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1.
Summary Sporulation gene spoIVC of Bacillus subtilis was cloned by the prophage transformation method in temperate phage 105. The specialized transducing phage, 105spoIVC-1, restored the sporulation of the asporogenous mutant of B. subtilis strain 1S47 (spoIVC133). Transformation experiments showed that the spoIVC gene resides on a 7.3 kb HindIII restriction fragment. Subsequent analysis of the 7.3 kb HindIII fragment with restriction endonuclease EcoRI showed that the spoIVC gene resides on a 3.6 kb EcoRI fragment within the 7.3 kb fragment. The 3.6 kb fragment was recloned into the unique EcoRI site of plasmid pUB110 and deletion derivatives having a deletion within the 3.6 kb insert were constructed. The plasmid carrying the entire spoIVC gene restored the sporulation of strain HU1214 (spoIVC133, recE4) at a frequency of 107 spores/ml, and reduced the sporulation of strain HU1018 (spo +, recE4) to 107 spores/ml.  相似文献   

2.
A specialized transducing phage carrying a sporulation gene (spoOB) was constructed from Bacillus subtilis temperate phage rho 11 by in vitro and in vivo recombinations. Transformation experiments showed that the spoOB gene resides on a 1.4-megadalton fragment generated by EcoRI endonuclease treatment of the phage deoxyribonucleic acid (DNA). Mutants of this phage which lost transducing activity were isolated and used for genetic complementation tests and the analysis of protein(s) coded by the 1.4-megadalton fragment. The spoOB locus was shown to be composed of one cistron. Sodium dodecyl sulfate-polyacrylamide gel analysis of proteins synthesized in ultraviolet-irradiated cells infected with these phages showed that the 1.4-megadalton fragment codes at least one protein, of molecular weight 39,000, which is synthesized in both vegetative and sporulating cells. A cleavage map of the phage DNA was constructed by use of restriction endonucleases, EcoRI, BamHI, and SalI, and the site of integration of the 1.4-megadalton fragment was determined. Expression and function of the spoOB gene are discussed.  相似文献   

3.
Physical mapping of Bacillus subtilis temperate phage phi 105 DNA was carried out by using restriction endonucleases EcoRI, SmaI, and KpnI, and a new revised EcoRI cleavage map is presented. In addition, the EcoRI cleavage maps of six specialized transducing phages carrying sporulation genes of B. subtilis were revised.  相似文献   

4.
Plasmid pSL103 was previously constructed by cloning a Trp fragment (approximately 2.3 X 10(6) daltons) from restriction endonuclease EcoRI-digested chromosome DNA of Bacillus pumilus using the neomycin-resistance plasmid pUB110 (approximately 2.8 X 10(6) daltons) as vector and B. subtilis as transformation recipient. In the present study the EcoRI Trp fragment from pSL103 was transferred in vitro to EcoRI fragments of the Bacillus plasmid pPL576 to determine the ability of the plasmid fragments to replicate in B. subtilis. Endonuclease EcoRI digestion of pPL576 (approximately 28 X 10(6) daltons) generated three fragments having molecular weights of about 13 X 13(6) (the A fragment), 9.5 X 10(6) (B fragment, and 6.5 X 10(6) (C fragment). Trp derivatives of pPL576 fragments capable of autonomous replication in B. subtilis contained the B fragment (e.g., pSL107) or both the B and C fragments (e.g., pSL108). Accordingly, the B fragment of pPL576 contains information essential for autonomous replication. pSL107 and pSL108 are compatible with pUB110. Constructed derivatives of the compatible plasmids pPL576 and pUB110, harboring genetically distinguishable EcoRI-generated Trp fragments cloned from the DNA of a B. pumilus strain, exhibited relatively high frequency recombination for a trpC marker when the plasmid pairs were present in a recombination-proficient strain of B. subtilis. No recombination was detected when the host carried the chromosome mutation recE4. Therefore, the recE4 mutation suppresses recombination between compatible plasmids that contain homologous segments.  相似文献   

5.
An 8.0-kilobase chromosomal fragment of Bacillus subtilis which contained an intact spo0A gene was recloned onto temperate phage phi 105 from the rho 11dspo0A+-1 transducing phage. A specialized transducing phage, phi 105-dspo0A+-1, was constructed and used to transduce the spo0A12 mutant strain 1S9. A Spo+ transductant which was a single lysogen of the phi 105dspo0A+-1 transducing phage was isolated. From competent cells of this Spo+ transductant was isolated a Spo- (Spo0A) strain which was immune to phi 105. It was used to prepare a lysate of the phi 105dspo0A12 phage. Transduction of the spo0C9V recE4 strain with the phi 105dspo0A12 and phi 105dspo0A+-1 phages was carried out. The phi 105dspo0A+-1 phage gave rise to a large number of heat-resistant cells, but the phi 105dspo0A12 phage formed no heat-resistant cells. These results indicate that the spo0A12 and spo0C9V mutant genes do not complement each other in the ability to sporulate and that the spo0C9V mutation is located within the spo0A gene. Although the spo0C9V strain was completely asporogenous, the spo0C9V/spo0C9V diploid strain produced heat-resistant cells at a frequency of ca. 10(-3) in the sporulation medium. This result indicates that two copies of the spo0C9V mutant gene partially restore the ability of these cells to sporulate.  相似文献   

6.
A 1.4-megadalton EcoRI restriction fragment carrying Bacillus subtilis sporulation gene spo0B was cloned from the specialized transducing phage, φ 105spo0B, into a unique EcoRI site of plasmid vector pUB110, and four plasmids having a deletion in the 1.4-megadalton EcoRI fragment were constructed. Analysis of the polypeptides synthesized in B. subtilis minicells harboring these plasmids and the sporulation ability of strain UOT0436 (spo0B136 recE4) harboring these plasmids showed that the spo0B gene product is a polypeptide of 24,000 daltons. Two-dimensional polyacrylamide gel analysis showed that the isoelectric point of this protein is almost neutral.  相似文献   

7.
Previously, curing experiments suggested that plasmid pWV05 (17.5 megadaltons [Md]) of Streptococcus cremoris Wg2 specifies proteolytic activity. A restriction enzyme map of pWV05 was constructed, the entire plasmid was subcloned in Escherichia coli with plasmids pBR329 and pACYC184. A 4.3-Md HindIII fragment could not be cloned in an uninterrupted way in E. coli but could be cloned in two parts. Both fragments showed homology with the 9-Md proteinase plasmid of S. cremoris HP. The 4.3-Md HindIII fragment was successfully cloned in Bacillus subtilis on plasmid pGKV2 (3.1 Md). Crossed immunoelectrophoresis of extracts of B. subtilis carrying the recombinant plasmid (pGKV500; 7.4 Md) showed that the fragment specifies two proteins of the proteolytic system of S. cremoris Wg2. PGKV500 was introduced in a proteinase-deficient Streptococcus lactis strain via protoplast transformation. Both proteins were also present in cell-free extracts of S. lactis(pGKV500). In S. lactis, pGKV500 enables the cells to grow normally in milk with rapid acid production, indicating that the 4.3-Md HindIII fragment of plasmid pWV05 specifies the proteolytic activity of S. cremoris Wg2.  相似文献   

8.
Previously, curing experiments suggested that plasmid pWV05 (17.5 megadaltons [Md]) of Streptococcus cremoris Wg2 specifies proteolytic activity. A restriction enzyme map of pWV05 was constructed, the entire plasmid was subcloned in Escherichia coli with plasmids pBR329 and pACYC184. A 4.3-Md HindIII fragment could not be cloned in an uninterrupted way in E. coli but could be cloned in two parts. Both fragments showed homology with the 9-Md proteinase plasmid of S. cremoris HP. The 4.3-Md HindIII fragment was successfully cloned in Bacillus subtilis on plasmid pGKV2 (3.1 Md). Crossed immunoelectrophoresis of extracts of B. subtilis carrying the recombinant plasmid (pGKV500; 7.4 Md) showed that the fragment specifies two proteins of the proteolytic system of S. cremoris Wg2. PGKV500 was introduced in a proteinase-deficient Streptococcus lactis strain via protoplast transformation. Both proteins were also present in cell-free extracts of S. lactis(pGKV500). In S. lactis, pGKV500 enables the cells to grow normally in milk with rapid acid production, indicating that the 4.3-Md HindIII fragment of plasmid pWV05 specifies the proteolytic activity of S. cremoris Wg2.  相似文献   

9.
H Poth  P Youngman 《Gene》1988,73(1):215-226
A new cloning system for Bacillus subtilis was devised which makes use of a combination of Tn917-containing phage SP beta derivatives and Tn917-containing Escherichia coli-B. subtilis shuttle plasmids. This system allows the initial cloning of genes in single copy, via 'prophage transformation', with a selection for complementation of mutational defects in B. subtilis hosts and permits subsequent transfer of the cloned material by homologous recombination to low-copy and high-copy vectors that replicate in both B. subtilis and E. coli. Because cloned sequences are adjacent to pB322-derived DNA in the recombinant phages, inserts can also be 'rescued' directly from the phage DNA after digestion with appropriate restriction enzymes, circularization of the fragments by ligation and transformation of an E. coli recipient. Two genomic libraries of B. subtilis chromosomal Sau3A-generated partial-digest fragments in the size ranges of 5-8 kb and 8-10 kb were constructed and screened for the complementation of mutations aroI906, cysA14, dal-1, glyB133, metC3, purA16, purB33, thrA5, trpC2 and recE4. In all cases, specialized transducing phages carrying inserts that complemented the selected markers were recovered. Inserts complementing the dal-1 and trpC2 mutations could be transferred from recombinant phages to Tn917-containing plasmids by homologous recombination without in vitro subcloning. Another insert complementing the purB33 mutation was rescued directly into E. coli from a recombinant phage DNA.  相似文献   

10.
By use of the Bacillus subtilis bacteriophage cloning vehicle phi 105J23, B. subtilis chromosomal MboI fragments have been cloned that alleviate the pleiotropic effects of the recE4 mutation. The recombinant bacteriophages phi 105Rec phi 1 (3.85-kilobase insert) and phi 105Rec phi 4 (3.3-kilobase insert) both conferred on the recE4 strain YB1015 resistance to ethylmethane sulfonate, methylmethane sulfonate, mitomycin C, and UV irradiation comparable with the resistance observed in recE+ strains. While strain YB1015 (recE4) and its derivatives lysogenized with bacteriophage phi 105J23 were not transformed to prototrophy by B. subtilis chromosomal DNA, strain YB1015 lysogenized with either phi 105Rec phi 1 or phi 105Rec phi 4 was susceptible to transformation with homologous B. subtilis chromosomal DNA. The heteroimmune prophages phi 105 and SPO2 were essentially uninducible in strain YB1015. Significantly, both recombinant prophages phi 105Rec phi 1 and phi 105Rec phi 4 were fully inducible and allowed the spontaneous and mitomycin C-dependent induction of a coresident SPO2 prophage in a recE4 host. The presence of the recombinant prophages also restored the ability of din genes to be induced in strains carrying the recE4 mutation. Finally, both recombinant bacteriophages elaborated a mitomycin C-inducible, 45-kilodalton protein that was immunoreactive with Escherichia coli recA+ gene product antibodies. Collectively, these data demonstrate that the recE+ gene has been cloned and that this gene elaborates the 45-kilodalton protein that is involved in SOB induction and homologous recombination.  相似文献   

11.
Cloning and expression of the Escherichia coli recA gene in Bacillus subtilis   总被引:14,自引:0,他引:14  
W M de Vos  S C de Vries  G Venema 《Gene》1983,25(2-3):301-308
By means of homopolymer dG-dC tailing, using PstI linearized pBR327 as vector, we constructed small plasmids containing the entire Escherichia coli recA gene. The 1.8-kb inserts were recloned in the Bacillus subtilis expression vector pPL608 in a B. subtilis recE4 strain. Analysis of plasmid-coded proteins showed expression of the E. coli recA gene both in minicells and whole cells of B. subtilis. Expression was under control of the bacteriophage SP02 promoter, which is part of pPL608. A recA-expressing plasmid completely abolished the transformation deficiency of the recE4 mutant as well as its sensitivity to mitomycin C (MC). The expressed recA gene also restored recombination in other B. subtilis strains lacking the recE gene product. These results indicate a high similarity between the functions of the E. coli RecA and B. subtilis RecE proteins.  相似文献   

12.
The spoIID gene, which is involved in Bacillus subtilis sporulation, was fused to the beta-galactosidase gene, lacZ, of Escherichia coli so that the expression of beta-galactosidase would be under the control of the spoIID locus. When the fused product was inserted into the B. subtilis chromosome, production of beta-galactosidase indicated that the spoIID gene was expressed 1.5 h after the start of sporulation. When the spoIID::lacZ fusion was inserted into the chromosome of sporulation mutants, all strains carrying spo0 lesions and those with mutations in spoIIA, spoIIE and spoIIG loci failed to make beta-galactosidase. The proposed provisional order of expression of operons governing stage II is spoIIA----[spoIIG, spoIIE]----[spoIID, spoIIB, spoIIF].  相似文献   

13.
Two different replication determinants were found on an antibiotic resistance plasmid, pTB19, from a thermophilic bacillus. One replication determinant (designated RepA) was functional only in Bacillus subtilis, whereas the other (designated RepB) functioned in both B. subtilis and Bacillus stearothermophilus. A deletion plasmid, pTB90, carrying the RepB derived from pTB19 coincidentally contained the specific 1.0 MDal EcoRI fragment of a cryptic plasmid pBSO2 from B. stearothermophilus. The presence of this 1.0 MDal EcoRI fragment in various deletion plasmids from pTB90 increased transformation frequencies for B. stearothermophilus 10(3) to 10(4) times and lowered plasmid copy numbers in the host strain to about one-tenth of those found for plasmids lacking this fragment.  相似文献   

14.
Bacillus subtilis spo0H gene.   总被引:16,自引:15,他引:1       下载免费PDF全文
  相似文献   

15.
Iu N Zograf 《Genetika》1986,22(11):2583-2592
Recent data on regulation of gene activity in bacteria by substitution of RNA polymerase sigma subunits are reviewed. The htpR gene which controls the switch-on of the Escherichia coli heat-shock protein synthesis codes for sigma 32 subunit. sigma 32-containing RNA polymerase transcribes the heat-shock genes in vitro from specific promoters of no use for RNA polymerase containing the major sigma 70 subunit. Several minor sigma subunits have been found in Bacillus subtilis vegetative cells, in addition to the major sigma 55 subunit, differing in the specificity of promoter recognition. Many B. subtilis genes are controlled by tandemly located promoters recognized by RNA polymerases carrying different sigma subunits. sigma 29 subunit is encoded by spoIIG gene and is probably involved in the regulation of sporulation. Specific sigma subunits for transcribing "middle" or "late" genes are encoded by a number of phages.  相似文献   

16.
Regulation of stage II of sporulation in Bacillus subtilis   总被引:9,自引:0,他引:9  
  相似文献   

17.
We isolated a collection of chemotaxis mutants and characterized them for chemotactic phenotype and genotype. The mutations of most of these mutants mapped in the region between pyrD and thyA. However, the mutation in the gene specifying the chemotactic methyltransferase mapped very close to aroF. From a bank of phages containing Bacillus subtilis DNA we identified two lambda charon4 phages that contained genes specifying chemotactic functions. The inserted DNAs were removed by digestion with restriction endonuclease EcoRI and were found to share a 4.0-kilobase (kb) fragment. One of these DNAs also contained a 7.7-kb fragment, and the other also contained a 10.9-kb fragment. We identified mutants that were complemented by each fragment. The fragments were each ligated into plasmid pFH7 and were incorporated into lysogenic SP beta c2 or a deletion mutant of SP beta c2 in order to form transducing phages. The mutants in the collection containing mutations that mapped in the region between pyrD and thyA were tested for complementation by transducing phages containing the 4.0-kb fragment, the 7.7-kb fragment, the 4.0-kb fragment plus the 7.7-kb fragment, and the 10.9-kb fragment. A total of 24 mutants were complemented by the 4.0-kb fragment, 7 were complemented by the 7.7-kb fragment, 9 were complemented by the 4.0-kb fragment plus the 7.7-kb fragment, 15 were complemented by the 10.9-kb fragment, and 25 were complemented by none of the fragments.  相似文献   

18.
Bacteriophage cloning vector phi 105J27, the construction of which is described in an accompanying paper, has been used for shotgun cloning of sporulation genes in Bacillus subtilis. Various genomic libraries have been constructed and screened for the presence of recombinant phages capable of transducing strains containing sporulation (spo) mutations to Spo+. Of a total of 30 spo loci tested, transducing phages have been isolated for 23, more than half of the known spo loci. Included are nine loci (spo0D, spo0J, spoIIIA, spoIIIE, spoIIIF, spoIVF, spoVB, spoVH and spoVJ) that do not appear to have been cloned previously. Preliminary genetic characterization of some of the new clones by a rapid screening procedure has enabled the status of various sporulation loci to be clarified.  相似文献   

19.
The heat and UV light resistance of spores and vegetative cells of Bacillus subtilis BD170 (rec+) were greater than those of B. subtilis BD224 (recE4). Strain BD170 can repair DNA whereas BD224 is repair deficient due to the presence of the recE4 allele. Spores of a GSY Rec+ strain were more heat resistant than spores of GSY Rec- and Uvr- mutants. The overall level of heat and UV light resistance attained by spores may in part be determined by their ability to repair deoxyribonucleic acid after exposure to these two physical mutagens.  相似文献   

20.
A mutation in the lon (capR) gene of Escherichia coli K-12 effects several phenotypic alterations in the mutant cell, such as overproduction of capsular polysaccharide and sensitivity to ultraviolet or ionizing radiation. A previously cloned 9.2-megadalton (Md) EcoRI fragment contained the capR+ gene and specified two polypeptides, 94 kilodaltons (K) and 67K. To provide evidence that the 94K polypeptide is the capR+ gene product, we constructed a capR+ plasmid pJMC40, having a 2.0-Md EcoRI-PstI fragment which codes only for the 94K polypeptide. Plasmids pJMC22 and pJMC30, having deletions of 0.7 and 0.8 Md, respectively, from one end of the 2.0-Md fragment, were also constructed. Each codes for a shortened stable polypeptide (from the 94K). Neither plasmid can confer the capR+ phenotype to capR mutants, confirming that the unaltered 94K polypeptide is the capR+ gene product. Plasmids pJMC51 and pJMC52 each have a deletion of 0.7 Md from the other end of the 2.0-Md fragment, differing only in the orientation of the remaining 1.3-Md fragment with respect to the cloning vehicle. They are nonfunctional with respect to capR+ and do not code for a common polypeptide from the 1.3-Md fragment. These data indicate that the fragments in pJMC22 and pJMC30, which both code for shortened 94K polypeptides, contain the promoter-operator region of the capR gene. The deletion plasmids were also used to map chromosomal capR mutations.  相似文献   

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