EC:5.99.1.2 - FACTA Search

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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)

A DNA consensus sequence for topoisomerase II cleavage sites was derived previously based on a statistical analysis of the nucleotide sequences around 16 sites that can be efficiently cleaved by Drosophila topoisomerase II (Sander, M., and Hsieh, T. (1985) Nucleic Acids Res. 13, 1057-1072). A synthetic 21-mer DNA sequence containing this cleavage consensus sequence was cloned into a plasmid vector, and DNA topoisomerase II can cleave this sequence at the position predicted by the cleavage consensus sequence. DNase I footprint analysis showed that topoisomerase II can protect a region of approximately 25 nucleotides in both strands of the duplex DNA, with the cleavage site located near the center of the protected region. Similar correlation between the DNase I footprints and strong topoisomerase II cleavage sites has been observed in the intergenic region of the divergent HSP70 genes. This analysis therefore suggests that the strong DNA cleavage sites of Drosophila topoisomerase II likely correspond to specific DNA-binding sites of this enzyme. Furthermore, the extent of DNA contacts made by this enzyme suggests that eucaryotic topoisomerase II, in contrast to bacterial DNA bacterial DNA gyrase, cannot form a complex with extensive DNA wrapping around the enzyme. The absence of DNA wrapping is probably the mechanistic basis for the lack of DNA supercoiling action for eucaryotic topoisomerase II.
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PMID:Nuclease protection by Drosophila DNA topoisomerase II. Enzyme/DNA contacts at the strong topoisomerase II cleavage sites. 255 38

In eukaryotic cells, chromatin is organized as domains or loops that are generated by periodic attachment of the chromatin fiber to protein components of a nuclear matrix, or scaffold. These chromosomal loops may have a function in gene regulation. The length of the chromatin domain encompassing the human apolipoprotein B gene was studied by determining the locations of nuclear matrix attachment sites as well as the boundaries of the DNase I-sensitive domain in cells that express the gene (such as HepG2 and CaCo-2 cells) and in those that do not (HeLa cells). Three nuclear matrix attachment regions (MARs) of the human apolipoprotein B gene have been localized: a 3' -proximal MAR, between nucleotides +43,186 and +43,850; a 5' -proximal MAR, between nucleotides -2,765 and -1,801; and a 5' -distal MAR, between nucleotides -5,262 and -4,048. Both the 3' -proximal and the 5' -distal MARS were present in cells that express the gene (HepG2 and CaCo-2 cells) as well as in cells that do not (HeLa cells), whereas the 5' -proximal MAR was detected only in HepG2 cells. These MARs were located at the bases of chromosomal loops in histone-extracted nuclei in all three cell lines. Various classes of A/T-rich sequences resembling the recognition site for topoisomerase II were present within the MAR-containing fragments. The boundaries of the DNase I-sensitive domain coincide with the positions of the 3' -proximal and 5' -distal matrix attachment sites. These results suggest the existence of a 47.5-kilobase domain that represents a topologically sequestered functional unit containing the coding region and all known cis-acting regulatory elements of the human apolipoprotein B gene.
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PMID:The limits of the DNase I-sensitive domain of the human apolipoprotein B gene coincide with the locations of chromosomal anchorage loops and define the 5' and 3' boundaries of the gene. 259 70

Protein-DNA interactions within the promoter of a cell cycle-regulated human H4 histone gene were examined by binding of 5'-end-labeled DNA segments to Western blots of nuclear protein fractions. Specific protein interactions were observed with DNA segments located between -500 bp and -1,070 bp upstream of the ATG initiation codon and included a histone H1 binding segment flanked on both sides by binding sites for a 45 kD nuclear protein. This region of the gene contains a DNase I-sensitive site in the center (-720 to -820 bp), and sequence analysis revealed the presence of scaffold attachment sequences in the two flanking segments. Topoisomerase II consensus sequences and in vitro topoisomerase II cleavage sites were also detected in the two flanking segments. Our results suggest that the 45 kd nuclear protein may preferentially interact with these two segments of the H4 histone gene to mediate association with the nuclear matrix. The presence of negative regulatory elements in this putative matrix attachment region provides a basis for the speculation that such nuclear proteins are associated with alterations in gene-matrix interaction that are functionally related to gene expression.
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PMID:Specific interactions of histone H1 and a 45 kilodalton nuclear protein with a putative matrix attachment site in the distal promoter region of a cell cycle-regulated human histone gene. 271 90

A human Burkitt's lymphoma cell line (Raji-HN2) made resistant to nitrogen mustard, a bifunctional alkylating agent, was used to study the mechanism of resistance to nitrogen mustard. A comparative study of Raji-HN2 and the parental sensitive Raji cell lines revealed the following: (1) The DNA of Raji-HN2 cells was crosslinked by nitrogen mustard to a lower extent than Raji DNA; (2) once interstrand crosslinks were formed, they were repaired at the same rate in both cell lines; (3) DNA crosslink formation in Raji-HN2, but not in Raji cells, was enhanced by novobiocin, a topoisomerase II inhibitor; (4) Raji-HN2 cells had elevated topoisomerase II activity and were hypersensitive to topoisomerase inhibitors (amsacrine, novobiocin, teniposide); (5) similar amounts of topoisomerase I were found in both cell lines; and (6) the chromatin of Raji-HN2 but not of Raji cells, was hypersensitive to DNase I digestion. The relationship between DNA repair, topoisomerase II activity, chromatin structure and drug resistance is discussed.
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PMID:Elevated topoisomerase II activity and altered chromatin in nitrogen mustard-resistant human cells. 281 39

The genes encoding 18S, 5.8S, and 28S ribosomal RNA (rRNA) are tandemly repeated at the nucleolus organizer region (NOR). The NORs in the chicken map to one pair of microchromosomes. A line of chickens that contains individuals that are either disomic, trisomic, or tetrasomic for this chromosome, and have two, three, or four nucleoli and NORs, per cell, respectively, has been described previously. Aneuploid animals display a proportional increase in the rRNA gene copy number per cell. But, despite an increase in rDNA dosage, the levels of mature rRNA are regulated to normal levels in cells from aneuploid chickens (Muscarella, D.E., V.M. Vogt, and S.E. Bloom, 1985, J. Cell Biol., 101:1749-1756). This paper addresses the question of how regulation of mature rRNA synthesis occurs in cells with elevated levels of rDNA. An analysis of rRNA transcription in chicken embryo fibroblasts (CEFs) revealed that the relative rates of rRNA synthesis and processing and the amounts of precursor rRNA per cell are similar for all three genotypes. A comparison of chromatin structure, as determined by sensitivity of rDNA in nuclei from CEFs to digestion by DNase I, revealed that some of the rRNA genes from aneuploid cells are more resistant to digestion than corresponding sequences in the disomic cells. A determination of the distribution of topoisomerase I on rDNA has also been performed using the compound camptothecin, which introduces single- and double-strand breaks in topoisomerase-DNA complexes. Quantitation of camptothecin-induced cleavages revealed that a larger proportion of the rRNA genes in aneuploid cells was resistant to cleavage than in disomic cells, and therefore have no detectable amounts of topoisomerase I. These results suggest that the regulation of rRNA synthesis in CEFs with elevated levels of rDNA is achieved by the use of a subset of the rRNA genes.
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PMID:Characterization of ribosomal RNA synthesis in a gene dosage mutant: the relationship of topoisomerase I and chromatin structure to transcriptional activity. 282 24

A family of repetitive extragenic palindromic (REP) sequences is composed of hundreds of copies distributed throughout the chromosome. Their palindromic nature and conservation suggested that they are specifically recognized by a protein(s). We have identified DNA gyrase [DNA topoisomerase (ATP-hydrolysing), EC 5.99.1.3] as one of the REP-binding proteins. Gyrase has at least a 10-fold higher affinity for DNA containing REP sequences than for DNA not containing REP sequences. Binding effectiveness correlates directly with the number of REP sequences in the DNA. DNase I footprinting shows that gyrase protects 205 base pairs on a REP-containing DNA fragment enclosing the REP sequences. In agreement with the above results, a comparison of the REP consensus sequence with the sequence of previously identified pBR322 "strong" gyrase cleavage sites reveals a high degree of homology. Because REP sequences are numerous and found throughout the genome, we suggest they have physiological functions mediated through their interaction with gyrase, such as being sites of action for the maintenance of DNA supercoiling. In addition, we speculate that these interactions may be of a structural nature, such as involvement in the higher-order structure of the bacterial chromosome.
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PMID:DNA gyrase binds to the family of prokaryotic repetitive extragenic palindromic sequences. 284 43

Endogenous topoisomerase II cleavage sites were mapped in the chicken beta A-globin gene of 12- to 14-day embryonic erythrocytes. A major topoisomerase II catalytic site was mapped to the 5' end of the globin gene which contained a nucleosome-free and DNase I-hypersensitive site and additional but minor sites were mapped to the second intron and 3' of the gene to a tissue-specific enhancer. Cleavage sites, mapped in situ by indirect end labeling, were aligned to single-base-pair resolution by comparison to a consensus sequence derived for vertebrate topoisomerase II catalytic sites. In contrast to embryonic erythrocytes, endogenous topoisomerase II cleavages were not detected in erythrocytes from peripheral blood of adult chickens; therefore, as the transcriptional activity of the beta A-globin gene declines during terminal differentiation of erythrocytes, the activity of topoisomerase II in situ declines as well, despite the fact that DNase I hypersensitivity persists. The results showed that DNase I-hypersensitive chromatin can be maintained in the absence of topoisomerase II activity and suggested that topoisomerase II acts at hypersensitive sites because of an inherent attraction to some preexisting combination of DNA sequence or chromatin structure associated with DNase I-hypersensitive regions.
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PMID:DNase I hypersensitivity is independent of endogenous topoisomerase II activity during chicken erythrocyte differentiation. 285 23

Undiluted extracts from eggs or oocytes of Xenopus laevis support the assembly of chromatin with physiologically spaced nucleosomes. Micrococcal nuclease and DNase I digestion experiments show that nucleosome formation as well as supercoiling of circular DNA concomitant to assembly do not require ATP or Mg2+. However these factors are essential for the stability and the physiological spacing of the assembled chromatin. gamma-S-ATP can substitute for ATP in this process. With topoisomers of defined linking number topological interconversions proceed by steps of unity, both in vitro as well as in vivo, indicating that topoisomerase I is dominantly acting in this process. Novobiocin sensitivity occurred only with diluted extracts and was unrelated to an inhibition of topoisomerase II. Finally, nucleosome assembly occurs efficiently on linear DNA although the assembled DNA is less stable than with circular DNA. From these results we propose that mature chromatin is formed in a two-step reaction. In the first step, nucleosome deposition occurs independently of ATP and Mg2+. Thus, nucleosome formation can be uncoupled from their spacing. In this step, topoisomerase activity is involved in the relaxation of the topological constraints generated by chromatin assembly rather than in the process of assembly itself. The second step, requiring ATP and Mg2+, generates properly spaced chromatin.
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PMID:Assembly of spaced chromatin involvement of ATP and DNA topoisomerase activity. 285 62

Similar to its inhibitory effect on mammalian DNA topoisomerase II, the cytotoxic drug VM26 (teniposide) also interferes with the breakage-reunion reaction of Drosophila melanogaster DNA topoisomerase II. VM26 induces topoisomerase II-mediated DNA breakage in vitro and in cultured D. melanogaster cells presumably by stabilizing an enzyme-DNA cleavable complex. The drug-induced DNA breaks on D. melanogaster hsp70 genes were mapped in cultured cells using the indirect end-labeling procedure. Multiple and specific cleavage sites occurred at both the 3' and 5' ends of the hsp70 genes. A number of these cellular topoisomerase II cleavage sites mapped close to the DNase I-hypersensitive regions of the hsp70 genes. The intensities of several topoisomerase II cleavage sites changed significantly on heat shock induction. Treatment of cultured D. melanogaster cells with VM26 at 25 degrees C resulted in the stimulation of transcription of the hsp70 genes. These results suggest that inhibition of DNA topoisomerase II may lead to heat shock transcription.
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PMID:In vivo localization of DNA topoisomerase II cleavage sites on Drosophila heat shock chromatin. 302 86

The replication of the pT181 plasmid is dependent on the plasmid-encoded initiator protein RepC. We have previously shown that RepC protein has sequence-specific endonuclease and topoisomerase-like activities. In this paper we demonstrate that this initiator protein has sequence-specific DNA-binding properties. Based on filter binding of plasmid restriction fragments, RepC protein specifically recognizes only the pT181 origin region. Using DNase I and neocarzinostatin "footprinting" techniques, we show that RepC protein specifically binds to a 32-base-pair sequence within the origin that is part of the initiator cistron. Using dimethyl sulfate as a chemical probe, we have identified the purine residues that interact with the initiator protein. The features of the DNA region that interacts with RepC protein include sequences with the potential to form Z DNA and/or hairpin structures. The specific DNA-protein interaction at the origin may be critical in the initiation of pT181 DNA replication by RepC protein in association with other host initiation proteins.
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PMID:Sequence-specific interaction between the replication initiator protein of plasmid pT181 and its origin of replication. 346 45

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