, bidirectional replication origin in the vicinity of each gene. Our data demonstrated that the Physarum sequence that functions as an ARS in yeast is not the site of replication initiation at the H4-1 locus. We also observed a stalling of the rightward moving replication fork downstream of the H4-1 gene, in a region where transient topoisomerase II sites were previously mapped. Our results further extend the concept of replication/transcription coupling in Physarum to cell cycle-regulated genes.
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PMID:Early activated replication origins within the cell cycle-regulated histone H4 genes in Physarum. 1021 81

Two fragments that could function as replicational cue elements were isolated from a genomic DNA digest of Aspergillus oryzae on the basis of abnormal behavior in polyacrylamide gel electrophoresis. The vector used in this study contained a scaffold-associated region of the Drosophila melanogaster ftz gene to provide nuclear retention. Neither fragment contained a yeast ARS consensus sequence or an eukaryotic topoisomerase II binding sequence. One of the fragments showed sequence homology with the mitochondrial replication origin of Candida utilis and a portion of mitochondrial DNA of Aspergillus nidulans. This plasmid carrying the cue fragment could also replicate in HeLa and NIH3T3 cells.
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PMID:Isolation of replicational cue elements from a library of bent DNAs of Aspergillus oryzae. 1093 21

Faithful duplication of the genetic material requires that replication origins fire only once per cell cycle. Central to this control is the tightly regulated formation of prereplicative complexes (preRCs) at future origins of DNA replication. In all eukaryotes studied, this entails loading by Cdc6 of the Mcm2-7 helicase next to the origin recognition complex (ORC). More recently, another factor, named Cdt1, was shown to be essential for Mcm loading in fission yeast and Xenopus as well as for DNA replication in Drosophila and humans. Surprisingly, no Cdt1 homolog was found in budding yeast, despite the conserved nature of origin licensing. Here we identify Tah11/Sid2, previously isolated through interactions with topoisomerase and Cdk inhibitor mutants, as an ortholog of Cdt1. We show that sid2 mutants lose minichromosomes in an ARS number-dependent manner, consistent with ScCdt1/Sid2 being involved in origin licensing. Accordingly, cells partially depleted of Cdt1 replicate DNA from fewer origins, whereas fully depleted cells fail to load Mcm2 on chromatin and fail to initiate but not elongate DNA synthesis. We conclude that origin licensing depends in S. cerevisiae as in other eukaryotes on both Cdc6 and Cdt1.
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PMID:Identification of Tah11/Sid2 as the ortholog of the replication licensing factor Cdt1 in Saccharomyces cerevisiae. 1196 59

We have found that the SacII-EcoRI fragment in the nontranscribed spacer (NTS) of silkworm Attacus ricini rDNA is a nuclear scaffold-associated region (SRA) and showed the function as the ARS element in yeast. This paper reports the sequence of this NTS region and the various characteristic potential functional motifs as analyzed by computer. It is 1 025 bp long and AT-Rich. With 9 bent DNA motifs, 10 T-boxes, 5 A-boxes motifs, 13 topoisomerase II as well as 15 ARS consensus sequences. In addition, there are several dozens of inverted repeats and ATTA/TAAT, ATTTA/TAAAT, ATATTT/AAATAT motifs commonly believed to be the binding sites of many homeodomain proteins. These motifs, concentrated in the SAR region, may play very important role in the regulation of gene transcription and replication at the chromatin level.
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PMID:The DNA Sequence and Structural Characteristic of The 5'-Nontranscribed Spacer of Silkworm Attacus ricini rDNA. 1223 88

The fission yeast top2 locus is defined by five temperature-sensitive mutations that cause heat-labile activity of type II DNA topoisomerase in the cell extracts. We show that the top2 locus is a structural gene for type II topoisomerase by cloning a genomic DNA fragment that complements top2. The top2 mutants at restrictive temperature produce abnormal chromosomes at the time of mitosis; these are transiently extended into filamentous structures along with the elongating mitotic spindle but are not separated. A primary defect in top2 appears to be the formation of aberrant mitotic chromosomes inseparable by the force generated by the spindle apparatus. Consistently, the top2 cells that become lethal during mitosis contain a catenated dimer of an ARS plasmid. DNA and RNA continue to be synthesized if cytokinesis is blocked. Uncoordinated mitosis, that is the occurrence of spindle dynamics without chromosome separation, is revealed in top2, and is discussed in relation to mitotic regulation. Different phenotypes between top2 and top1-top2 described in the present paper can be explained by a previously proposed hypothesis that type II topoisomerase has dual in vivo functions: one that decatenates and unknots duplex DNAs is essential in mitosis, whereas the other which relaxes supercoils is required throughout the cell cycle if type I topoisomerase is absent.
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PMID:Mitotic spindle pulls but fails to separate chromosomes in type II DNA topoisomerase mutants: uncoordinated mitosis. 1595 15

The yeast nuclear scaffold has been shown to bind with high affinity to genomic sequences that permit autonomous DNA replication of plasmids (ARS elements). We describe here conditions for the isolation of a histone-free nuclear substructure, the nuclear scaffold, from Saccharomyces cerevisiae. We examine the protein composition of this structure,and the conditions under which topoisomerase II, the nuclear factor RAP-1 and RNA polymerase II co-fractionate with the scaffold. We find that exposure of nuclei to a combined metal and heat treatment (0.5mM Cu(2) +, 37 degree centigrade prior to detergent extraction is required for effective stabilization of these proteins with the scaffold. Electron microscopy of the residual nuclei extracted with non-ionic detergents shows the absence of a typical peripheral lamina structure.
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PMID:The composition and morphology of yeast nuclear scaffolds. 2209 10