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1.
Crude extracts of Xenopus eggs are capable of nuclear assembly around chromatin templates or even around protein-free, naked DNA templates. Here the requirements for nuclear assembly around a naked DNA template were investigated. Extracts were separated by ultracentrifugation into cytosol, membrane, and gelatinous pellet fractions. It was found that, in addition to the cytosolic and membrane fractions, a component of the gelatinous pellet fraction was required for the assembly of functional nuclei around a naked DNA template. In the absence of this component, membrane-bound but functionally inert spheres of lambda DNA were formed. Purification of the active pellet factor unexpectedly demonstrated the component to be glycogen. The assembly of functionally active nuclei, as assayed by DNA replication and nuclear transport, required that glycogen be pre-incubated with the lambda DNA and cytosol during the period of chromatin and higher order intermediate formation, before the addition of membranes. Hydrolysis of glycogen with alpha- amylase in the extract blocked nuclear formation. Upon analysis, chromatin formed in the presence of cytosol and glycogen alone appeared highly condensed, reminiscent of the nuclear assembly intermediate described by Newport in crude extracts (Newport, J. 1987. Cell. 48:205- 217). In contrast, chromatin formed from phage lambda DNA in cytosol lacking glycogen formed "fluffy chromatin-like" structures. Using sucrose gradient centrifugation, the highly condensed intermediates formed in the presence of glycogen could be isolated and were now able to serve as nuclear assembly templates in extracts lacking glycogen, arguing that the requirement for glycogen is temporally restricted to the time of intermediate formation and function. Glycogen does not act simply by inducing condensation of the chromatin, since similarly isolated mitotically condensed chromatin intermediates do not form functional nuclei. However, both mitotic and fluffy interphase chromatin intermediates formed in the absence of glycogen can be rescued to form functional nuclei when added to a second extract which contains glycogen. This study presents a novel role for a carbohydrate in nuclear assembly, a role which involves the formation of a particular chromatin intermediate. Potential models for the role of glycogen are discussed.  相似文献   

2.
Quiescent cells from adult vertebrate liver and contact-inhibited or serum-deprived tissue cultures are active metabolically but do not carry out nuclear DNA replication and cell division. Replication of intact nuclei isolated from either quiescent Xenopus liver or cultured Xenopus A6 cells in quiescence was barely detectable in interphase extracts of Xenopus laevis eggs, although Xenopus sperm chromatin was replicated with approximately 100% efficiency in the same extracts. Permeabilization of nuclei from quiescent Xenopus liver or cultured Xenopus epithelial A6 cells did not facilitate efficient replication in egg extracts. Moreover, replication of Xenopus sperm chromatin in egg extracts was strongly inhibited by a soluble extract of isolated Xenopus liver nuclei; in contrast, complementary-strand synthesis on single-stranded DNA templates in egg extracts was not affected. Inhibition was specific to endogenous molecules localized preferentially in quiescent as opposed to proliferating cell nuclei, and was not due to suppression of cdk2 kinase activity. Extracts of Xenopus liver nuclei also inhibited growth of sperm nuclei formed in egg extracts. However, the rate and extent of decondensation of sperm chromatin in egg extracts were not affected. The formation of prereplication centers detected by anti-RP-A antibody was not affected by extracts of liver nuclei, but formation of active replication foci was blocked by the same extracts. Inhibition of DNA replication was alleviated when liver nuclear extracts were added to metaphase egg extracts before or immediately after Ca++ ion-induced transition to interphase. A plausible interpretation of our data is that endogenous inhibitors of DNA replication play an important role in establishing and maintaining a quiescent state in Xenopus cells, both in vivo and in cultured cells, perhaps by negatively regulating positive modulators of the replication machinery.  相似文献   

3.
J A Knezetic  D S Luse 《Cell》1986,45(1):95-104
RNA was synthesized in vitro using HeLa cell nuclear extracts and circular DNA templates onto which varying numbers of nucleosomes had been reconstituted with Xenopus oocyte extracts. We found that fully reconstituted templates supported no specific initiation by RNA polymerase II; however, DNA exposed to the reconstitution extracts under conditions which did not allow nucleosome deposition was transcribed normally. A set of successively less reconstituted templates was also transcribed. No initiation occurred on reconstitutes with more than two-thirds of the physiological nucleosome density; reconstitutes with less than one-third of the physiological nucleosome density were transcribed as efficiently as naked DNA.  相似文献   

4.
Assays have been described in which duplex adeno-associated virus (AAV) DNA can be replicated in HeLa cell extracts with exogenous AAV Rep protein. These assays appear to mimic the AAV DNA replication that occurs in the cell, including the ability of extracts from adenovirus (Ad)-infected cells to replicate duplex AAV DNA templates more efficiently than extracts from uninfected cells can. We showed previously that the Ad-infected extract was able to support a more processive replication than the uninfected extract. When the Ad single-stranded DNA binding protein (Ad-DBP) was added to an uninfected extract, DNA replication became processive. Based on a strand displacement replication model, we hypothesized that the Ad-DBP was stabilizing the displaced single-stranded DNA during strand displacement replication. In this report, we show that in Ad-infected extracts most of the newly replicated duplex DNA is converted into a single-stranded form shortly after synthesis. Using the results of assays for the replication of single-stranded AAV DNA, we show that these single-stranded molecules serve as templates for additional replication. In addition, we identify a class of molecules which are likely to be intermediates of replication on single-stranded templates. We discuss a possible role for replication of single-stranded molecules in the infected cell.  相似文献   

5.
An SV40-based in vitro replication system has been used to examine the effects of platinum compounds on eukaryotic DNA replication. Plasmid templates containing the SV40 origin of replication were modified with the anticancer drug cis-diamminedichloroplatinum(II) (cis-DDP, cisplatin) or the inactive analogues [Pt(dien)Cl]+ and trans-DDP. The platinated plasmids were used as templates for DNA synthesis by the DNA polymerases present in cytosolic extracts prepared from human cell lines HeLa and 293. Bifunctional adducts formed by cis- and trans-DDP inhibited DNA replication by 95% at a bound drug to nucleotide ratio [(D/N)b] of less than 9 x 10(-4), in contrast to the monofunctional [Pt(dien)Cl]+ analogues, which required a (D/N)b of 3.4 x 10(-3) for 62% inhibition of DNA replication. An average of two platinum adducts per genome was sufficient for inhibition of DNA replication by cisplatin. When trans-DDP-modified, but not cis-DDP-modified, SV40 origin containing plasmids [(D/N)b = 1.7 x 10(-3)] were allowed to incubate in the 293 cytosolic extracts for 1 h prior to addition of T-antigen to initiate replication, DNA synthesis was restored to 30% of control. This result suggested the presence of an activity in the extracts that reactivates trans-DDP-modified DNA templates for replication. This hypothesis was confirmed by an in vitro nucleotide excision repair assay that revealed activity in 293 and HeLa cell extracts selective for trans-DDP-modified plasmid DNAs. Such selective repair of trans-DDP-damaged DNA in human cells would contribute to its lack of antitumor activity.  相似文献   

6.
We recently described a soluble cell-free system derived from monkey cells that is capable of replicating exogenous plasmid DNA molecules containing the simian virus 40 (SV40) origin of replication (J.J. Li, and T.J. Kelly, Proc. Natl. Acad. Sci. U.S.A. 81:6973-6977, 1984). Replication in the system is completely dependent upon the addition of the SV40 large T antigen. In this report we describe additional properties of the in vitro replication reaction. Extracts prepared from cells of several nonsimian species were tested for the ability to support origin-dependent replication in the presence of T antigen. The activities of extracts derived from human cell lines HeLa and 293 were approximately the same as those of monkey cell extracts. Chinese hamster ovary cell extracts also supported SV40 DNA replication in vitro, but the extent of replication was approximately 1% of that observed with human or monkey cell extracts. No replication activity was detectable in extracts derived from BALB/3T3 mouse cells. The ability of these extracts to support replication in vitro closely parallels the ability of the same cells to support replication in vivo. We also examined the ability of various DNA molecules containing sequences homologous to the SV40 origin to serve as templates in the cell-free system. Plasmids containing the origins of human papovaviruses BKV and JCV replicated with an efficiency 10 to 20% of that of plasmids containing the SV40 origin. Plasmids containing Alu repeat sequences (BLUR8) did not support detectable DNA replication in vitro. Circular DNA molecules were found to be the best templates for DNA replication in the cell-free system; however, linear DNA molecules containing the SV40 origin also replicated to a significant extent (10 to 20% of circular molecules). Finally, electron microscopy of replication intermediates demonstrated that the initiation of DNA synthesis in vivo takes place at a unique site corresponding to the in vivo origin and that replication is bidirectional. These findings provide further evidence that replication in the cell-free system faithfully mimics SV40 DNA replication in vivo.  相似文献   

7.
We have investigated conditions in vitro for the analysis of replication of ultraviolet-irradiated ColE1 DNA in cell extracts from Escherichia coli. In wild-type extracts substantial replication was obtained; however, this could be greatly reduced when the irradiated plasmid was incubated in extracts prepared from a uvrA recB strain. Modest stimulation of DNA replication was then obtained by addition of extracts from the same strain previously ultraviolet-irradiated. However, this stimulating activity proved to be highly unstable and has so far proved unsuitable as a basis for purification of specific factors involved in replication on irradiated templates. We also investigated the mutagenesis of pBR325 DNA replicated in cell extracts from a strain expressing the SOS response constitutively. Conditions for efficient recovery and transformation by plasmid DNA replicated in vitro were determined and, using this system, a more than 10-fold increase in reversion frequency of a mutation in the tet gene, compared to that with wild-type extracts, was obtained. This mutagenesis appeared to be independent of replication, indicating the presence of an error-prone repair system in the extract. This effect was not enhanced by the presence of the muc gene products in the extracts. This suggests that the observed mutagenesis is also independent of the lexA-controlled umuCD genes.  相似文献   

8.
We have used an in vitro assay to study the induction of DNA synthesis by cytoplasmic extracts from the actively growing cell line Molt 4 in nuclei isolated from quiescent human lymphocytes. The TTP incorporation which takes place in these nuclei has been shown to be inhibitable by serine protease inhibitors, particularly aprotinin. This DNA synthesis has also been proposed to reflect the initiation of true DNA replication; however, we find evidence that much, if not most, of this incorporation is due to nonreplicative synthesis initiated on primer templates formed by calcium-dependent activation of the nuclear chromatin substrate. The principal DNA polymerase supplied by the Molt 4 extract appears to be polymerase alpha and the results show that the activated chromatin is a substrate for purified bacterial DNA polymerases. DNA synthesis is significantly enhanced by preincubation at 37 degrees C in the presence of calcium, and the almost complete inhibition of DNA synthesis induced by extracts or bacterial polymerases in the presence of T4 ligase suggests that this chromatin activation involves calcium-dependent endonucleases. Nevertheless, DNA synthesis in the isolated nuclei, with both Molt 4 extracts and bacterial polymerases, is substantially inhibited by addition of serine protease inhibitors, with aprotinin the most potent of those tested on a molar basis. Thus, the results suggest that specific proteolytic activity is required before nicked or damaged nuclear DNA can serve as an acceptable substrate for DNA polymerase activity.  相似文献   

9.
10.
Ecteinascidin 743 (Et743) is a highly cytotoxic anticancer agent isolated from the squirt Ecteinascidia turbinate, which alkylates DNA in the minor groove at GC-rich sequences resulting in an unusual bending toward the major groove. The ability of Et743 to block DNA replication was studied using the well-established simian virus (SV40) model for mammalian DNA replication in cells and cell-free extracts. Intracellular SV40 DNA isolated from Et743-treated BSC-1 cells was analyzed by native, two-dimensional agarose gel electrophoresis. A low frequency of Et743 adducts detected at 30-100 nM drug concentrations inhibited SV40 origin activity and induced formation of unusual DNA replication intermediates. Under cell-free conditions, only a high Et743 adduct frequency reduced SV40 DNA synthesis. Comparative studies involving related DNA alkylators, tomamycin and saframycin A, revealed inhibition of SV40 DNA replication in cells at concentrations approximately 10 times higher than Et743. Under cell-free conditions tomamycin- or saframycin-A-adducted DNA templates inhibited DNA synthesis similarly to Et743. Et743 appears to be unusual among other alkylators, because its adducts strongly inhibit intracellular SV40 DNA replication but are relatively weak as cis inhibitors as measured under cell-free conditions.  相似文献   

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