In the higher plant Pisum sativum maturation of nascent DNA is blocked by cycloheximide, but only after 4-8 replicons are joined.

Velocity sedimentation in alkaline sucrose gradients, single cell autoradiography and cytophotometry were used to determine if protein synthesis is required for the maturation of nascent replicons to chromosomal-sized molecules in cultured pea-root cells. The results obtained showed that cycloheximide at 5 and 10 microgram/ml, added either before or during labeling with tritiated thymidine, blocked maturation of nascent DNA at an intermediate size of 72-140 X 10(6) daltons single-stranded DNA. To reach this size, nascent replicons - which are 18 X 10(6) daltons single-stranded DNA each - were replicated and groups of 4-8 replicons were joined even though protein synthesis was reduced to 15% of the control. Further maturation of the nascent molecules to chromosomal size, however, was prevented and this resulted in the accumulation of nascent molecules in the 72-140 X 10(6) daltons range. The experiments also showed that the joining of nascent replicons is not an absolute function of late S or G2 phase of the cell cycle, since cells treated with cycloheximide and blocked in mid-S phase had nascent DNA of a size corresponding to 4-8 joined replicons. Finally, the results support the hypothesis that at least one step in the process of nascent DNA maturation may require replication, during late-S phase, of DNA segments that are interspersed within replicon-clusters that replicate early in the S phase.     

Excess thymidine accelerates nascent replicon maturation without affecting the rate of DNA synthesis

The effects of different concentrations of exogenously supplied dThd on DNA replication were investigated in seedlings of Pisum sativum. Nascent DNA was labeled with either [³H]dThd or [³H]dAdo in the presence of 1·10^?6, 1·10^?5 or 1·10^?4 M unlabeled dThd. The rate of DNA synthesis was determined by measuring the kinetics of radioactivity incorporation into trichloroacetic acid-precipitable material and the size of the nascent molecules was investigated using alkaline sucrose gradients. The results obtained showed that high concentrations of exogenously supplied dThd accelerated the joining of completed nascent replicons without affecting the rate of DNA synthesis. This observation strengthens the hypothesis that the dTTP pool size is one of the factors controlling the timing of nascent replicon maturation.     

DNA replication in Physarum polycephalum: bidirectional replication of DNA within replicons.

The direction of replication of DNA within replicons of Physarum polycephalum was studied by pulse-labelling with 5-bromouracil-deoxyriboside (BrdUrd) and 3H-adenosine deoxyriboside (dAdo), followed by ultraviolet- (UV) -photolysis and analysis of molecular weights of single strand DNA fragments on alkaline sucrose gradients. Newly made DNA within replicons at all stages of completion is split in two equal halves upon UV irradiation when BrdUrd was given at the time of initiation of DNA synthesis. This shows that replication within replicons of Physarum polycephalum starts at an origin located in the center of each unit, proceeding bidirectionally from this origin.     

Synthesis of high molecular weight DNA strands during S phase

The organization of the mammalian S phase was studied in synchronized mouse embryo cells in terms of the spatial relationship between replication units whose synthesis is initiated at different times in S phase and the rate of assimilation of replication units into high molecular weight DNA strands.The formation of high molecular weight nascent DNA strands several replication units in length was analyzed by velocity sedimentation in alkaline sucrose gradients and by isopycnic centrifugation in alkaline Cs₂SO₄/CsCl gradients. Differential labeling with an isotopic and a density label shows that replication units synthesized at different stages of the S phase are not found within the same high molecular weight polynucleotide strand. It is thus concluded that replication units duplicated at different stages of the S phase are spatially organized in clusters along the mammalian genome.The rate of formation of high molecular weight nascent DNA strands is at least 4 to 8 times slower than that predicted from the spatial organization of replication units and the rate of chain growth within replication units. It is concluded that the process of joining of the completed nascent strands of adjacent replication units plays a major role in the rate of completion of high molecular weight strands.     

Nuclear DNA synthesis is blocked by UV irradiation in Dictyostelium discoideum

We have used a thymidine auxotroph of the simple eukaryote, Dictyostelium discoideum and alkaline sucrose gradients of isolated nuclei to study alterations in DNA synthesis following irradiation of replicating haploid cells with 254 nm UV light. Three responses were characterized using pulse-chase protocols: (1) Lags in DNA synthesis as measured by the amount of label incorporated were 4, 9, and 20 h after 10, 50, and 200 J/m2. (2) The DNA synthesized during a 15-min pulse immediately after irradiation was of lower single strand molecular weight: 7, 3.5, and 3 x 10(6) dalton after 0, 50, and 200 J/m2. (3) The time required for maturation of the nascent DNA to full-sized single strands of about 2 x 10(8) dalton was 45-50 min for unirradiated cells, 3 h after 10 J/m2, and 20 h after 200 J/m2. The DNA of the irradiated cells did not mature uniformly during these delays; instead, a period of no increase in size was followed by a rapid, nearly control rate of maturation. We conclude: (a) at least some UV lesions block elongation of replicons; (b) the elongation of the replicons and their subsequent joining to yield mature high molecular weight DNA occurs after most of the lesions are repaired; (c) the timing of the different aspects of recovery suggest that initiation of replication is also inhibited.     

DNA replication in Physarum polycephalum: UV photolysis of maturing 5-bromo-deoxyuridine substituted DNA.

Combinations of 5-bromodeoxyuridine (BrdUrd) and 3H-deoxyadenosine (3H-DAdo) short pulses were given in the synchronous DNA-replication period of Physarum polycephalum. After a chase period, UV-photolysis products were analyzed on alkaline sucrose gradients. This strategy has allowed the following conclusions. a) at the time of master-initiation of DNA replication, points separated by 1.1-2.2x10(7) daltons of single strand DNA may initiate DNA synthesis. b) among these, only selected groups of replicons actually proceed in DNA replication at this time, while others appear to hold (later temporal sets of replicons). The origins of the ones that proceed in replication are separated from each other by a distance corresponding to 1.1-2.x10(7) daltons. c) regions in actual replication are separated from each other by increasing distances (up to 1.5x10(8) daltons single strand DNA) at later times in S.     

Intermediate in adenovirus type 2 replication.

Replicating chromosomes, called intermediate DNA, have been extracted from the adenovirus replication complex. Compared to mature molecules, intermediate DNA had a greater buoyant density in CsCl gradients and ethidium bromide-cesium chloride gradients. Digestion of intermediate DNA with S1 endonuclease, but not with RNase, abolished the difference in densities. These properties suggest that replicating molecules contain extensive regions of parental single strands. Although intermediate DNA sedimented faster than marker viral DNA in neutral sucrose gradients, single strands longer than unit length could not be detected after alkaline denaturation. Integral size classes of nascent chains in intermediate DNA suggest a relationship between units of replication and the nucleoprotein structure of the virus chromosome. Adenovirus DNA was replicated at a rate of 0.7 x 10-6 daltons/min. Although newly synthesized molecules had the same sedimentation coefficient and buoyant density as mature chromosomes, they still contained single-strand interruptions. Complete joining of daughter strands required an additional 15 to 20 min.     

Replicon sizes in mammalian cells as estimated by an x-ray plus bromodeoxyuridine photolysis method.

A new method is described for estimating replicon sizes in mammalian cells. Cultures were pulse labeled with [3H]thymidine ([3H]TdR) and bromodeoxyuridine (BrdUrd) for up to 1 h. The lengths of the resulting labeled regions of DNA, Lobs, were estimated by a technique wherein the change in molecular weight of nascent DNA strands, induced by 313 nm light, is measured by velocity sedimentation in alkaline sucrose gradients. If cells are exposed to 1,000 rads of X-rays immediately before pulse labeling, initiation of replicon operation is blocked, although chain elongation proceeds almost normally. Under these conditions Lobs continues to increase only until operating replicons have completed their replication. This value for Lobs then remains constant as long as the block to initiation remains and represents an estimate for the average size of replicons operating in the cells before X-irradiation. For human diploid fibroblasts and human HeLa cells this estimated average size is approximately 17 micron, whereas for Chinese hamster ovary cells, the average replicon size is about 42 micron.     

Caffeine enhancement of the initiation of DNA replication in benzo[a]pyrene diol epoxide damaged cells

We have used a newly developed pH stepwise alkaline elution method to show that caffeine enhances DNA initiation (DNA replication in sub-replicon size nascent strands) in (+/-)-7 beta,8 alpha-dihydroxy-9 alpha,10 alpha-epoxy-7,8,9, 10-tetrahydrobenzo[a]pyrene (BPDEI) damaged mouse primary epidermal cells. Caffeine alone caused a dose-dependent increase in DNA initiation without an effect on DNA elongation (joining of replicon-sized nascent DNA). BPDEI alone inhibited DNA elongation as shown by a relative increase in sub-replicon size nascent DNA. When BPDEI treated cells were incubated with caffeine, there was a dose-dependent increase in sub-replicon size nascent DNA without a significant effect on the proportion of joined replicons. Therefore, caffeine can enhance DNA initiation in mammalian cells damaged with a reactive form of the carcinogen benzo[a]pyrene and this may account for the biological interaction between caffeine and the ultimate carcinogenic form of benzo[a]pyrene.     

The effects of different thymidine concentrations on DNA replication in pea-root cells synchronized by a protracted 5-fluorodeoxyuridine treatment

Single-cell and DNA fiber autoradiography, cytophotometry and velocity sedimentation in alkaline sucrose gradients were used to analyse DNA replication and nascent replicon maturation in 5-fluorodeoxyuridine (FUdR)-synchronized cells of Pisum sativum. The replicon size was not significantly changed by the protracted FUdR treatment. When the synchronized cells were released from the inhibitor, labeled with [³H]TdR for 30 min, and chased in medium containing 1 × 10⁻⁶ M or lower concentrations of cold thymidine, DNA replication stopped after approx. 25% of the genome had replicated, and the nascent strands failed to grow above 9–12 × 10⁶ D single-stranded (ss) DNA. When the cells were chased in medium with 1 × 10⁻⁵ M cold thymidine, the DNA content of the labeled cells steadily increased with time and the size of the nascent molecules grew continuously until replicon size was achieved; then they were accumulated at replicon size until the cells arrived in late S or G2. When the FUdR-synchronized cells were chased in medium containing 1 × 10⁻⁴ M cold thymidine, the size of the nascent strands increased continuously with time, indicating that some neighbouring nascent replicons were joined as soon as they completed their replication. These observations led us to postulate that in FUdR-synchronized cells the rates of chain elongation, cell progression through the S phase and nascent replicon maturation are controlled by thymidine availability.     

Application of hypoxia-induced shut down of replicon initiation to the analysis of replication intermediates in Ehrlich ascites cells

Cultured Ehrlich ascites cells were subjected to hypoxic conditions for about 2 h, then reaerated or allowed to remain hypoxic. The newly formed DNA of hypoxic or reaerated cells was labeled with [3H]thymidine using different pulse and pulse/pulse-chase protocols. The chain length distribution of the labeled DNA molecules was analysed by sedimentation after lysing the cells on the top of alkaline sucrose gradients. The results indicated that the hypoxia effectively and reversibly suppressed the initiation of new replication units. Initiation, growth and integration of Okazaki pieces into active replicons was not noticeably affected. In marked contrast to aerobic cells, the use of hypoxic cells allows the separation of Okazaki pieces as a distinct class of pulse labeled short DNA chains. Short daughter DNA of very recently initiated replicons did not interfere at pulse times shorter than 4 min. For examination of the newly initiated replicons it seems favourable to trigger a burst of initiations by reaeration.     

Size distribution and maturation of newly replicated DNA through the S and G2 phases of physarum polycephalum

The size distribution of newly made DNA and the dynamics of size maturation of progeny DNA molecules were studied in the synchronous S and G2 phases of Physarum polycephalum. Pulse labeling of DNA and analysis of the products on alkaline sucrose gradients showed that synthesis of primary replication units (which will also be referred to as “Okazaki” fragments) occurred throughout the S period. Pulse and pulse-chase experiments revealed a distinct pattern of size maturation. An apparently linear increase in molecular weight of progeny DNA molecules during the first hour of the S phase occurred at a rate of approximately 4–5 × 10⁵ daltons per min at 26°C, corresponding to the joining of 6–8 Okazaki fragments. The resulting 35–45S (1.1–2.2 × 10⁷ daltons) DNA molecules may correspond to the Physarum “replicon.” The further size increases of the newly made DNA appear to occur in steps, possibly reflecting a clustering of isochronous replicons along the chromatide. These observations are discussed with regard to mechanisms of DNA replication and size maturation.     

Separation of the Herpesvirus Deoxyribonucleic Acid Duplex into Unique Fragments and Intact Strand on Sedimentation in Alkaline Gradients

Deoxyribonucleic acid (DNA) extracted from herpes simplex virions forms multiple partially overlapping bands upon denaturation and centrifugation in alkaline sucrose density gradients. The most rapidly sedimenting DNA corresponds to an intact strand 48 x 10(6) daltons in molecular weight. In this study, we analyzed the DNA fragments generated in alkaline sucrose gradients with respect to size and uniqueness of base sequences. The distribution of sedimentation constants of the various fragments obtained in numerous gradients showed that the fragments smaller than the whole strand fall into six distinct classes ranging in molecular weight from 10 x 10(6) to 39 x 10(6) daltons. Four types of DNA strands can be reconstructed from the whole strand and six fragments on the basis of their molecular weights. DNA from each of the bands self-hybridizes to a lower extent than unfractionated viral DNA, indicating that each of the bands preferentially contains sequences from one unique strand. The data permit reconstruction of four possible types of DNA duplexes differing in the positions of the strand interruptions. Analysis of viral DNA extracted from nuclei of cells labeled with (3)H-thymidine for intervals from 3 to 120 min showed that nascent DNA is invariably attached to small fragments and that the fragments become elongated only upon prolonged incubation of cells. The experiments suggest that viral DNA replication begins at numerous initiation sites along each strand and that the elongation beyond the size of the replication unit involves repair or ligation, or both. Since newly made DNA yields more fragments than viral DNA extracted from mature virions, it is suggested that the fragmentation of mature DNA on denaturation with alkali arises from incomplete processing of specific initiation sites. Comparison of viral DNA extracted from nuclei with that extracted from mature cytoplasmic virions in cells labeled for 120 min indicates that packaged DNA is not randomly selected from among the nuclear DNA population but rather represents DNA molecules which in alkaline gradients yield a minimal number of fragments.     

Effect of cytosine arabinoside on replicon initiation in human lymphoblasts

Cytosine arabinoside inhibited DNA synthesis in human lymphoblasts by inhibiting the initiation of DNA replication units. This effect was observed by a decrease in the incorporation of (³H) thymidine into low molecular weight DNA analyzed by velocity sedimentation in alkaline sucrose gradients. In contrast, there was no detectable effect on chain elongation and joining of those molecules that initiated replication before addition of the drug. These data indicate that cytosine arabinoside acts preferentially at the level of initiation of DNA replication rather than chain elongation.     

On the mechanism of premeiotic DNA synthesis in the yeast Saccharomyces cerevisiae

Premeiotic DNA synthesis in synchronously sporulating cultures of the yeast, Saccharomyces cerevisiae, was analysed by sedimentation in alkaline sucrose gradients and by DNA-fibre autoradiography. The gradient profiles of cells pulse-labelled for varying times were essentially identical with those obtained with mitotic cultures, revealing a close resemblance between the meiotic and mitotic replication mechanisms. This was supported by the finding that exposure of meiotic cells to a specific concentration of hydroxyurea led to the accumulation of completed, but unjoined replicons, just as it does in mitotic cells. The results of DNA-fibre autoradiography confirmed that replicons in meiotic cells are the same size (20–180 Kb, averaging around 90 Kb) as in mitotic cells, and assuming replication is bi-directional, replication forks must move at round the same rate as in mitosis, i.e. about 0.7 μm/min.     

Inhibition of initiation of HeLa cell replicons by methyl methanesulfonate.

Methyl methanesulfonate (MMS) in the culture medium inhibits the rate of DNA synthesis in HeLa cells in a dose-dependent manner. By using short (5 min) incubations with [3H]thymidine and analyzing the newly made DNA by velocity sedimentation on alkaline sucrose gradients, we found that the first affect of MMS on DNA replication, at 0.5 h after treatment, was inhibition of initiation of replicons. Recovery from this effect seemed to have begun by 2 3/4 h after treatment. The second effect of MMS, which was evident at 2 h after treatment, was to slow or block chain elongation.     

Overexpression of insulin-like growth factor (IGF)-I receptor enhances inhibition of DNA replication in mouse cells exposed to x-rays

Previous studies from our laboratory provided evidence for the operation of signal transduction pathways involving ras, myc, and staurosporine-sensitive protein kinases in the regulation of DNA replication in irradiated cells. Because ras and myc are also involved in the signal transduction elicited in response to ligand activation of growth factor receptors, we wondered whether growth factor receptors are upstream elements in the regulation of DNA replication in irradiated cells. Here, we report on the role of insulin-like growth factor I receptor (IGF-IR) in the regulation of DNA replication in irradiated cells. We compare radiation-induced inhibition of DNA replication in BALB/c 3T3 cells with that in P6 cells. P6 cells are derived from BALB/c 3T3 cells by transfection with a vector expressing IGF-IR, leading to 30-fold overexpression. We observe a significantly stronger inhibition of DNA replication after irradiation in P6 as compared with BALB/c 3T3 cells at all doses examined. Sedimentation in alkaline sucrose gradients shows that the increased inhibition in P6 cells is due to an increased inhibition of replicon initiation, the main controlling event in DNA replication. Staurosporine at 20 nM reduces radiation-induced inhibition of DNA replication in BALB/c 3T3 cells, but has only a small effect in P6 cells. Caffeine at a concentration of 1 mM, on the other hand, removes over 60% of the inhibition in both cell lines. The results implicate IGF-IR in the regulation of DNA replication in irradiated cells, but also suggest differences between cells of different origins in the proteins involved in the regulating signal transduction pathway.     

Evidence for contamination of origin DNA isolated after an in vivo treatment of mammalian cells with 4,5',8-trimethylpsoralen

We have studied the effect of in vivo treatment with trioxsalen on DNA replication in mammalian cells. In vitro cultured bovine liver cells were exposed to two or four cycles of treatment with 45 microM trioxsalen followed by irradiation with long-wave ultraviolet light. Thymidine incorporation was reduced by about 95% during the first hour after a double treatment. A large proportion of the label was released in alkaline sucrose gradients as a low molecular weight fraction (average length about 500 nucleotides) which was supposed to consist of replication origins containing DNA fragments. From the relative quantities of this DNA obtained at different times of the S phase we concluded that it contains a considerable but not precisely determinable proportion of non-origin DNA. We also find that the fraction is contaminated by a large excess of non-replicating bulk DNA.     

Gap filling and not replication fork progression is the rate-limiting step in the replication of UV-damaged simian virus 40 DNA.

We have analyzed the structural characteristics of simian virus 40 replicative intermediate DNA produced after UV irradiation and the kinetics of conversion of this intermediate DNA into form I DNA. Replicative intermediate DNA isolated at 30 or 60 min after UV irradiation consists primarily of two species of molecules that sediment in neutral sucrose gradients as either Cairns theta structures or relaxed monomeric circles. Replication forks on the Cairns intermediate DNA are symmetrically located with respect to the origin of replication, ruling out the possibility of asymmetric pauses or blocks to replication fork progression at damage sites. The relaxed circles contain at least one randomly located discontinuity in the daughter strand. Pulse-chase experiments demonstrated that a UV fluence-dependent fraction of the Cairns intermediate DNA progresses through the relaxed circular intermediate before being converted to completed form I molecules. Disappearance of Cairns intermediate DNA occurs at the same rate in irradiated and unirradiated cells, whereas completion of the relaxed circular intermediate DNA occurs at a slow rate, relatively independent of UV fluence. These data support a model for replication of UV-damaged DNA in which replication rapidly continues past damage sites via a gap formation event.     

The origin of nascent single-stranded DNA extracted from mammalian cells.

In vitro cultured bovine liver cells were labelled with radioactive thymidine and dissolved in 0.5% sodium dodecyl sulphate. Centrifugation of the lysate through sucrose gradients in a zonal rotor revealed a slowly sedimenting fraction of preferentially pulse labelled DNA. The DNA of this zone was further analysed by chromatography on hydroxy-apatite, banding in CsCl density gradients, and sedimentation in neutral and alkaline sucrose gradients. It contained besides small amounts of fragmented bulk DNA, single-stranded nascent DNA and single-stranded pre-labelled DNA which could be separated from each other by using BrdU as a density label. The density labelling also revealed small amounts of nascent-nascent DNA duplexes. The slowly sedimenting fraction was practically absent from cell lysates which were prepared in 2 M NaCl - 50 microgram/ml pronase. The results suggest that nascent single-strands and nascent-nascent duplexes are released from the forks of replicating DNA by branch migration. Pre-labelled single strands may be released by the same branch migration. Pre-labelled single strands may be released by the same mechanism, but the in vivo structure from which they originate has yet to be elucidated.