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1.
Replication of plasmids in gram-negative bacteria.   总被引:29,自引:1,他引:28       下载免费PDF全文
Replication of plasmid deoxyribonucleic acid (DNA) is dependent on three stages: initiation, elongation, and termination. The first stage, initiation, depends on plasmid-encoded properties such as the replication origin and, in most cases, the replication initiation protein (Rep protein). In recent years the understanding of initiation and regulation of plasmid replication in Escherichia coli has increased considerably, but it is only for the ColE1-type plasmids that significant biochemical data about the initial priming reaction of DNA synthesis exist. Detailed models have been developed for the initiation and regulation of ColE1 replication. For other plasmids, such as pSC101, some hypotheses for priming mechanisms and replication initiation are presented. These hypotheses are based on experimental evidence and speculative comparisons with other systems, e.g., the chromosomal origin of E. coli. In most cases, knowledge concerning plasmid replication is limited to regulation mechanisms. These mechanisms coordinate plasmid replication to the host cell cycle, and they also seem to determine the host range of a plasmid. Most plasmids studied exhibit a narrow host range, limited to E. coli and related bacteria. In contrast, some others, such as the IncP plasmid RK2 and the IncQ plasmid RSF1010, are able to replicate in nearly all gram-negative bacteria. This broad host range may depend on the correct expression of the essential rep genes, which may be mediated by a complex regulatory mechanism (RK2) or by the use of different promoters (RSF1010). Alternatively or additionally, owing to the structure of their origin and/or to different forms of their replication initiation proteins, broad-host-range plasmids may adapt better to the host enzymes that participate in initiation. Furthermore, a broad host range can result when replication initiation is independent of host proteins, as is found in the priming reaction of RSF1010.  相似文献   

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C. -S. Chiang  H. Bremer 《Plasmid》1991,26(3):186-200
pBR322-derived plasmids that lack the bla gene and 40% of the gene for the replication inhibitor, RNAI, have been constructed. Since the RNAI gene totally overlaps with the gene for the replication primer, RNAII, this primer is similarly defective and also lacks its normal promoter. The primer is presumed to by synthesized either from the counter-tet promoter (plasmid pCL59) or from an inserted lacUV5 promoter (plasmid pCL59-65). Based mainly on the observation that the plasmid Rom protein, which normally assists in the RNAI/RNAII interaction, has no effect on the replication of the RNAI/RNAII-defective plasmids, we suggest that the defective RNAI is not functional while the defective RNAII primer, although less efficient, still allows plasmid replication. The defective plasmids are fully compatible with the intact parent plasmid, indicating that they do not share a common control of replication. In the absence of antibiotics, the bacteria lose the defective plasmid, beginning after 80 generations; under the same conditions, the parent plasmid is retained even after 140 generations. During exponential growth of their host, the number of defective plasmids in a culture increases exponentially with a doubling time either smaller or greater than that of the host cell growth, depending on the growth medium and, in the case of pCL59-65, on the presence or absence of lac inducer IPTG. As a result of these differences in host cell growth and plasmid replication, the plasmids are either gradually diluted out or their copy number continually increases. This shows that, without RNAI, plasmid replication is uncoupled from the host cell growth and not, as usual, adjusted to it. It also implies that the RNAI mechanism is the only means of replication control for ColE1-type plasmids that senses and adjusts the copy number; limiting host factors cannot provide a back-up control to stabilize copy numbers.  相似文献   

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Mini-P1 plasmid replication: the autoregulation-sequestration paradox   总被引:31,自引:0,他引:31  
D K Chattoraj  R J Mason  S H Wickner 《Cell》1988,52(4):551-557
It has been proposed that the initiator protein RepA is rate limiting for mini-P1 plasmid replication, and that the role of the plasmid copy number control locus is to sequester the initiator and thus reduce replication. This proposal appears inconsistent with the observation that RepA is autoregulated, since the protein lost by sequestration should be replenished. A resolution of this autoregulation-sequestration paradox is possible if the sequestered RepA, unavailable for replication, is still available for promoter repression. We demonstrate that RepA binds to the control locus and to the promoter region simultaneously, causing the intervening DNA to loop. DNA looping could provide the requisite mechanism by which RepA bound to the control locus might exert repression.  相似文献   

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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   

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Replication and Control of Circular Bacterial Plasmids   总被引:26,自引:0,他引:26       下载免费PDF全文
An essential feature of bacterial plasmids is their ability to replicate as autonomous genetic elements in a controlled way within the host. Therefore, they can be used to explore the mechanisms involved in DNA replication and to analyze the different strategies that couple DNA replication to other critical events in the cell cycle. In this review, we focus on replication and its control in circular plasmids. Plasmid replication can be conveniently divided into three stages: initiation, elongation, and termination. The inability of DNA polymerases to initiate de novo replication makes necessary the independent generation of a primer. This is solved, in circular plasmids, by two main strategies: (i) opening of the strands followed by RNA priming (theta and strand displacement replication) or (ii) cleavage of one of the DNA strands to generate a 3′-OH end (rolling-circle replication). Initiation is catalyzed most frequently by one or a few plasmid-encoded initiation proteins that recognize plasmid-specific DNA sequences and determine the point from which replication starts (the origin of replication). In some cases, these proteins also participate directly in the generation of the primer. These initiators can also play the role of pilot proteins that guide the assembly of the host replisome at the plasmid origin. Elongation of plasmid replication is carried out basically by DNA polymerase III holoenzyme (and, in some cases, by DNA polymerase I at an early stage), with the participation of other host proteins that form the replisome. Termination of replication has specific requirements and implications for reinitiation, studies of which have started. The initiation stage plays an additional role: it is the stage at which mechanisms controlling replication operate. The objective of this control is to maintain a fixed concentration of plasmid molecules in a growing bacterial population (duplication of the plasmid pool paced with duplication of the bacterial population). The molecules involved directly in this control can be (i) RNA (antisense RNA), (ii) DNA sequences (iterons), or (iii) antisense RNA and proteins acting in concert. The control elements maintain an average frequency of one plasmid replication per plasmid copy per cell cycle and can “sense” and correct deviations from this average. Most of the current knowledge on plasmid replication and its control is based on the results of analyses performed with pure cultures under steady-state growth conditions. This knowledge sets important parameters needed to understand the maintenance of these genetic elements in mixed populations and under environmental conditions.  相似文献   

11.
High-copy plasmids are useful for producing large quantities of plasmid DNA, but are generally inadequate for tightly regulating gene expression. Attempts to suppress expression of genes on high-copy plasmids often results in residual or “leaky” production of protein. For stringent regulation of gene expression, it is often necessary to excise the gene of interest and subclone it into a low-copy plasmid. Here, we report a dual plasmid technique that enables tight regulation of gene expression driven by the lac promoter in a high-copy vector. A series of plasmids with varying copies of the lacIq gene have been constructed to permit titration of the LacI protein. When a high-copy plasmid is transformed along with the appropriate lacIq-containing plasmid, tight gene regulation is achieved, thus eliminating the need to subclone genes into low-copy plasmids. In addition, we show that this dual plasmid technique enables high-copy gene expression of a protein lethal to Escherichia coli, the ccdB protein. In principle, this technique can be applied to any high-copy plasmid containing the popular pUC replication of origin and provides an easier means of obtaining rigid control over gene expression.  相似文献   

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We constructed a system in which wild-type RepA or RepAcop1 protein was supplied in trans in various amounts to coexisting mini-Rts1 plasmids by clones of the repA or repAcop1 gene under the control of the native promoter with or without its operator sequence. RepAcop1 protein which contains a single amino acid substitution (Arg-142 to Lys) within its 288 amino acids could initiate the replication of the mini-Rts1 plasmid efficiently at both 37 and 42 degrees C even if it was supplied in excess. In contrast, excess wild-type RepA inhibited plasmid replication at 37 degrees C but supported replication at 42 degrees C. Therefore, it appears that the initiator activity of RepA is not related to the incompatibility phenotype associated with an excess of RepA protein. An immunoblot analysis revealed that neither RepA nor RepAcop1 synthesis was temperature sensitive and that both were autogenously regulated to a similar extent because of the presence of an operator located immediately upstream of the promoter. Two mutant RepA proteins, each of which contains a 4-amino-acid insertion in the middle of the protein, maintained the autorepressor and incompatibility activities but lost the ori(Rts1)-activating function.  相似文献   

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An expression plasmid in which plasmid DNA replication and heterologous gene expression can be simultaneously regulated was constructed to avoid derepression prior to induction. This was achieved by placing a pBR322 origin of replication immediately downstream of an anthranilate synthase-human epidermal growth factor fusion gene (trpE-hEGF), both under the control of the promoter from the tryptophan biosynthetic operon. Regulation of plasmid copy number ensured tight repression of the trp promoter prior to induction. Upon induction, plasmid copy number increased up to six-fold and the fusion protein accumulated to approximately 12% of total cell protein. Induction experiments with a series of plasmid derivatives with sequentially lower copy numbers revealed that accumulation levels of the TrpE-hEGF fusion protein post-induction correlated well with plasmid copy number. Plasmid constructs where the native trp promoter had been replaced by derivatives deleted of the attenuator resulted in high levels of hEGF accumulation in the tryptophan-free medium prior to induction. Nevertheless, up to two-fold increase in TrpE-hEGF accumulation levels were obtained using the constructs lacking the attenuator compared to those bearing the native trp promoter.  相似文献   

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Plasmid pCI305 is an 8.7-kb, narrow-host-range, cryptic plasmid originating from Lactococcus lactis subsp. lactis UC317. The nucleotide sequence of the pCI305 replication region was determined. A single open reading frame of 1158 bp was identified in the trans-active domain repB. The size of the predicted repB protein (46 kDa) is in close agreement with the size of the repB product visualized in vivo in Escherichia coli when repB was placed under control of the inducible phi T7 RNA polymerase promoter. In vivo substitution of the native repB promoter sequence with a Tn5-derived promoter sequence was demonstrated. repA, a 344-bp cis-acting region which is the probable pCI305 replication origin region, was noncoding, was AT-rich, and possessed a unique set of inverted and direct repeat sequences. No significant homology between repA or repB and other gram-positive replication regions was evident. Combined with the absence of a detectable single-stranded DNA intermediate during replication, these results indicate that the pCI305 replication region differs markedly from most gram-positive replicons examined to date. The presence on other lactococcal plasmids of replication regions related to that of pCI305 was demonstrated.  相似文献   

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Molecular clocks reduce plasmid loss rates: the R1 case   总被引:3,自引:0,他引:3  
Plasmids control their replication so that the replication frequency per plasmid copy responds to the number of plasmid copies per cell. High sensitivity amplification in replication response to copy number deviations generally reduces variation in copy numbers between different single cells, thereby reducing the plasmid loss rate in a cell population. However, experiments show that plasmid R1 has a gradual, insensitive replication control predicting considerable copy number variation between single cells. The critical step in R1 copy number control is regulation of synthesis of a rate-limiting cis-acting replication protein, RepA. De novo synthesis of a large number of RepA molecules is required for replication, suggesting that copy number control is exercised at multiple steps. In this theoretical kinetic study we analyse R1 multistep copy number control and show that it results in the insensitive replication response found experimentally but that it at the same time effectively prohibits the existence of only one plasmid copy in a dividing cell. In combination with the partition system of R1, this can lead to very high segregational stability. The R1 control mechanism is compared to the different multistep copy number control of plasmid ColE1 that is based on conventional sensitivity amplification. This implies that while copy number control for ColE1 efficiently corrects for fluctuations that have already occurred, R1 copy number control prevents their emergence in cells that by chance start their cycle with only one plasmid copy. We also discuss how regular, clock-like, behaviour of single plasmid copies becomes hidden in experiments probing collective properties of a population of plasmid copies because the individual copies are out of phase. The model is formulated using master equations, taking a stochastic approach to regulation, but the mathematical formalism is kept to a minimum and the model is simplified to its bare essence. This simplicity makes it possible to extend the analysis to other replicons with similar design principles.  相似文献   

17.
The effects of plasmid promoter strength and origin of replication on cloned gene expression in recombinant Saccharomyces cerevisiae have been studied in batch and continuous culture. The plasmids employed contain the Escherichia coli lacZ gene under the control of yeast promoters regulated by the galactose regulatory circuit. The synthesis of beta-galactosidase was therefore induced by the addition of galactose. The initial induction transients in batch culture were compared for strains containing plasmids with 2mu and ARS1 origins. As expected, cloned gene product synthesis was much lower with the ARS1 plasmid: average beta-galactosidase specific activity was an order of magnitude below that with the 2mu-based plasmid. This was primarily due to the low plasmid stability of 7.5% when the plasmid origin of replication was the ARS1 element. The influence of plasmid promoter strength was studied using the yeast GAL1, GAL10, and hybrid GAL10-CYC1 promoters. The rate of increase in beta-galactosidase specific activity after induction in batch culture was 3-5 times higher with the GAL1 promoter. Growth rate under induced conditions, however, was 15% lower than in the absence of lacZ expression for this promoter system. The influence of plasmid promoter strength on induction behavior and cloned gene expression was also studied in continuous fermentations. Higher beta-galactosidase production and lower biomass concentration and plasmid stability were observed for the strain bearing the plasmid with the stronger GAL1 promoter. Despite the decrease in biomass concentration and plasmid stability, overall productivity in continuous culture using the GAL1 promoter was three times that obtained with the GAL10-CYC1 promoter.  相似文献   

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The role of the primosome assembly and protein n' recognition site in replication of pBR322 plasmid was examined. The following evidence indicates that the primosome is involved in lagging-strand synthesis of pBR322 plasmid replication in vitro. Early replicative intermediates with newly synthesized leading strand, approximately 1 kilobase pair long, immediately downstream of the replication origin accumulate in products synthesized in extracts from a dnaT strain that lacks primosomal protein i or in wild-type extracts supplemented with anti-protein i antibody. These intermediates are converted efficiently into full-length DNA by addition of purified protein i. Consistent with the previously proposed role of the primosome (Arai, K. and Kornberg, A. (1981) Proc. Natl. Acad. Sci. U. S. A. 78, 69-73), an n' site on the lagging strand, but not on the leading strand, is required for efficient replication of the plasmid in vitro. Plasmids lacking an n' site on the lagging strand replicate only to a limited extent in vitro and early replicative intermediates carrying nascent leading strands are accumulated, although a portion of the intermediates complete replication to yield full-length DNA. The latter reaction is completely inhibited by addition of anti-protein i antibody. Insertion of the n' site of phage phi X174 into pBR322 plasmids lacking lagging-strand n' sites restores the replicative ability of the mutant plasmid comparable to that of the wild-type plasmid. These results indicate that protein i is essential for lagging-strand synthesis of pBR322 plasmid in vitro and that it may play an important role in the priming events as a part of either an n' site-dependent primosome or an n' site-independent, as yet unidentified, priming complex.  相似文献   

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