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1.
S E Celniker  J L Campbell 《Cell》1982,31(1):201-213
An enzyme system prepared from Saccharomyces cerevisiae carries out the replication of exogenous yeast plasmid DNA. Replication in vitro mimics that in vivo in that DNA synthesis in extracts of strain cdc8, a temperature-sensitive DNA replication mutant, is thermolabile relative to the wild-type, and in that aphidicolin inhibits replication in vitro. Furthermore, only plasmids containing a functional yeast replicator, ARS, initiate replication at a specific site in vitro. Analysis of replicative intermediates shows that plasmid YRp7, which contains the chromosomal replicator ARS1, initiates bidirectional replication in a 100 bp region within the sequence required for autonomous replication in vivo. Plasmids containing ARS2, another chromosomal replicator, and the ARS region of the endogenous yeast plasmid 2 microns circle give similar results, suggesting that ARS sequences are specific origins of chromosomal replication. Used in conjunction with deletion mapping, the in vitro system allows definition of the minimal sequences required for the initiation of replication.  相似文献   

2.
Transformation studies with Saccharomyces cerevisiae (bakers' yeast) have identified DNA sequences which permit extrachromosomal maintenance of recombinant DNA plasmids in transformed cells. It has been hypothesized that such sequences (called ARS for autonomously replicating sequence) serve as initiation sites for DNA replication in recombinant DNA plasmids and that they represent the normal sites for initiation of replication in yeast chromosomal DNA. We have constructed a novel plasmid called TRP1 R1 Circle which consists solely of 1,453 base pairs of yeast chromosomal DNA. TRP1 RI Circle contains both the TRP1 gene and a sequence called ARS1. This plasmid is found in 100 to 200 copies per cell and is relatively stable during both mitotic and meiotic cell cycles. Replication of TRP1 RI Circle requires the products of the same genes (CDC28, CDC4, CDC7, and CDC8) required for replication of chromosomaL DNA. Like chromosomal DNA, its replication does not occur in cells arrested in the B1 phase of the cell cycle by incubation with the yeast pheromone alpha-factor. In addition, TRP1 RI Circle DNA is organized into nucleosomes whose size and spacing are indistinguishable from that of bulk yeast chromatin. These results indicate that TRP1 RI Circle has the replicative and structural properties expected for an origin of replication from yeast chromosomal DNA. Thus, this plasmid is a suitable model for further studies of yeast DNA replication in both cells and cell-free extracts.  相似文献   

3.
The in vivo replication origin of the yeast 2 microns plasmid   总被引:102,自引:0,他引:102  
We have used two-dimensional neutral/alkaline agarose gel electrophoresis to separate the nascent strands of replicating yeast 2 micron plasmid DNA molecules according to extent of replication, away from nonreplicating molecules and parental strands. Analysis of the lengths of nascent strands by sequential hybridization with short probes shows that replication proceeds bidirectionally from a single origin at map position 3700 +/- 100, coincident with the genetically mapped ARS element. The two recombinational isomers of 2 microns plasmid (forms A and B) replicate with equal efficiency. These results suggest that ARS elements may prove to be replication origins for chromosomal DNA.  相似文献   

4.
Analysis of the Mechanism for Reversion of a Disrupted Gene   总被引:15,自引:0,他引:15       下载免费PDF全文
A positive selection system for intrachromosomal recombination in Saccharomyces cerevisiae has been developed. This was achieved by integration of a plasmid containing an internal fragment of the HIS3 gene into its chromosomal location. This resulted in two copies of the HIS3 gene one with a terminal deletion at the 3' end and the other with a terminal deletion at the 5' end. Reversion of the gene disruption could be brought about by plasmid excision, unequal sister chromatid exchange or sister chromatid conversion. The purpose of this study was to define the mechanisms involved in reversion of the gene disruption. The frequency of plasmid excision could be determined by placing a yeast sequence bearing an origin of replication onto the plasmid that was subsequently integrated into the yeast genome. Unequal sister chromatid exchange and conversion could be distinguished by determining the nature of the reciprocal product by Southern blotting. The results indicate that reversion might occur mainly by conversion between sister chromatids. This is because the frequency of plasmid excision was about two orders of magnitude lower than the overall frequency of reversion and no reciprocal product indicative of sister chromatid exchange was found. The findings of this presentation suggest that conversion might be an important mechanism for recombination of sister chromatids and possibly for repair of damaged DNA in S or G2.  相似文献   

5.
The cgtA gene codes for a common GTP-binding protein whose homologues were found in all prokaryotic and eukaryotic organisms investigated so far. Although cgtA is an essential gene in most bacterial species, its precise functions in the regulation of cellular processes are largely unknown. In Escherichia coli, dysfunction or overexpression of the cgtA gene causes problems in various chromosomal functions, like synchronization of DNA replication initiation and partitioning of daughter chromosomes after a replication round. It is not know how the cgtA gene product regulates these processes. Here we investigated effects of cgtA dysfunction on replication of plasmid and phage replicons. We found that replication of some plasmids (e.g., ColE1-like) is not affected in the cgtA mutant. On the other hand, dysfunction of the cgtA gene caused a strong inhibition of lambda plasmid DNA replication. Bacteriophage lambda development was severely impaired in the cgtA mutant. Replication of other plasmid replicons (derivatives of F, R1, R6K, and RK2) was influenced by the cgtA mutation moderately. It seems that DNA synthesis per se is not affected by CgtA, and that this protein might control replication initiation indirectly, by regulation of function(s) or production of one or more replication factors. In fact, we found that level of the host-encoded replication protein DnaA is significantly decreased in the cgtA mutant. This indicates that CgtA is involved in the regulation of dnaA gene expression.  相似文献   

6.
Cell-free extracts of Xenopus eggs will replicate plasmid DNA molecules under normal cell cycle control. We have used the neutral/neutral 2-D gel technique to map the sites at which DNA replication initiates in this system. Three different plasmids were studied: one containing the Xenopus rDNA repeat, one containing single copy Xenopus genomic DNA, and another containing the yeast 2 microns replication origin. 2-D gel profiles show that many potential sites of initiation are present on each plasmid, and are randomly situated at the level of resolution of this technique (500-1000 bp). Despite the abundance of sites capable of supporting the initiation of replication, pulse-chase experiments suggest that only a single randomly situated initiation event occurs on each DNA molecule. Once initiation has taken place, conventional replication forks appear to move away from this site at a rate of about 10nt/second, similar to the rate observed in vivo.  相似文献   

7.
Two-dimensional (2D) agarose gel electrophoresis is progressively replacing electron microscopy as the technique of choice to map the initiation and termination sites for DNA replication. Two different versions were originally developed to analyze the replication of the yeast 2 microns plasmid. Neutral/Neutral (N/N) 2D agarose gel electrophoresis has subsequently been used to study the replication of other eukaryotic plasmids, viruses and chromosomal DNAs. In some cases, however, the results do not conform to the expected 2D gel patterns. In order to better understand this technique, we employed it to study the replication of the colE1-like plasmid, pBR322. This was the first time replicative intermediates from a unidirectionally replicated plasmid have been analyzed by means of N/N 2D agarose gel electrophoresis. The patterns obtained were significantly different from those obtained in the case of bidirectional replication. We showed that identification of a complete are corresponding to molecules containing an internal bubble is not sufficient to distinguish a symmetrically located bidirectional origin from an asymmetrically located unidirectional origin. We also showed that unidirectionally replicated fragments containing a stalled fork can produce a pattern with an inflection point. Finally, replication appeared to initiate at only some of the potential origins in each multimer of pBR322 DNA.  相似文献   

8.
We have developed an effective method to delete or invert a chromosomal segment and to create reciprocal recombination between two nonhomologous chromosomes in Saccharomyces cerevisiae, using the site-specific recombination system of pSR1, a circular cryptic DNA plasmid resembling 2 microns DNA of S. cerevisiae but originating from another yeast, Zygosaccharomyces rouxii. A 2.1-kilobase-pair DNA fragment bearing the specific recombination site on the inverted repeats of pSR1 was inserted at target sites on a single or two different chromosomes of S. cerevisiae by using integrative vectors. The cells were then transformed with a plasmid bearing the R gene of pSR1, which encodes the site-specific recombination enzyme and is placed downstream of the GAL1 promoter. When the transformants were cultivated in galactose medium, the recombination enzyme produced by expression of the R gene created the modified chromosome(s) by recombination between two specific recombination sites inserted on the chromosome(s).  相似文献   

9.
J R Broach  J N Strathern  J B Hicks 《Gene》1979,8(1):121-133
We have constructed a plasmid, YEp13, which when used in conjunction with transformation in yeast is a suitable vector for isolating specific yeast genes. The plasmid consists of pBR322, the LEU2 gene of yeast, and a DNA fragment containing a yeast origin of replication from 2 mu circule. We have demonstrated the utility of this cloning system by isolating the yeast gene encoding the arginine permease, CAN1, from a pool of random yeast DNA fragments inserted into YEp13.  相似文献   

10.
The gene responsible for the malolactic fermentation of wine was cloned from the bacterium Lactobacillus delbrueckii into Escherichia coli and the yeast Saccharomyces cerevisiae. This gene codes for the malolactic enzyme which catalyzes the conversion of l-malate to l-lactate. A genetically engineered yeast strain with this enzymatic capability would be of considerable value to winemakers. L. delbrueckii DNA was cloned in E. coli on the plasmid pBR322, and two E. coll clones able to convert l-malate to l-lactate were selected. Both clones contained the same 5-kilobase segment of L. delbrueckii DNA. The DNA segment was transferred to E. coli-yeast shuttle vectors, and gene expression was analyzed in both hosts by using enzymatic assays for l-lactate and l-malate. When grown nonaerobically for 5 days, E. coli cells harboring the malolactic gene converted about 10% of the l-malate in the medium to l-lactate. The best expression in S. cerevisiae was attained by transfer of the gene to a shuttle vector containing both a yeast 2-mum plasmid and yeast chromosomal origin of DNA replication. When yeast cells harboring this plasmid were grown nonaerobically for 5 days, ca. 1.0% of the l-malate present in the medium was converted to l-lactate. The L. delbrueckii controls grown under these same conditions converted about 25%. A laboratory yeast strain containing the cloned malolactic gene was used to make wine in a trial fermentation, and about 1.5% of the l-malate in the grape must was converted to l-lactate. Increased expression of the malolactic gene in wine yeast will be required for its use in winemaking. This will require an increased understanding of the factors governing the expression of this gene in yeasts.  相似文献   

11.
Replicator dominance in a eukaryotic chromosome.   总被引:20,自引:3,他引:17       下载免费PDF全文
Replicators are genetic elements that control initiation at an origin of DNA replication (ori). They were first identified in the yeast Saccharomyces cerevisiae as autonomously replicating sequences (ARSs) that confer on a plasmid the ability to replicate in the S phase of the cell cycle. The DNA sequences required for ARS function on a plasmid have been defined, but because many sequences that participate in ARS activity are not components of chromosomal replicators, a mutational analysis of the ARS1 replicator located on chromosome IV of S. cerevisiae was performed. The results of this analysis indicate that four DNA elements (A, B1, B2 and B3) are either essential or important for ori activation in the chromosome. In a yeast strain containing two closely spaced and identical copies of the ARS1 replicator in the chromosome, only one is active. The mechanism of replicator repression requires the essential A element of the active replicator. This element is the binding site for the origin recognition complex (ORC), a putative initiator protein. The process that determines which replicator is used, however, depends entirely upon flanking DNA sequences.  相似文献   

12.
The DNA2 gene of Saccharomyces cerevisiae is essential for growth and appears to be required for a late stage of chromosomal DNA replication. S. cerevisiae Dna2p (ScDna2p) is a DNA helicase and also a nuclease. We have cloned and sequenced the homologous gene from Xenopus (Xenopus Dna2). Xenopus Dna2p (XDna2p) is 32% identical to ScDna2p, and the similarity extends over the entire length, including but not limited to the five conserved helicase motifs. XDna2p is even more closely related (60% identical) to a partial human cDNA. The Xenopus Dna2 (XDna2) gene was able to complement an S. cerevisiae dna2-1 mutant strain for growth at the nonpermissive temperature, suggesting that XDna2p is a functional as well as a structural homolog of the yeast protein. Recombinant XDna2p was expressed in insect cells and purified. Like the ScDna2p purified from yeast, it is a single-stranded DNA endonuclease and a DNA-dependent ATPase, suggesting that both of these activities are part of the essential function of Dna2p. However, unlike ScDna2p from yeast, recombinant XDna2p showed no DNA helicase activity. When XDna2 was immunodepleted from interphase egg extracts, chromosomal DNA replication was almost completely inhibited. From the size of the residually synthesized DNA from the XDna2-depleted egg extracts, it seems that initiation of DNA replication may be impaired. This interpretation is also supported by the normal DNA replication of M13 single-stranded DNA in the XDna2-depleted egg extracts.  相似文献   

13.
Fragments of chromosomal DNA from a variety of eucaryotes can act as ARSs (autonomously replicating sequence) in yeasts. ARSs enable plasmids to be maintained in extrachromosomal form, presumably because they function as initiation sites for DNA replication. We isolated eight different sequences from mouse chromosomal DNA which function as ARSs in Saccharomyces cerevisiae (bakers' yeast). Although the replication efficiency of the different mouse ARSs in yeasts appears to vary widely, about one-half of them functions as well as the yeast chromosomal sequence ARS1. Moreover, five of the ARSs also promote self replication of plasmids in Schizosaccharomyces pombe (fission yeast). Each of the ARSs was cloned into plasmids suitable for transformation of mouse tissue culture cells. Plasmids were introduced into thymidine kinase (TK)-deficient mouse L cells by the calcium phosphate precipitation technique in the absence of carrier DNA. In some experiments, the ARS plasmid contained the herpes simplex virus type 1 TK gene; in other experiments (cotransformations), the TK gene was carried on a separate plasmid used in the same transformation. In contrast to their behavior in yeasts, none of the ARS plasmids displayed a significant increase in transformation frequency in mouse cells compared with control plasmids. Moreover, only 1 of over 100 cell lines contained the original plasmid in extrachromosomal form. The majority of cell lines produced by transformation with an ARS TK plasmid contained multiple copies of plasmid integrated into chromosomal DNA. In most cases, results with plasmids used in cotransformations were similar to those for plasmids carrying TK. However, cell lines produced by cotransformations with plasmids containing any one of three of the ARSs (m24, m25, or m26) often contained extrachromosomal DNAs.  相似文献   

14.
FLP-mediated recombination in the vector mosquito, Aedes aegypti.   总被引:5,自引:2,他引:3       下载免费PDF全文
The activity of a yeast recombinase, FLP, on specific target DNA sequences, FRT, has been demonstrated in embryos of the vector mosquito, Aedes aegypti. In a series of experiments, plasmids containing the FLP recombinase under control of a heterologous heat-shock gene promoter were co-injected with target plasmids containing FRT sites into preblastoderm stage mosquito embryos. FLP-mediated recombination was detected between (i) tandem repeats of FRT sites leading to the excision of specific DNA sequences and (ii) FRT sites located on separate plasmids resulting in the formation of heterodimeric or higher order multimeric plasmids. In addition to FRT sites originally isolated from the yeast 2 microns plasmid, a number of synthetic FRT sites were also used. The synthetic sites were fully functional as target sites for recombination and gave results similar to those derived from the yeast 2 microns plasmid. This successful demonstration of yeast FLP recombinase activity in the mosquito embryo suggests a possible future application of this system in establishing transformed lines of mosquitoes for use in vector control strategies and basic studies.  相似文献   

15.
16.
Summary When spores of a thymine-requiring mutant of Bacillus subtilis were germinated in a medium lacking thymine, an initiation potential (an ability to initiate and complete one round of replication in the presence of thymine and in the absence of protein and RNA synthesis) was formed for both chromosomal and plasmid replication. The effect of two inhibitors of DNA gyrase, novobiocin (Nov) and nalidixic acid (Nal), on the initiation potential formed during germination for chromosomal and plasmid replication was examined.Nov and Nal inhibited formation of the initiation potential completely if the drug was added at the onset of germination. In contrast, initiation of chromosomal and plasmid replication occurred in the presence of DNA gyrase inhibitors when the drug was added after the initiation potential had been fully formed. However, chromosomal replication initiated in the presence of the inhibitors ceased after a fragment of approximately 15 MD (15×106 daltons) had been replicated, and plasmid replication was limited to one round of replication in approximately half of the plasmid molecules present in the spores.Furthermore the initiation potential for both chromosomal and plasmid replication though established was destroyed gradually but steadily by prolonged incubation with Nov in the absence of thymine. In addition, relaxation of the superhelical structure of plasmid DNA during incubation with Nov was observed in vivo. This relaxation was blocked by ethidium bromide, which dissociated the S-complex. On the other hand, incubation with Nal did not reduce the initiation potential nor did it change the superhelicity of the plasmid DNA in vivo. This is consistent with the known effect of gyrase inhibitors on the enzymatic activity of DNA gyrase.These results clearly demonstrate that both the action of DNA gyrase and the superhelical structure of the DNA are essential for the initiation of chromosomal and plasmid replication. The specific chromosome organization essential for initiation and elongation and the role of DNA gyrase are discussed.IV of this series is Yoshikawa et al. 1980  相似文献   

17.
In order to understand the mechanisms leading to the complete duplication of linear eukaryotic chromosomes, the temporal order of the events involved in replication of a 7.5-kb Saccharomyces cerevisiae linear plasmid called YLpFAT10 was determined. Two-dimensional agarose gel electrophoresis was used to map the position of the replication origin and the direction of replication fork movement through the plasmid. Replication began near the center of YLpFAT10 at the site in the 2 microns sequences that corresponds to the 2 microns origin of DNA replication. Replication forks proceeded bidirectionally from the origin to the ends of YLpFAT10. Thus, yeast telomeres do not themselves act as origins of DNA replication. The time of origin utilization on YLpFAT10 and on circular 2 microns DNA in the same cells was determined both by two-dimensional gel electrophoresis and by density transfer experiments. As expected, 2 microns DNA replicated in early S phase. However, replication of YLpFAT10 occurred in late S phase. Thus, the time of activation of the 2 microns origin depended upon its physical context. Density transfer experiments established that the acquisition of telomeric TG1-3 single-strand tails, a predicted intermediate in telomere replication, occurred immediately after the replication forks approached the ends of YLpFAT10. Thus, telomere replication may be the very last step in S phase.  相似文献   

18.
We have isolated host mutants of Saccharomyces cerevisiae in which the 2 microns plasmid is poorly maintained. All the mutants tested constituted one complementation group, which was designated map1 (maintenance of plasmid). Minichromosomes carrying a chromosomal replication origin and a centromere were affected in the mutants. Two types of hybrid plasmids generated in vivo and in vitro appeared to compensate for the mutations and had DNA regions containing multiple ARS (autonomously replicating sequence) or a set of 2 microns inverted repeat sequences. These results suggested that poor maintenance of plasmids was due to low levels of replication, probably at the initiation of replication.  相似文献   

19.
I V Fedorova  T N Kozhina 《Genetika》1987,23(9):1564-1573
The method of repeated irradiation has been used to study excision of 8-MOP monoadducts from plasmid and chromosomal DNA in cells of wild type and rad2 mutant of Saccharomyces cerevisiae. The measurement of kinetics of monoadduct removal from chromosomal DNA in intact and competent yeast cells showed that monoadducts were excised in both types of cells with normal repair, but this process was blocked in intact and competent cells of the rad2 mutant. The survival of pYF91 plasmid treated in vitro with 8-MOP plus near UV-light has been studied in the cells of the wild type and in incision-defective rad2 mutant by the measurement of cell transformation frequency. Episomic pYF91 plasmid used in these experiments contained the yeast nuclear LEU2 gene, a portion of 2 mkm DNA and DNA of bacterial plasmid pBR322 with resistance to ampicillin. The pYF91 plasmid was treated with 8-MOP plus near UV-light in vitro, then unbound 8-MOP was removed by dialysis. This DNA was used for transformation. The transformed yeast cells were irradiated repeatedly. The quantitative alteration of the yield of transformants, depending on the time of keeping these yeast cells in complete liquid medium at 30 degrees C, prior to repeated irradiation, allowed to measure the kinetics of monoadduct excision from plasmid DNA. It was shown that monoadducts were removed equally effectively from plasmid DNA introduced into cells of the wild type and rad2 mutant. Possibly, the repair system of both these strains provides excision of monoadducts from plasmid DNA, but this process is blocked in the rad2 mutant, relatively to monoadduct excision from chromosomal DNA.  相似文献   

20.
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