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1.
The sequence of 1267 nucleotides spanning the replication terminus, terC, of the Bacillus subtilis 168 chromosome has been determined. The site of arrest of the clockwise fork, which defines terC, has been localized to a 30-nucleotide portion (approximately) within this sequence. The arrest site occurs in an A + T-rich region between two open reading frames and very close to one of two imperfect inverted repeats (47-48 nucleotides each) which are separated by 59 nucleotides. The closeness of approach of the arrested clockwise fork to the first imperfect inverted repeat encountered in this region raises the possibility of a role for the inverted repeats in the mechanism of fork arrest.  相似文献   

2.
3.
M T Smith  R G Wake 《Gene》1989,85(1):187-192
It was earlier proposed that clockwise replication fork arrest at the chromosome terminus in Bacillus subtilis is dependent upon expression of the rtp gene adjacent to the site of arrest, terC [Smith and Wake, J. Bacteriol. 170 (1988) 4083-4090]. A merodiploid strain of B. subtilis, in which rtp was placed under the control of the IPTG-inducible spac-1 promoter, was constructed. Replication fork arrest at terC, as monitored by the level of a forked DNA molecule of predicted dimensions, was shown to be dependent upon IPTG-induced expression of rtp in this strain. The very low concentration of IPTG needed to induce a substantial level of fork arrest suggests that relatively little RTP, the protein product of rtp, is needed for fork arrest at terC.  相似文献   

4.
T P Iismaa  C M Carrigan  R G Wake 《Gene》1988,67(2):183-191
The terC-deletion strain of Bacillus subtilis 168, SU153 [Iismaa and Wake, J. Mol. Biol. 195 (1987) 299-310] was used for the re-insertion of a 1.75-kb segment of DNA containing terC at a site approx. 25 kb from its original position. The relocated terC in the new strain, SU160, was oriented normally with respect to the approaching clockwise replication fork, and was positioned such that this fork was the first to reach it. The relocated terC was effective in causing arrest of the clockwise fork, as evidenced by the appearance of a unique DNA species with a characteristic mobility in agarose gel electrophoresis and with a predicted single-strand composition. Thus, the previously cloned 1.75-kb terC-containing segment [Smith et al., Gene 38 (1985) 9-17] has not been altered with respect to TerC function and contains sufficient sequence for this function. The findings reported here provide the opportunity for establishing the minimal and essential sequence features of terC, and for examining its possible polarity of action in causing fork arrest.  相似文献   

5.
Using a procedure that minimizes shear forces, the BamHI-derived forked termination of replication intermediate of Bacillus subtilis, called band I DNA, can be extracted with little or no accompanying band II DNA. It has been shown that band II DNA is a product of band I breakdown. Nuclease P1-mediated breakdown of the forked band I DNA proceeds in two steps. The first causes the release of one of the arms as band II DNA; in the second step, the remaining arm is cleaved away to yield the free stem. It is concluded that band I represents the primary termination of replication intermediate. A quantitative assessment of the level of band I in DNA from cells of the merodiploid strain, GSY1127, growing at different rates has been made. For cells grown in a minimal medium, at least, the experimentally measured level of band I is of the order (approx. 60%) of that predicted for a complete block to movement of the clockwise fork at the replication terminus, terC.  相似文献   

6.
K S Ahn  R G Wake 《Gene》1991,98(1):107-112
In a comparative study of the sequences of the 3-kb regions of DNA spanning the replication terminus, terC, of Bacillus subtilis strains 168 and W23, it was found that the latter contained an insertion of a large open reading frame (ORF405) whose translated protein product is a member of the cytochrome P-450 family. The insertion was about 34 nucleotides upstream from a putative promoter for the rtp gene. The sequenced regions contained a number of other ORFs. The translation product of one (ORF238) is a member of a previously identified oxidoreductase superfamily. The translation product of another (ORF257) is significantly similar to the proC product of Escherichia coli, but this ORF does not code for a functional proC product of B. subtilis.  相似文献   

7.
The DNA sequence limits of the leading and lagging strands in the arrested clockwise replication fork at the terminus of the Bacillus subtilis chromosome have been investigated. On the basis of hybridization to synthetic oligonucleotides corresponding to known positions in the terminus region sequence it has been shown that neither the leading nor lagging strands, as they approach terC, traverse the distal inverted repeat, IRI. But a small fraction of the leading strands pass through the proximal inverted repeat, IRII. This is consistent with IRI being the functional inverted repeat in arresting the clockwise fork. But most of the forks appear to stop at least 100 nucleotides short of IRI, and at various positions extending over a distance of at least 100 nucleotides.  相似文献   

8.
The Bacillus subtilis 168 chromosome is known to contain at least six DNA replication terminators in the terminus region of the chromosome. By using a degenerate DNA probe for the consensus terminator sequence and low-stringency hybridization conditions, several additional minor hybridizing bands were identified. DNA corresponding to the most intense of these bands was cloned and characterized. Although localized in the terminus region, it could not bind RTP and possibly represents a degenerate terminator. A search of the SubtiList database identified an additional terminator sequence in the terminus region, near glnA. It was shown to bind RTP and to function in blocking replication fork movement in a polar manner. Its orientation conformed to the replication fork trap arrangement of the other terminators. The low-stringency hybridization experiments failed to identify any terminus region-type terminators in the region of the chromosome where postinitiation control sequences (STer sites) are known to reside. The two most likely terminators in STer site regions, in terms of sequence similarity to terminus region terminators, were identified through sequence searching. They were synthesized and were found not to bind RTP under conditions that allowed binding to terminus region terminators. Neither did they elicit fork arrest, when present in a plasmid, under stringent conditions. It is concluded that the STer site terminators, at least the first two to the left of oriC, do not have the typical consensus A+B site makeup of terminus region terminators.  相似文献   

9.
M T Smith  C Aynsley  R G Wake 《Gene》1985,38(1-3):9-17
A 10.9-kb segment of the Bacillus subtilis 168 chromosome has been cloned in an Escherichia coli plasmid and shown to contain terC (the replication terminus of the chromosome). The terC-containing portion of this plasmid has been subcloned within each of two overlapping fragments of DNA, 1.75 and 1.95 kb, again in E. coli plasmids. These have afforded a more precise definition of the location of terC in the B. subtilis chromosome and provided material for a detailed analysis of the structure and functioning of this site.  相似文献   

10.
The Bacillus subtilis strains CU1693, CU1694 and CU1695 were shown by hybridization analysis to carry large deletions of the terminus region that originated within discrete fragments of the SP beta prophage genome. The absence of terC in CU1693 was demonstrated definitively by the identification of a novel junction fragment comprising SP beta DNA and DNA that lies on the other side of terC in the parent strain. This represented the deletion of approximately 230 kb of CU1693 DNA, with the removal of approximately 150 kb to the left of terC and approximately 80 kb to the right of terC. The lack of hybridization of CU1694 and CU1695 DNA to cloned DNA carrying the terC sequence and to cloned DNAs flanking terC suggested that terC is absent from the chromosome of each of these strains also, and that the deletions in CU1694 and CU1695 extend beyond the segment of the terminus region that has been mapped and cloned. The normal growth rate and morphology of CU1693, CU1694 and CU1695 relative to the parent strain when grown in complex medium indicated dispensability of terC for vegetative growth and division. B. subtilis SU153 was constructed using a specific deletion-insertion vector that was designed to effect the deletion of 11.2kb of DNA spanning terC, with the removal of approximately 9.7kb to the left of terC and approximately 1.kb to the right of terC. This manipulation did not introduce any readily detectable auxotrophic requirement. Physiological characterization of SU153 confirmed the dispensability of terC for vegetative growth and cell division, and also established the lack of requirement of terC for the specialized cell division that is associated with formation of the bacterial endospore.  相似文献   

11.
The first stage in termination of chromosome replication in Bacillus subtilis involves arrest of the clockwise fork at the inverted repeat region (IRR), comprising the opposed IRI and IRII sequences, adjacent to the upstream region of the rtp gene, which encodes the replication terminator protein RTP. RTP binds to IRI and IRII. The ability of the IRR and its components to function as terminators, in conjunction with RTP, and their polarity of action have now been tested by the use of plasmids replicating in B. subtilis as unidirectional theta structures and into which potential terminator sequences were inserted in alternate orientations relative to fork movement. When the complete IRR was inserted into such plasmids and the new plasmids transferred into a B. subtilis strain overproducing RTP, it was able to block movement of a replication fork approaching from either direction. IRI and IRII were shown to function as polar terminators, each blocking movement of a fork when it approached from one particular direction but not the other. Furthermore, the polarity of action was in accordance with the IRR being able to operate as a replication fork trap. Thus, a fork approaching the IRR would pass through the first terminator encountered (IRI or IRII) and be halted by the second. The previously observed nonfunctioning of a particular orientation of chromosomal IRR as a fork arrest site probably reflects a limiting level of RTP in the cell. Interestingly, a 21 base-pair core sequence spanning a single RTP binding site within IRI (the 47 base-pair IRI contains 2 binding sites) was unable to arrest a fork approaching from either direction in the plasmid system. This suggests that both binding sites within an IR must be filled in order to function as an arrest site. It is possible that co-operative interaction between adjacent dimers within IRI or IRII provides the necessary conformation for causing fork arrest.  相似文献   

12.
The terminus regions of the chromosomes of three strains of Bacillus subtilis 168 were radioactively labelled by supplying [3H]thymine towards the end of a round of replication. These strains lacked or contained the prophage SP beta c2. Following restriction endonuclease digestion of the purified DNA and fluorography, an SP beta c2-related perturbation of the terminus-labelling profile was observed, which was completely consistent with the previously suggested existence of an impediment to replication fork movement (terC) within a BamHI 24.8 X 10(3) base fragment (Weiss & Wake, 1983). The present data suggest that terC is located within the 11.4 X 10(3) base BamHI + SalI double-digest portion of this BamHI fragment.  相似文献   

13.
The replication terminus region of the Bacillus subtilis chromosome, comprising TerI and TerII plus the rtp gene (referred to as the terC region) was relocated to serC (257 degrees) and cym (10 degrees) on the anticlockwise- and clockwise-replicating segments of the chromosome, respectively. In both cases, it was found that only the orientation of the terC region that placed TerI in opposition to the approaching replication fork was functional in fork arrest. When TerII was opposed to the approaching fork, it was nonfunctional. These findings confirm and extend earlier work which involved relocations to only the clockwise-replicating segment, at metD (100 degrees) and pyr (139 degrees). In the present work, it was further shown that in the strain in which TerII was opposed to an approaching fork at metD, overproduction of the replication terminator protein (RTP) enabled TerII to function as an arrest site. Thus, chromosomal TerII is nonfunctional in arrest in vivo because of a limiting level of RTP. Marker frequency analysis showed that TerI at both cym and metD caused only transient arrest of a replication fork. Arrest appeared to be more severe in the latter situation and caused the two forks to meet at approximately 145 degrees (just outside or on the edge of the replication fork trap). The minimum pause time erected by TerI at metD was calculated to be approximately 40% of the time taken to complete a round of replication. This significant pause at metD caused the cells to become elongated, indicating that cell division was delayed. Further work is needed to establish the immediate cause of the delay in division.  相似文献   

14.
Joseph Germino  Deepak Bastia 《Cell》1981,23(3):681-687
The replication terminus of the drug resistance factor R6K has been cloned into the plasmid vectors pBR313 and pBR322. When the exogenously added DNA is replicated in vitro using cell extracts prepared from Escherichia coli, the plasmid replication terminus temporarily arrests the progression of the unidirectionally moving replication fork at or near the cloned terminator sequence. When the relative location of the terminator sequence is changed with respect to the replication origin, the point of arrest of the replication fork shifts correspondingly to the new location of the terminator. Termination of replication takes place in vitro regardless of whether the cell extracts used in the in vitro reaction are prepared from E. coli with a resident terminus sequence containing plasmid. From these observations we conclude that the termination of replication in vitro is identical or very similar to that observed in vivo, membrane association is not necessary for the activity of the replication terminus and the terminus sequence does not code for a transacting factor necessary for termination of replication. Therefore, any transacting factor which may be needed for the termination of replication must be coded by the host chromosome.  相似文献   

15.
The Bacillus subtilis merodiploid strain GSY1127 contains a large nontandem duplication of a portion of its chromosome within its left (anticlockwise) replication segment. This causes displacement of the replication terminus region to a noticeably asymmetric location relative to oriC. The utilization of the subsidiary replication terminators, TerIII and TerV, in the merodiploid strain has been compared with that in B. subtilis 168. It is shown that TerIII is utilized to a significant extent in GSY1127 and that TerV is used only marginally at the most. Neither of these terminators is used to a measurable extent in the 168 strain. It is concluded that TerIII and TerV do indeed function as backups to the major terminator TerI, as has been generally thought. It is further concluded that, in the 168 strain, the vast majority of clockwise forks are arrested at the highly efficient TerI terminator, with fork fusion between the approaching forks occurring frequently while the clockwise fork is stationary at TerI.  相似文献   

16.
T Kobayashi  M Hidaka    T Horiuchi 《The EMBO journal》1989,8(8):2435-2441
Activity binding specifically to the 22 bp of the DNA replication terminus (ter) sequence on plasmid R6K and the Escherichia coli genome was detected in the crude extract of E. coli cells. This activity was inactivated by heat or by protease but not by RNase treatments. Overproduction of the ter binding activity was observed when the extract was prepared from the cell carrying a plasmid with a chromosomal-derived 5.0 kb EcoRI fragment, on which one of the four terC sites, terC2, was also located. By mutagenesis of the 5.0 kb fragment on the plasmid with transposon Tn3 and subsequent replacement of the corresponding chromosomal region with the resulting mutant alleles, we isolated tau- mutants completely defective in ter binding activity. These mutants simultaneously lost the activity to block the progress of the DNA replication fork at any ter site, on the genome or the plasmid. It would thus appear that the ter binding protein plays an essential role in the termination reaction, at the ter sites.  相似文献   

17.
Chromosomal DNAs from a number of strains derived from Bacillus subtilis 168 were digested with restriction endonucleases NotI or SfiI, and the locations of chromosomal alterations were compared with the recently constructed standard NotI-SfiI restriction map (M. Itaya and T. Tanaka, J. Mol. Biol. 220:631-648, 1991). In general, the chromosome structure of B. subtilis 168 was found to be stable, as expected from the genetic stability of this species. DNA alterations, typically deletions, are formed in three limited loci on the chromosome. One of these alterations was characterized as a spontaneous deletion formed between rrn operons, and another occurred as a result of prophage SP beta excision. I found that oriC and terC are not located on precisely opposite sides of the chromosome. Replication in the counter clockwise direction was 196 kb longer than replication in the clockwise direction. The characteristic of length difference is not changed by deletion formation.  相似文献   

18.
The Bacillus subtilis 168 dna-1 chromosome was labelled during sporulation with [3H]thymine for five minutes immediately before termination of replication. The isolated radioactive DNA was cleaved with BamHI (or SalI) and the resulting restriction fragments separated by agarose gel electrophoresis. The individual fragments, fractionated into a series of slices cut from the gel, were then cleaved with SalI (or BamHI) and the double-digest fragments identified by electrophoresis and fluorography. All major fragments and most minor ones present in a whole double-digest were assigned to BamHI and SalI parents. Such information enabled the construction of an unambiguous restriction map of 150 X 10(3) bases of the approximately 250 X 10(3) bases of DNA labelled in the five minutes. In conjunction with published data on the order of replication of restriction fragments as termination is approached, it was clear that most (105 X 10(3) bases) of the mapped DNA was replicated by a major fork moving in one direction towards a BamHI 24.8 X 10(3) base fragment. The 45 X 10(3) bases extending to the other side of this region were labelled only slightly, and presumably was replicated by a fork that approached the other in an opposite direction until its progress was blocked or severely impeded within this region at a site, referred to as terC, sometime (less than 5 min) earlier. The regions of the map replicated in the final 2.5 and 1.0 minute by the major fork were also identified.  相似文献   

19.
The structure of a DNA intermediate associated with termination of chromosome replication in Bacillus subtilis and derived from a unique BamHI 24.8 X 10(3) base-pair (bp) region of the chromosome has been investigated. The intermediate has properties expected for a forked structure. Gel electrophoresis followed by Southern transfer and hybridization to cloned DNA has shown it to comprise single strands of 15.4 X 10(3) bp and 24.8 X 10(3) bp, in approximately equimolar amounts. After purification away from the bulk of chromosomal DNA, electron microscopy of the intermediate established that 15% of the DNA was present as branched molecules and a significant proportion (11 of 31) of these contained two arms of matching length. The average dimensions (best estimates) of this unique class of Y-shaped molecule were 9.5(+/- 0.3) X 10(3), 15.1(+/- 0.4) X 10(3) and 24.6 24.6(+/- 0.6) X 10(3) bp for the stem, arms and end-to-end length, respectively. These values are consistent with the single strand composition of the intermediate as found. Furthermore, hybridization of the single strands to DNA from known locations within the BamHI 24.8 X 10(3) bp region has established the orientation of the forked intermediate relative to the genetic map. The intermediate presumably reflects the immobilization of the clockwise replication fork within the 24.8 X 10(3) bp region, at a location approximately 15.4 X 10(3) bp from the right end.  相似文献   

20.
The small basic protein encoded by the open reading frame adjacent to the terC site in the Bacillus subtilis chromosome and previously implicated in termination of the replication process was purified. Band retardation assays established that this protein (now called the replication terminator protein, encoded by the rtp gene) binds specifically to a 209-base-pair fragment of DNA within which terC is located.  相似文献   

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