Dependence of mammalian DNA replication on DNA supercoiling. II. Effects of novobiocin on DNA synthesis in Chinese hamster ovary cells.

Novobiocin, an inhibitor of gyrase-induced DNA supercoiling and DNA replication in prokaryotes, inhibited the incorporation of DNA precursors into DNA in both intact and permeable Chinese hamster ovary cells; much higher concentrations were required for permeable cells, in which no new replicons were initiated. Nucleoids were prepared from cells that were incubated for 60 min with 200 micrograms/ml novobiocin, made permeable, and incubated with 0--50 micrograms/ml ethidium bromide. Sedimentation of the nucleoids in neutral sucrose gradients suggested that the number of supercoils in the average nucleoid had been reduced by prior incubation with novobiocin. In intact cells, novobiocin is required inside the cell for continued inhibition of DNA synthesis, suggesting that it does not act directly on the DNA. Alkaline sucrose gradient profiles of DNA synthesized in the presence of novobiocin in intact cells indicated that the drug inhibited replicon initiation while having little if any effect on chain elongation. These data are consistent with the idea that an activity similar to the bacterial gyrase generates supercoils in mammalian DNA and produces the proper conformation for the initiation of DNA replication.     

Use of ethidium bromide fluorescence enhancement to detect duplex DNA and DNA bacteriophages during zone sedimentation in sucrose gradients: molecular weight of DNA as a function of sedimentation rate

Duplex DNA molecules and DNA bacteriophages have been sedimented through 5--25% sucrose gradients containing ethidium bromide. The location of DNA within the gradients has been determined by illuminating gradients with ultraviolet light and observing the ethidium bromide fluorescence enhancement induced by the DNA. The relative sedimentation rates of linear, duplex DNAs from bacteriophages T4, T5, T7 and an 8.3% T7 deletion mutant have been determined. The distances sedimented by DNA have been corrected, when necessary, for a progressive decrease in sedimentation rate that occurs after the DNA has traversed 40% of the sucrose gradient. The corrected distances sedimented by two DNA molecules, r1' and r2', are related to the DNA molecular weights, m1 and m2, by the equation: r1'/r2' = (m1/m2)0.38 when 0.025--0.70 microgram of each type of DNA is sedimented. Intact bacteriophages were also sedimented in ethidium bromide--sucrose gradients and detected by fluorescence enhancement.     

Improved electrophoretic separation of supercoiled and relaxed DNA in the presence of ethidium bromide.

Supercoiled and relaxed DNA were resolved electrophoretically in the presence of 0.5 micrograms/ml ethidium bromide. Under these conditions the Gaussian distributions of topological isomers of both supercoiled and relaxed DNA migrated as discrete bands. The separation of these DNAs was optimized by varying the concentration of electrode buffer. Electrophoresis in the presence of 160 mM Tris-acetate, pH 8.3, 4 mM EDTA resulted in a 20-fold increase in the separation of relaxed and supercoiled DNA relative to electrophoresis in 40 mM Tris-acetate, pH 8.3, 1 mM EDTA.     

Different structures associated with ribosomal and nonribosomal DNAS in Drosophila melanogaster.

DNA from adult flies was found to be supercoiled as evidenced by its sedimentation behaviour in sucrose gradients containing varying concentrations of ethidium bromide. These structures survive treatment with proteases and ribonuclease A. The DNA containing the ribosomal genes is also supercoiled but appears to have a structure different from that of the bulk of the DNA.     

An ethidium bromide-agarose plate assay for the nonradioactive detection of cDNA synthesis

Ethidium bromide was used to determine the success of cDNA synthesis reactions. Since ethidium bromide in agarose can be used to quantitate RNA and DNA, conditions under which the greater fluorescence of double-stranded DNA (dsDNA) is utilized were devised to assay dsDNA synthesis from mRNA. Ethidium bromide at 5 micrograms/ml in agarose allowed quantitative detection of cDNA in the range of 0.03 to 0.0015 microgram. Sodium dodecyl sulfate had an adverse effect on the measurement of cDNA. Subsequent cDNA analysis by alkaline gel electrophoresis and staining in 5 micrograms/ml ethidium bromide allowed accurate and rapid sizing of cDNA and required only 0.1-0.05 microgram cDNA.     

Characterization of intracellular DNA strand breaks induced by neocarzinostatin in Escherichia coli cells.

DNA strand breaks induced by Neocarzinostatin in Escherichia coli cells have been characterized. Radioactively labeled phage lambda DNA was introduced into lysogenic host bacteria allowing the phage DNA to circularize into superhelical molecules. After drug treatment DNA single- and double-strand breaks were measured independently after neutral sucrose gradient sedimentation. The presence of alkali-labile lesions was measured in parallel in alkaline sucrose gradients. The cell envelope provided an efficient protection towards the drug, since no strand breaks were detected unless the cells were made permeable with toluene or with hypotonic Tris buffer. In permeable cells, no double strand breaks could be detected, even at high NCS concentration (100 micrograms/ml). Induction of single-strand breaks leveled off after 15 min at 20 degrees C in the presence of 2 mM mercaptoethanol. Exposure to 0.3N NaOH doubled the number of strand breaks. No enzymatic repair of the breaks could be observed.     

DNA replication in mammalian cells after the action of factors of a physical, chemical or biological nature. V. The structural reorganization of replicating DNA in HeLa cells after incubation with 5-fluorodeoxyuridine

A study was made of sedimentation properties of the nucleoid (chromatin) of HeLa cells with radio- and thermostable mode of DNA synthesis induced by 5-fluorodeoxyuridine (FUdR). After the incubation of HeLa cells with FUdR (10(-6) M, 6 h or 24 h) the rate of nucleoid sedimentation was shown to rise by 40 and 25%, respectively. Maximum relaxation of the nucleoid was observed under 5 mg/ml ethidium bromide concentration in sucrose gradients. After the incubation with FUdR the nucleoid relaxes to a lesser extent, and after irradiation its response to ethidium bromide in various concentrations was similar to that of intact nucleoid, and by this property the "FUdR nucleoid" differs essentially from the irradiated "normal nucleoid". A model of chromatin structure of cells exposed to FUdR is proposed, based on the transformation of large domains in small ones, for the explanation of radioresistant DNA synthesis.     

Fluorometric methods employing low concentrations of ethidium bromide for DNA topoisomerase and endonuclease assays

DNA topoisomerase activity can be rapidly assayed by measuring the change in ethidium bromide fluorescence intensity after treatment of closed duplex DNA with enzyme. The sensitivity of the fluorometric assay has been enhanced 3-fold by a 10-fold reduction in ethidium bromide concentration to 0.1 microgram/ml. The results of the fluorometric assays are in close agreement with agarose gel electrophoretic analyses of reacted DNA. A sensitive fluorometric method using 0.1 microgram/ml ethidium bromide has also been developed to determine the fraction of nicked and linear DNAs in a mixture containing closed duplex DNA by measuring the fluorescence intensities of ethidium-DNA complexes at pH 7.0 and pH 12.0. These methods make possible very rapid and sensitive measurements of DNA topoisomerase and endonuclease activities.     

Quantitation of DNA and RNA in crude tissue extracts by flow injection analysis.

An automated two-dye flow injection analysis system to quantitate DNA and RNA in crude extracts of tissues is described. The method uses the fluorochrome dyes ethidium bromide and Hoechst 33258. DNA concentration is determined directly from its fluorescence in Hoechst dye. RNA is estimated from fluorescence in ethidium bromide after subtraction of the fluorescence due to DNA. This method has several advantages: a simple extraction procedure, a low detection limit (0.01 micrograms DNA and 0.10 micrograms RNA), automation, and a high sample throughput.     

Measurement of DNA damage in mammalian cells using flow cytometry

A technique for the detection of DNA damage induced by radiation insult has been developed. Cells were lysed with a buffer containing 2 M sodium chloride to release the DNA in a supercoiled form, the nucleoid. These were stained with the DNA intercalating dye, ethidium bromide, and exposed to laser light within a flow cytometer. Scattered and fluorescent light was analyzed from the laser/nucleoid interaction following irradiation of viable cells with gamma rays. The addition of ethidium bromide to prepared nucleoids caused a reduction in scattered light due to condensation of the nucleoid. Irradiation of cells prior to nucleoid production and ethidium bromide treatment restricted this condensation and produced a dose-dependent increase in laser scatter. Nucleoids derived from human lymphocytes showed enhanced light scatter from 5 Gy, compared to Chinese hamster ovary (CHO) fibroblasts where doses above 10 Gy were required. Up to 30 Gy CHO nucleoids showed a dose-dependent reduction in the ethidium bromide fluorescence. This technique allows detection of altered light scattering and fluorescent behavior of nucleoids after cellular irradiation; these may be related to structural changes within the nucleus induced by the radiation. The use of flow cytometry compared to other methods allows a rapid analysis of nuclear damage within individual cells.     

Genotypic and phenotypic characteristics of L-line cells resistant to ethidium bromide

Stable mutants resistant to ethidium bromide in concentrations of 1 and 3 micrograms/ml have been selected in a single step in L cells. The frequency of spontaneously occurring ethidium bromide resistant clones after the exposure to 1 microgram/ml of the drug has been established as 5.10(-5). Resistant variants were induced following treatment with mutagen N-methyl-N-nitro-N-nitrosoguanidine. The resistant clones were shown to be resistant to higher concentration of the agent then which was used for selection. In multistep selection, a number of clones resistant to ethidium bromide in concentration up to 50 micrograms/ml was obtained. The alteration in the permeability of plasma membrane to the drug is the clue mechanism of the resistance.     

Probing DNA superstructure in human quiescent lynphocytes by X-ray-induced double-strand breakage

Summary Human quiescent lymphocytes were lysed onto neutral sucrose gradients in order to sediment subsequently the nuclear DNA released within nucleoids. The position of nucleoids in the centrifuge tubes was detected fluorometrically by using the dye, ethidium bromide, and the height of the fluorescent peak was taken as a measure of DNA content. X-irradiation of lymphocytes, before their lysis, altered the DNA content of nucleoids and their sedimantation rate in accord with the view that(1) nuclear DNA is attached along its length at distance corresponding to 1.7 × 10¹⁰ g/mol, amd that(2) X-ray-induces double-strand breakage releases DNA fragments at random. Incubation at 37° C of irradiated lymphocytes restored the amount of attached DNA as it would be expected from an intracellular repair process for DNA double-strand breaks.     

Quantitating small volumes of dilute DNA samples containing sodium dodecyl sulfate

A technique to quantitate small volumes of dilute solutions of different-sized DNA fragments has been developed. The detection limit was 0.7 micrograms/ml and the technique could be used even in the presence of diffusable substances, including those such as sodium dodecyl sulfate which affect surface tension and also exhibit fluorescence when stained with ethidium bromide and excited by ultraviolet light. The DNA was mixed with low-melting-point agarose and pipetted into preformed wells in an agarose plate, where it solidified. After diffusion of small molecules, the amount of DNA was estimated by comparing ethidium bromide-mediated fluorescence of samples with that of standards.     

Interaction of covalently closed circular PM-2 DNA and hedamycin.

The interaction of hedamycin with covalently closed circular PM-2 DNA was examined. Hedamycin produced strand breakage detectable in alkaline sucrose gradients. Under neutral conditions hedamycin inhibited ethidium bromide binding and induced conformational changes in PM-2 DNA.     

Heterologous transformation in Bacillus subtilis. 1. Transmission of DNA of the R1drd19 plasmid]

Bac. subtilis 168 (BD-25) cells were infected with DNA of plasmide R1drd19 isolated from E. coli strain; transformants resistant to streptomycin (500 microgram/ml) and kanamycin (40 microgram/ml) appeared with the frequency of 2.10(-6). These transformants retained resistance to the mentioned antibiotics stably. A satellite DNA peak was revealed in centrifugation in the density gradient of cesium chloride with ethidium bromide. It was possible to infect cells of Bac. subtilis 168 (BD-25) with plasmide DNA isolated from the transformants. Plasmide transduction with the aid of phages AR9 and PBSI multiplied on the transformant strains was also effected. Physico-chemical analysis of the transformed plasmide DNA was conducted; its molecular weight was determined.     

Neocarzinostatin induction of DNA repair synthesis in HeLa cells and isolated nuclei.

The antitumor antibiotic neocarzinostatin that causes DNA strand breaks in vivo and in vitro is shown to induce DNA repair synthesis in HeLa S3 cells. In the repair assay, the parental DNA was prelabeled with 32P and a density label (bromodeoxyuridine) was introduced into the new synthesized DNA. Quantitation of the repair synthesis as measured by the incorporation of [3H]thymidine into the light parental DNA at varying doses of the drug indicate that there is a significant repair response at low levels of the drug (0.2--0.5 microgram/ml) which cause DNA strand breakage and inhibition of DNA synthesis. In isolated HeLa nuclei neocarzinostatin stimulates the incorporation of dTMP many-fold. This enhancement of dTMP incorporation, which requires the presence of a sulfhydryl agent, is a consequence of the drug-induced DNA strand breakage and is in the parental DNA. These results suggest that an intact cell membrane is not required for DNA strand breakage and its subsequent repair.     

Dye titrations of covalently closed supercoiled DNA analyzed by agarose gel electrophoresis.

We have developed a rapid electrophoretic technique for performing ethidium bromide dye titrations in cylindrical 0.7% agarose gels. The technique was used to analyze the extent of supercoiling in circular covalently closed SV40, Co1E1, and pSC101 DNA. We have estimated the superhelical densities of SV40, Co1E1, and pSC101 DNA to be ?0.050, ?0.078, and ?0.085 respectively. The results obtained for native SV40 DNA correlate well with previously published values for the superhelical density of this DNA when these values are corrected to reflect a 26° duplex unwinding angle for ethidium bromide. Ethidium bromide concentrations sufficient to partially relax a supercoiled DNA allow the DNA to be resolved into a series of discrete bands in agarose gels. The distribution of bands represents a natural heterogeneity in the superhelical densities of the DNA molecules in the population.     

Behavior of bacteriophage Mu DNA upon infecton of Escherichia coli cells.

The question whether the ends of bacteriophage Mu DNA are fused to form a ring in host cells is critical to the understanding of the mechanism of integrative recombination between Mu DNA and host DNA. We have examined the fate of ³²P-labeled Mu DNA, after infection of sensitive and immune (lysogenic) cells, by sedimentation in sucrose gradients, ethidium bromide/CsCl density centrifugation and by electrophoresis of parental Mu DNA and its fragments in agarose gels. We find that the parental Mu DNA cannot be detected as covalently closed circles at any stage during the Mu life cycle. An interesting form of Mu DNA can be seen after superinfection of immune cells. This form sediments about twice as fast as the mature phage DNA marker in neutral sucrose gradients but yields linear molecules upon phenol extraction. Upon infection of sensitive cells, most of the parental DNA associates with a large complex, presumably containing the host chromosome. When Mu-sensitive cells are infected with unlabeled Mu particles and Mu DNA examined at different times after infection by fractionation in 0.3% agarose gels and hybridization with ³²P-labeled Mu DNA, Mu sequences are found to appear with the bulk host DNA as the phage lytic cycle progresses. However, no distinct replicative or integrative intermediate of Mu, that behaves differently from linear Mu DNA and is separate from the host DNA, can be detected.     

Change in the structural organization of Mycobacterium rubrum cells upon the action of ethidium bromide

The action of ethidium bromide on Mycobacterium rubrum cells was studied. The culture growth was found to depend on ethidium bromide (EB) concentration in the medium. The reaction of EB with nucleoid DNA was shown to be specific and changes in the nucleoid structure were detected. Low EB doses (ca. 2 micrograms/ml) caused DNA despiralization in many cells. The process was reversible, which accounted for the elevated ability of reactivation at low EB doses. A higher EB dose (ca. 5-10 micrograms/ml and more) made the nucleoid structure coarser and denser in most cells and the nucleoid broke down to small fragments. As a result, due to the pool of enzymes present in the cells prior to EB addition, secondary changes developed. They involved all the cellular structures as well as the metabolism of lipids, polyphosphates, and glycogen. As a rule, these changes were incompatible with the cell viability.     

A compact form of rat liver mitochondrial DNA stabilized by bound proteins.

A highly folded, rapidly sedimenting form of rat liver mitochondrial DNA has been released from the organelles wiht BRIJ 58 and sodium deoxycholate in the presence of 0.5 M NaCl and isolated by sedimentation velocity in sucrose gradients. Under these conditions a majority of the mitochondrial DNA labeled in vitro sedimented beyond 39 S, the sedimentation coefficient of a highly purified mitochondrial DNA supercoil, and appeared as a stable, heterogeneous population of species ranging in s values between 42 S and about 70 S. Under formamide-spreading conditions most of the rapidly sedimenting forms appeared in the electron microscope as single genome length rosettes constrained at the center in a dense core. Except for an occasional D-loop, no extraordinary structural features were evident along the smooth loops projecting radially from the central core. In sucrose gradients containing various amounts of ethidium bromide, the sedimentation velocity of the folded DNA changed in a biphasic fashion in response to increasing amounts of dye. At a dye concentration of 0.5 microgram per ml the DNA species present reached s value minima, but two major peaks sedimenting at 32 S and 42 S were present at this point. Thus, although these species were similar in superhelix density, there appeared to be additional constraints superimposed upon their tertiary structure that folded these forms to differing degrees of compactness. Direct chemical analyses showed that proteins were bound to the folded DNA at a protein to DNA ratio of about 0.3. Separation of the bound proteins on SDS-polyacrylamide gels revealed an array of proteins ranging in molecular weight between 11,000 and 150,000. Several of the lower molecular weight proteins co-migrated with proteins from the inner mitochondrial membrane, but the major DNA-bound band (Mr = 58,000) was undetectable among the proteins from any other submitchondrial fraction. Digestion of the compact DNA structure with proteinase K under various conditions indicated that the DNA was maintained in the compact conformation by the tightly bound proteins and that the portions of these proteins directly involved in stabilizing the folded DNA were proteinase insensitive unless digestion was carried out in the presence of a disulfide reductant at elevated temperatures.