首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
2.
The replication initiator protein RepA of the IncB plasmid pMU720 was purified and used in DNase I protection assays in vitro. RepA protected a 68-bp region of the origin of replication of pMU720. This region, which lies immediately downstream of the DnaA box, contains four copies of the sequence motif 5'AANCNGCAA3'. Mutational analyses identified this sequence as the binding site specifically recognized by RepA (the RepA box). Binding of RepA to the RepA boxes was ordered and sequential, with the box closest to the DnaA binding site (box 1) occupied first and the most distant boxes (boxes 3 and 4) occupied last. However, only boxes 1, 2, and 4 were essential for origin activity, with box 3 playing a lesser role. Changing the spacing between box 1 and the other three boxes affected binding of RepA in vitro and origin activity in vivo, indicating that the RepA molecules bound to ori(B) interact with one another.  相似文献   

3.
Abstract pT181 is a Staphylococcus aureus rolling circle replicating plasmid whose copy number is controlled by regulating the synthesis and activity of the initiator protein, RepC. The RepC dimer is modified during pT181 replication by the addition of an oligodeoxynucleotide, giving rise to a new form, RepC*. To purify RepC*, RepC was expressed in S. aureus as a fusion protein with a polyhistidine tail. The histidine-tagged RepC retains its initiation and topoisomerase activities in vitro. Histagged RepC/RepC and RepC/RepC* were purified in a two-step procedure. Peptide mapping, mass spectrometric analysis and protein sequencing of purified RepC and RepC* were carried out, and both proteins appeared identical, except that the peptide containing the RepC active site tyrosine used in nicking activity was absent when the purified RepC* sample was analyzed. The absence of the active site in RepC* suggests that this site was modified during replication. The results provide the first direct biochemical evidence that RepC* is a modified form of RepC, and support a model in which RepC replication of pT181 leaves RepC with an oligonucleotide blocking the active site of one of its subunits.  相似文献   

4.
5.
The plasmid pGT5 from the hyperthermophilic archaeon Pyrococcus abyssi replicates via the rolling circle mechanism. pGT5 encodes the replication initiator protein Rep75 that exhibits a nicking–closing (NC) activity in vitro on single-stranded oligonucleotides containing the pGT5 double-stranded origin (dso) sequence. Some mesophilic Rep proteins present site-specific DNA topoisomerase-like activity on a negatively supercoiled plasmid harbouring the dso. We report here that Rep75 also exhibits topoisomerase activity on a negatively supercoiled DNA substrate. This DNA topoisomerase-like activity is dependent on the amino acids involved in NC activity of Rep75. However, in contrast with mesophilic Rep proteins, Rep75 topoisomerase activity is not dso dependent. Moreover, although pGT5 is known to be relaxed in vivo, Rep75 was not able to act on a relaxed plasmid in vitro, whether or not it contained the dso.  相似文献   

6.
The replication initiator protein RepA of the IncB plasmid pMU720 was shown to induce localized unwinding of its cognate origin of replication in vitro. DnaA, the initiator protein of Escherichia coli, was unable to induce localized unwinding of this origin of replication on its own but enhanced the opening generated by RepA. The opened region lies immediately downstream of the last of the three binding sites for RepA (RepA boxes) and covers one turn of DNA helix. A 6-mer sequence, 5'-TCTTAA-3', which lies within the opened region, was essential for the localized unwinding of the origin in vitro and origin activity in vivo. In addition, efficient unwinding of the origin of replication of pMU720 in vitro required the native positioning of the binding sites for the initiator proteins. Interestingly, binding of RepA to RepA box 1, which is essential for origin activity, was not required for the localized opening of the origin in vitro.  相似文献   

7.
To study the functions of the mini-P1 replication initiation protein RepA quantitatively, we have developed a method to measure RepA concentration by using immunoblotting. In vivo, there are about 20 RepA dimers per unit-copy plasmid DNA. RepA was deduced to be a dimer from gel filtration of the purified protein. Since there are 14 binding sites of the protein per replicon, the physiological concentration of the protein appears to be sufficiently low to be a rate-limiting factor for replication. Autoregulation is apparently responsible for the low protein level; at the physiological concentration of the protein, the repA promoter retains only 0.1% of its full activity as determined by gene fusions to lacZ. When the concentration is further decreased by a factor of 3 or increased by a factor of 40, replication is no longer detectable.  相似文献   

8.
9.
Proteins from the Rep family of DNA replication initiators exist mainly as dimers, but only monomers can initiate DNA replication by interaction with the replication origin (ori). In this study, we investigated both the activation (monomerization) and the degradation of the broad‐host‐range plasmid RK2 replication initiation protein TrfA, which we found to be a member of a class of DNA replication initiators containing winged helix (WH) domains. Our in vivo and in vitro experiments demonstrated that the ClpX‐dependent activation of TrfA leading to replicationally active protein monomers and mutations affecting TrfA dimer formation, result in the inhibition of TrfA protein degradation by the ClpXP proteolytic system. These data revealed that the TrfA monomers and dimers are degraded at substantially different rates. Our data also show that the plasmid replication initiator activity and stability in E. coli cells are affected by ClpXP system only when the protein sustains dimeric form.  相似文献   

10.
J Germino  D Bastia 《Cell》1983,34(1):125-134
Initiation of DNA replication in plasmid R6K is potentiated by the plasmid-encoded 35 kd replication initiator protein. We had previously reported that the initiator bound to two regions of R6K DNA called Site I and Site II. Using DNAase I footprinting technique we have demonstrated that the initiator bound to seven tandem repeats of a 22 bp long sequence in Site I. In Site II, the initiator bound to a single repeat having the same consensus sequence and to two partial repeats that most likely overlap the promoter of the initiation protein cistron. Using dimethyl sulfate as a chemical probe, we have determined the purine residues of Site I and Site II that make contact with the initiator protein. The results show that eight out of nine contact points per repeat in Site I were located on one of the two strands of the DNA. The binding of the initiator to the Site II sequence could explain the observed autoregulation of the synthesis of the initiator protein by promoter occlusion.  相似文献   

11.
Plasmid F replication is controlled by a plasmid-specified Rep protein with both autorepressor and initiator functions. The mechanism by which these two functions of a Rep protein are balanced to achieve stable replication is unknown; however, we speculated in prior work that Rep protein modification could be involved. We report here that naturally proteolyzed F RepE protein has been detected and characterized. The processed molecule lost the first 17 N-terminal aminoacyl residues and initiator function but acquired increased specific DNA-binding affinity in the presence of Escherichia coli chromosomal DNA. When supplied in trans, the altered protein acts as an incompatibility substance and eliminates maintenance of F'lac. These findings indicate that protein processing has the potential to contribute to the overall control of DNA replication.  相似文献   

12.
Physical analysis of RNA I, the small antisense RNA which regulates the replication of IncB miniplasmid pMU720, showed that it is a highly structured molecule containing an imperfectly paired stem closed by a 6-base hairpin loop. Mutational studies revealed that a 3-base sequence in the hairpin loop is critical to the interaction between RNA I and its complementary target in the RepA mRNA (RNA II). Furthermore, a 2-base interior loop in the upper stem was found to play an important role in facilitating effective binding between RNA I and RNA II. From these analyses, a model describing the molecular mechanism of binding between RNA I and RNA II is proposed.  相似文献   

13.
Replication of the IncB miniplasmid pMU720 is dependent on the expression of repA, the gene encoding replication initiator protein RepA. Binding of a small antisense RNA (RNAI) to its complementary target (stem-loop I [SLI]) in the RepA mRNA prevents the participation of SLI in the formation of a pseudoknot that is an enhancer of translation of this mRNA. Thus, RNAI regulates the frequency of replication of pMU720 by controlling the efficiency of translation of the RepA mRNA. Mutational analysis of the two seven-base complementary sequences involved in formation of the pseudoknot showed that only the five central bases of each were critical for the formation of the pseudoknot. Physical analysis of SLI showed that despite the complete complementarity of its sequence to that of RNAI, the structures of the two molecules are different. The most prominent difference between the two structures is the presence of a 4-base internal loop immediately below the hairpin loop of SLI but not that of RNAI. Closure of this internal loop in SLI resulted in a 40-fold reduction in repA expression and loss of sensitivity of the residual expression to inhibition by RNAI. By contrast, repA expression was largely unaffected by the closure of a lower internal loop whose presence in SLI and RNAI is essential for effective interaction between these two molecules. These results suggest that the interaction of SLI with the distal pseudoknot bases is fundamentally different from the RNAI-SLI binding interaction and that the differences in structure between RNAI and SLI are necessary to allow SLI to be able to efficiently bind RNAI and to participate in pseudoknot formation.  相似文献   

14.
The promiscuous rolling circle (RC)-replicating plasmid pMV158 encodes the 210-amino-acid initiator of replication protein, RepB. The protein relaxes supercoiled cognate DNA in a topoisomeraseI-like manner. A new vector and procedure for overproduction, scaling-up, and purification of the protein has been developed. RepB purified as a hexamer in solution, as shown by analytical ultracentrifugation assays. Circular dichroism (CD) of RepB indicated that the protein has an estimated content of around 33% alpha-helices and 20% beta-strands. Characterisation of temperature-induced transitions of the protein showed an irreversible change in the spectra when the temperature was raised above 35 degrees C, indicating that the protein undergoes a conformational change that could account for the relatively high optimal temperature of the RepB-mediated cleavage.  相似文献   

15.
The origin of replication of the IncL/M plasmid pMU604 was analyzed to identify sequences important for binding of initiator proteins and origin activity. A thrice repeated sequence motif 5'-NANCYGCAA-3' was identified as the binding site (RepA box) of the initiator protein, RepA. All three copies of the RepA box were required for in vivo activity and binding of RepA to these boxes appeared to be cooperative. A DnaA R box (box 1), located immediately upstream of the RepA boxes, was not required for recruitment of DnaA during initiation of replication by RepA of pMU604 unless a DnaA R box located at the distal end of the origin (box 3) had been inactivated. However, DnaA R box 1 was important for recruitment of DnaA to the origin of replication of pMU604 when the initiator RepA was that from a distantly related plasmid, pMU720. A mutation which scrambled DnaA R boxes 1 and 3 and one which scrambled DnaA R boxes 1, 3 and 4 had much more deleterious effects on initiation by RepA of pMU720 than on initiation by RepA of pMU604. Neither Rep protein could initiate replication from the origin of pMU604 in the absence of DnaA, suggesting that the difference between them might lie in the mechanism of recruitment of DnaA to this origin. DnaA protein enhanced the binding and origin unwinding activities of RepA of pMU604, but appeared unable to bind to a linear DNA fragment bearing the origin of replication of pMU604 in the absence of other proteins.  相似文献   

16.
Conformational changes in a replication origin induced by an initiator protein   总被引:37,自引:0,他引:37  
S Mukherjee  I Patel  D Bastia 《Cell》1985,43(1):189-197
The replication initiator protein of the plasmid R6K binds to seven contiguous 22 bp direct repeats that form an indispensable part of the three replication origins alpha, beta, and gamma. Binding of the initiator to the direct repeats induced a marked bending of the region of gamma replication origin. Binding of the initiator also promoted unwinding of the origin DNA by at least two turns. Distamycin appeared to antagonize the binding of the initiator to the seven 22 bp direct repeats. At the appropriate DNA and protein concentrations the initiator enhanced topoisomerase-induced catenation of the origin containing supercoiled DNA but not of DNA lacking the origin sequence. Thus, the initiator protein caused significant changes in the secondary and tertiary structures of the replication origin.  相似文献   

17.
J Germino  D Bastia 《Cell》1983,32(1):131-140
We have tagged the replication initiator protein of the plasmid R6K near the C-terminal end by fusion, in the correct reading frame, with the 89 amino acid long N-terminal alpha-donor polypeptide of beta-galactosidase of E. coli. This fusion was carried out with recombinant DNA methods. The protein chimera thus generated retained the activities of both initiation of DNA replication in vivo at the replication origin gamma of R6K and hydrolysis of beta-galactopyranoside when complemented in vivo with the alpha-acceptor polypeptide coded by the lac Z gene containing the M15 deletion. Using the simple and convenient assay for detecting beta-galactosidase, we have partially purified the tagged replication initiator, and have demonstrated that the protein binds to specific DNA sequences of the R6K chromosome. The protein bound to DNA sequences located at two places in the 5' untranslated leader region of the initiator protein cistron.  相似文献   

18.
M Inuzuka  Y Wada 《FEBS letters》1988,228(1):7-11
Two kinds of mutations affecting the copy-number control of plasmid R6K were isolated and identified in an initiator pi protein by DNA sequencing. Firstly, a temperature-sensitive replication mutation, ts22, with decreased copy number results in a substitution of threonine to isoleucine at position 138 of the 305-amino-acid pi protein. Secondly, a high-copy-number (cop21) mutant was isolated from this ts mutant and was identified by an alteration of alanine to serine at position 162. This cop21 mutation suppressed the Ts character and was recessive to the wild-type allele in the copy control.  相似文献   

19.
pSA1.1 is a 9.1-kb multicopy plasmid originally isolated from Streptomyces cyaneus (formerly S. azureus) ATCC 14921. This plasmid accumulates single-stranded DNA in S. lividans and is therefore considered to replicate by a rolling-circle replication. In the present work, the rep gene encoding the replication initiator protein and the replication origin ori of pSA1.1 were determined. The rep and ori are located on separate regions. The Rep protein of pSA1.1 belongs to superfamily I which includes A proteins of phages. Nucleotide sequence of the surrounding putative nicking site of pSA1.1 shows good agreement with those of the pC194 group plasmids and phages. The direction of replication was also determined.  相似文献   

20.
The minimal P1 replicon encompasses an open reading frame for the essential replication protein, RepA, bracketed by two sets of multiple 19-base pair repeated sequences, incA and incC. This study focused on the interaction of RepA with the incC and incA repeated sequences because earlier studies suggested that incA might control P1 copy number by titrating limiting amounts of RepA and because the incC repeats, which are part of the origin of replication, contain the promoter for repA. RepA is essential for origin function, autoregulates its own synthesis from the promoter, and, when overproduced, blocks origin function. In this study, RepA was overproduced from an expression vector and purified to 90% homogeneity. The binding of RepA to the DNA encompassing repeat sequences was assayed by monitoring the mobility of protein-DNA complexes on polyacrylamide gels. Distinct species of retarded bands were seen with the maximum number of bands corresponding to the number of repeats present in the target fragment. No evidence was found for RepA binding to fragments not containing the repeats. This suggests that the specific binding of RepA to the repeats may be involved in each of the diverse activities of RepA.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号