Studies of viable T4 bacteriophage containing cytosine-substituted DNA (T4dC phage)

Summary Digestion of non-glucosylated and cytosine-substituted T4 phage (T4dC) DNA with SalI restriction endonuclease showed that the DNA had nine SalI-sensitive sites. There were eight SalI sites in DNA from a strain which had a deletion in the rII-denB-ndd region. The comparison of two digestion patterns indicated that one of the SalI-sensitive sites was present in the deleted region and that the SalI-F fragment (8.4x10⁶ daltons) was located adjacent to the SalI-C or SalI-D fragment (15.5x10⁶ daltons) on the T4 chromosome. The DNA gave no detectable cleavage product when digested with BamHI endonuclease alone, while, when digested successively with BamHI and SalI, the DNA yielded two new digestion products in place of one fragment formed by SalI alone. The BamHI-sensitive site was in the SalI-A fragment (25.2x10⁶ daltons). The usefulness of this information for making cleavage maps of T4 phage chromosome is discussed.     

Construction of a trivalent candidate Shigella vaccine strain with host-vector balanced-lethal system

A trivalent liveShigella vaccine candidate FSD01 against S.flexneri 2a, S.sonnei and S.dysenteriae I was constructed. This candidate strain was based on the S.flexneri 2a vaccine T32. By homologous recombination exchange, the chromosomalasd gene of T32 was site-specifically inactivated, resulting in the strain unable to grow normally in LB broth, while anotherasd gene of S.mutans was employed to construct an Asd⁺ complementary vector. This combination ofasd ^- host/Asd⁺ vector formed a balanced-lethal expression system in T32 strain. By use of this system, two important protective antigen genes coding for S.sonnei Form I antigen and Shiga toxin B subunit were cloned and expressed in T32, which led to the construction of trivalent candidate vaccine FSD01. Experimental results showed that this strain was genetically stable, but its recombinant plasmid was non-resistant. Moreover, it was able to effectively express trivalent antigens in one host and induce protective responses in mice against the challenges of the above threeShigella strains.     

Physical characterization of the plasmid pON5300

Summary The antibiotic resistance plasmid Rldrd19Km-which has spontaneously lost its kanamycin resistance marker, and its derivative pON5300, were analysed using the restriction endonucleases SalI, BamHI, HindIII and EcoRI. The fragment patterns were compared with that of the Rldrd19 and the fragments responsible for kanamycin resistance were found to be missing in Rldrd19Km ^– and pON5300. In these plasmids a 7 Mg/mol EcoRI fragment was observed instead of the D (6.3 Mg/mol) fragment of Rldrd19. Further a new 6 Mg/mol EcoRI restriction fragment was observed in pON5300. Using double digestions it was shown that the new fragment does not carry restriction sites for HindIII, BamHI and SalI endonucleases. The non-homology of the analysed plasmid was proved electron microscopically by heteroduplex techniques. The possibility of amplification in the regulatory region for the expression of R-determinants in pON5300 is discussed.     

Restriction map of the antibiotic resistance plasmid R1drd-19 and its derivatives pKN102 (R1drd-19B2) and R1drd-16 for the enzymes BamHI, HindIII, EcoRI and SalI.

Summary The conjugative R plasmid R1drd-19, mediating antibiotic resistance to ampicillin (Ap), chloramphenicol (Cm), kanamycin (Km), streptomycin (Sm) and sulfonamides (Su) was mapped using the restriction endonucleases BamHI, HindIII, EcoRI and SalI. BamHI generates 5 fragments (A-E) with molecular weights between 46×10⁶ dalton (representing mainly the RTF) and 0.25×10⁶ dalton, and HindIII 8 (A-H) between 42×10⁶ dalton (representing the main part of the RTF) and 0.1×10⁶ dalton. EcoRI recognises 17 sites and produces fragments (A-Q) with molecular weights between 11.7 and 0.1×10⁶ dalton. SalI yields 7 fragments (A-G) of 16.5 to 2.0×10⁶ dalton.A physical map was constructed from fragments obtained by partial digestion of R1drd-19 with one restriction enzyme, by double and triple digestion of the DNA with two or three enzymes with and without isolation of individual bands from preparative gels. In addition the restriction patterns of several mutants of R1drd-19 were compared with it.Evidence is presented which indicates that the derivatives of R1 investigated are generated by extende deletions, namely the copy mutant pKN102 which has lost the Km resistance, R1 drd-16, which has lost all resistances other than Km and the Km^s derivative of R1drd-16, which represents the pure RTF. The map of R1drd-19 is remarkably different from those of R100 and R6-5. Its molecular weight was estimated to be 62.5 Md. The circular fragment order for BamHI is: A-C-B-D-E, for HindIII: A-D-C-B-F-H-E-G, for EcoRI: A-C-K-B-F-J-O-D-H-L-G-P-Q-N-I-E-M-and for SalI A-B-C-D-G-F-E.     

Physical characterization of plasmids from Streptomyces kasugaensis MB273

Plasmid DNA of molecular weight 6.8 × 10⁶ was isolated from Streptomyces kasugaensis MB273. The plasmid DNA showed a single CsCl-ethidium bromide density gradient centrifugation, in neutral sucrose gradient centrifugation, and in agarose gel electrophoresis. When this DNA was digested with BamHI or SalI endonucleases, an unexpected number of fragments were found on agarose gel electrophoresis. Molecular weight summation of fragments obtained from double restriction enzyme digestions suggested that the plasmid DNA was a mixture of two different plasmids. This was confirmed by constructing recombinant plasmids between S. kasugaensis plasmid DNA and pBR322, and then by isolating two plasmids after SalI endonuclease treatment followed by sucrose gradient centrifugation. One of the plasmids (pSK1) had a single recognition site for BamHI, EcoRI, and SalI, and three sites for BglII. The other plasmid (pSK2) had a single recognition site for EcoRI and BglII, two recognition sites for BamHI, and no cleavage site for SalI. The cleavage maps of these plasmids were constructed using several restriction endonucleases.     

The cloning and transposon Tn5 mutagenesis of the glnA region of Klebsiella pneumoniae: identification of glnR, a gene involved in the regulation of the nif and hut operons

Summary A 15 kilobase HindIII fragment of Klebsiella pneumoniae DNA containing the glnA gene was cloned into the plasmid vector pACYC184. The resulting plasmid, pFB51, complements glnA ^- mutations in Escherichia coli and K. pneumoniae. pFB51 also complements the GlnR phenotype of a Klebsiella pneumoniae gln regulatory mutant (KP5060) defined by the restoration of Hut⁺ and Nif⁺ (histidine utilization and nitrogen fixation) phenotypes to this strain. Three recombinant plasmids containing subsegments of the 15 kb HindIII fragment were derived from pFB51. Plasmid pFB514 which contains a spontaneous 4 kb delection of K. pneumoniae DNA from pFB51 is more stable than pFB51 and is still able to complement glnA ^- mutations and the GlnR^- phenotype of KP5060. Plasmids pFB53 and pFB54, which contain a 6.5 kb SalI DNA fragment from pFB51 recloned into pACYC184 in opposite orientations, complement glnA ^- mutations but not the GlnR^- phenotype of KP5060. Plasmids pFB514 and pFB53 were mutagenized by transposon Tn5 resulting in a total of 92 Tn5 insertions in the cloned fragments. Utilizing these insertion mutations, a correlated physical and genetic map was constructed by determining the physical location of each Tn5 insertion and by analyzing the ability of each Tn5 mutated plasmid to complement a glnA ^- strain of E. coli and a glnA ^- GlnR^- strain of K. pneumoniae. Two classes of Tn5 insertions with an altered Gln phenotpye were obtained. One cluster of insertions spanning a 1.3 kb region abolished complementation of the glnA ^- mutations. A second 2 kb cluster of Tn5 insertions, immediately adjacent to the first cluster, abolished the ability of pFB514 plasmid to complement the GlnR^- phenotype, while glnA ^- complementation was unaffected. We propose that the second cluster of Tn5 insertions define a DNA region coding for a positive regulatory factor for nitrogen fixation (nif) and histidine utilization (hut) genes (glnR).     

Molecular cloning with bifunctional plasmid vectors in Bacillus subtilis

Summary Cloning in Escherichia coli and Bacillus subtilis was carried out using the bifunctional plasmid pDH5060. B. subtilis chromosomal DNA and pDH5060 DNA were digested with either BamHI or SalI, then annealed, ligated, and transformed into E. coli SK2267. Transformants containing sequences ligated into the BamHI or SalI sites in the Tc^r gene of pDH5060 were selected directly using a modification of the fusaric acid technique. The BamHI and SalI clone banks contain about 250 and 140 B. subtilis fragments, respectively, with an average insert size of 8–9 Kbp in the BamHI and 4–5 Kbp in the SalI bank. The inserts ranged in size from 0.3 Kbp to greater than 20 Kbp. The vector used here therefore accepts inserts which are significantly larger than previously reported for other B. subtilis cloning systems. All individual cloned B. subtilis sequences examined were stably propagated in E. coli SK2267. Eight of eighteen B. subtilis auxotrophic markers tested (aroG, gltA, glyB, ilvA, metC, purA, pyrD, and thrA) were transformed to prototrophy with BamHI or SalI clone bank DNA. All or part of the hybrid plasmid DNA recombined at the sites of homology in the chromosome of these Rec⁺ recipients. Loss of sequences from hybrid plasmids was not prevented in a r ^- m ^- recE4 recipient strain of B. subtilis. Although the recE4 background prevented recombination between homologous chromosomal DNA, a variety of cloned fragments were shown to be unstable and undergo deletions of both insert and plasmid sequences. In addition, B. subtilis sequences propagated in E. coli transformed B. subtilis recE4 recipients with a 500-1,000-fold reduced efficiency.     

Construction of a trivalent candidateShigella vaccine strain with host-vector balanced-lethal system

A trivalent liveShigella vaccine candidate FSD01 against S.flexneri 2a, S.sonnei and S.dysenteriae I was constructed. This candidate strain was based on the S.flexneri 2a vaccine T32. By homologous recombination exchange, the chromosomalasd gene of T32 was site-specifically inactivated, resulting in the strain unable to grow normally in LB broth, while anotherasd gene of S.mutans was employed to construct an Asd⁺ complementary vector. This combination ofasd ^- host/Asd⁺ vector formed a balanced-lethal expression system in T32 strain. By use of this system, two important protective antigen genes coding for S.sonnei Form I antigen and Shiga toxin B subunit were cloned and expressed in T32, which led to the construction of trivalent candidate vaccine FSD01. Experimental results showed that this strain was genetically stable, but its recombinant plasmid was non-resistant. Moreover, it was able to effectively express trivalent antigens in one host and induce protective responses in mice against the challenges of the above threeShigella strains.     

Vicia faba chloroplast DNA has only one set of ribosomal RNA genes as shown by partial denaturation mapping and R-loop analysis

Summary Broad-bean (Vicia faba) chloroplast DNA (cpDNA) was isolated and characterized. The intact DNA is circular and has a molecular weight of 79.8x 10⁶ dalton. Electron microscopic analysis of self-annealed intact single-strand circles show that it does not have a large double-stranded inverse repeat as seen in spinach chloroplast DNA. Only one ribosomal RNA gene (one set of 16S and 23S rRNA sequences) was found in preparations of R-loops between the Vicia rRNA and cpDNA circles. A restriction enzyme map for SalI and KpnI was derived by comparing the partial denaturation pattern of the fragments with the pattern of the intact circle. The map was confirmed by gel analysis. The ribosomal RNA gene was localized on the SalI fragment 3b by R-loop analysis. SalI fragment 1a although it contains a G-C rich region did not form R-loops with rRNA. Partial denaturation patterns of spinach cpDNA circles and BglI fragments were determined and from this the position of the fragments mapped. This confirmed the reliability of these methods for the arrangement of restriction enzyme fragments along circular molecules. The structures of the two cpDNAs were compared.     

Construction of a promoter-probe vector for the methanol-utilizing bacterium acetobacter methanolicus MB 58

We report here the construction of a promoter-probe vector, pRS2, which can be utilized in either Acetobacter methanolicus MB 58 or Escherichia coli due to the presence of broad-host-range replicon RSF 1010. The vector provides several unique restriction sites for promoter cloning as well as resistance markers for the selection of transformants. The promoter-probe vector was constructed by inserting an EcoRI-SalI-polylinker fragment of pUC 19 into EcoRI/SalI digested pMK 16. The resulting plasmid, pRS1, was cloned into the unique EcoRI site of the broad-host-range plasmid RSF 1010. The vector was used to clone promoter-containing sequences derived from the A. methanolicus MB 58 chromosome as well as the E. coli lac-promoter.     

Sa/I restriction endonuclease maps of FII incompatibility group R plasmids.

SalI restriction endonuclease maps of FII incompatibility group R plasmids NR1, NR84, and R6 have been determined by sequential digestion of plasmid DNA with EcoRI and SalI and subsequent analysis of the fragments by electrophoresis on agarose gels. In the composite R plasmid NR1 there are five SalI sites, one in the r-determinants component and four in the RTF-Tc component. SalI cleavage of transitioned NR1 DNA, which contains tandem sequences of the r-determinants in a head-to-tail orientation, produces the five original bands plus a single new amplified band whose mobility on agarose gels corresponds to the monomer r-determinants DNA. NR84 has a total of four SalI sites. It is missing one of the SalI sites near the repA locus. R6 has five SalI sites, four the same as those of NR84, and one additional site within the Km transposon Tn601.     

Cloning and characterization of the gene for Salmonella typhimurium serine hydroxymethyltransferase

A plasmid containing the glyA gene of Salmonella typhimurium LT2 was constructed in vitro using plasmid pACYC184 as the cloning vector and a λgt7-glyA transducing phage as the source of glyA DNA. The recombinant plasmid (pGS30) contains a 10-kb EcoRI insert fragment. Genetic and biochemical experiments established that the fragment contains a functional glyA gene. From plasmid pGS30 we subcloned a 4.4-kb SalI-EcoRI fragment containing the glyA gene and its neighboring regions (plasmid pGS38). The location and orientation of the glyA gene within the 4.4-kb insert fragment was determined in four ways: (1) comparison of the physical map of the 4.4-kb SalI-EcoRI fragment with the physical map of a 2.6-kb SalI-PvuII fragment that carries the Escherichia coli glyA gene; (2) deletion analysis; (3) transposon Tn5 insertional inactivation experiments; (4) deoxyribonucleic acid sequencing and comparison of the S. typhimurium DNA sequence with the E. coli DNA sequence. A presumptive glyA-encoded polypeptide of M_r 47000 was detected using plasmid pGS38 as template in a minicell system, but not when the glyA gene was inactivated by insertion of a Tn5 element.     

Isolation of viable deletion mutants of Streptomyces actinophage (Pal 6) and their molecular characterization

Summary Deletion mutants of bacteriophage Pal 6 were isolated by successive treatments of either heat (60° C) or pyrophosphate (10 mM). These mutants were characterized by restriction enzyme cleavage analysis. The pyrophosphate resistant clones lost the whole Eco R1 fragment in which the Sal I site is located, as well as an unrelated Hind III fragment. These results show that the region containing the Sal I site in the phage genome is not essential for phage viability. This single Sal I site is therefore suitable as a potential insertion site for DNA cloning. On the other hand, the heat resistant clones that were isolated and characterized do not appear to have detectable deletions as indicated by their Eco R1 DNA digestion pattern.     

Establishment of an efficient <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated leaf disc transformation of <Emphasis Type="Italic">Thellungiella halophila</Emphasis>

Thellungiella halophila is a salt-tolerant close relative of Arabidopsis, which is adopted as a halophytic model for stress tolerance research. We established an Agrobacterium tumefaciens-mediated transformation procedure for T. halophila. Leaf explants of T. halophila were incubated with A. tumefaciens strain EHA105 containing a binary vector pCAMBIA1301 with the hpt gene as a selectable marker for hygromycin resistance and an intron-containing β-glucuronidase gene as a reporter gene. Following co-cultivation, leaf explants were cultured on selective medium containing 10 mg l⁻¹ hygromycin and 500 mg l⁻¹ cefotaxime. Hygromycin-resistant calluses were induced from the leaf explants after 3 weeks. Shoot regeneration was achieved after transferring the calluses onto fresh medium of the same composition. Finally, the shoots were rooted on half strength MS basal medium supplemented with 10 mg l⁻¹ hygromycin. Incorporation and expression of the transgenes were confirmed by PCR, Southern blot analysis and GUS histochemical assay. Using this protocol, transgenic T. halophila plants can be obtained in approximately 2 months with a high transformation frequency of 26%.     

Isolation and characterization of plasmid from the Bacillus brevis var. G.-B. cells

Summary The plasmid designated pAD1 was isolated from the cells of four variants of Bacillus brevis var. G.-B. The plasmid DNA has a molecular weight of about 47.1×10⁶ daltons and contains 43.4 mole % G+C. The bulk of pAD1 DNA (96–98%) is associated with the fraction of chromosome DNA and membranes.Restriction endonucleases SmaI, SalI and BamHI cleaved the plasmid DNA into two, two and six fragments, respectively. The cleavage map of the pAD1 genome has been constructed for these three endonucleases. Restriction enzymes EcoRI, HindIII, KpnI and PstI hydrolized the plasmid DNA into 16, 21, 10 and 9 fragments, respectively. The presence of repeated sequences in the plasmid genome was shown based on pAD1 DNA cleavage by these endonucleases.     

Physical and genetical characterisation of a second sex factor, SCP2, for Streptomyces coelicolor A3(2)

Summary Covalently closed circular (ccc) DNA of uniform monomer size (c. 18×10⁶ daltons) and restriction endonuclease cleavage pattern was isolated from strains of S. coelicolor A3(2) of differing constitution in respect of the SCP1 sex factor: SCP1⁺, SCP1, SCP1^- and NF (integrated SCP1). No such ccc DNA was found in strains of S. lividans 66 or S. parvulus ATCC 12434 whether or not they contained SCP1. These results confirmed that the 18×10⁶ dalton plasmid is not, and does not include, SCP1, which has not so far been isolated by any of a variety of methods.Genetic data served to identify a second sex factor, SCP2, postulated to be present in SCP2⁺ state in the starting strains and to be capable of mutation to a variant form, SCP2^*, with enhanced sex factor activity. From SCP2^* strains, SCP2^- cultures were isolated, at an average spontaneous frequency of about 0.8%. Crosses of pairs of SCP1^- SCP2^- strains were almost, but not completely, sterile; thus SCP1 and SCP2 probably contribute nearly all the fertility naturally occurring in the A3(2) strain. The two sex factors share the property of exerting an effect that may be comparable with lethal zygosis caused by F in E. coli: it is shown by SCP1-carrying strains against SCP1^-, or SCP2^* (but not SCP2⁺) strains against SCP2^- and is revealed as a narrow zone of growth inhibition surrounding the plasmid-carrying culture on a background of the appropriate plasmid-negative strain.Genetically defined SCP^2- strains lacked the ccc DNA found in SCP2⁺ and SCP2^* strains. Thus this DNA apparently represents the SCP2 sex factor. A preliminary restriction endonuclease cleavage map of SCP2 was constructed, with single sites for EcoRI and HindIII, four sites for SalPI (=PstI) and more than 20 sites for SalGI (SalI).     

Physical and genetic studies with restriction endonucleases on the broad host-range plasmid RK2

Summary The cleavage map of the plasmid RK2 was determined for the five restriction endonucleases EcoRI, HindIII, Bam H-I, Sal I and Hpa I. DNA has been inserted into several of these sites and cloned in Escherichia coli. Efforts to obtain derivatives of RK2 reduced in size by restriction endonuclease digestion of the plasmid were not successful and indicated that genes required for the maintenance of this plasmid in E. coli are not tightly clustered. An RK2 derivative possessing an internal molecular rearrangement was obtained by transformation with restriction endonuclease digests of the plasmid.     

Recombination-dependent recircularization of linearized pBR322 plasmid DNA following transformation of Escherichia coli

Summary Monomeric pBR322 DNA that had been linearized at its unique SalI site transformed wild-type Escherichia coli with 10² to 10³ times less efficiency than CCC plasmid DNA. Dose-response experiments indicated that a single linear plasmid molecule was sufficient to produce a transformant. Transformation with linearized pBR322 DNA was reduced 10 to 40 fold in recA ^–, recBC ^– or recF ^– backgrounds. In contrast, transformation with CCC DNA was unaffected by the rec status of the host. Transformation with linear pBR322 DNA was increased 3-fold in a DNA ligase-overproducing (lop11) mutant and decreased to a similar degree by transient inactivation of ligase in a ligts7 mutant.A proportion (ranging from about 9% in the wild-type to 42% in a recBC, lop11 mutant) of the transformants obtained with SalI-linearized pBR322 monomeric DNA contained deleted plasmids. Deletion rates were generally higher in rec ^– strains. Dephosphorylation of the termini on linear DNA or the creation of blunt-ended pBR322 molecules (by end-filling the SalI 5 protrusions or by cleavage with PvuII) decreased the transformation frequencywhilst increasing the deletion rate.Linear pBR322 dimeric DNA gave transformation frequencies in recA ⁺ and recA ^– strains that were reduced only 3 to 7 fold respectively relative to frequencies obtained with dimeric CCC DNA. Furthermore, in contrast to transformation with linear monomeric DNA, deletions were not observed.We propose that the majority of transformants arise, not by simple intracellular reannealing and ligation of the two cohesive SelI-termini of a linear molecule, but by intramolecular recombination. Deleted plasmids could be generated therefore during recyclization caused by recombination between short directly repeated sequences within a pBR322 monomer. We suggest that perfectly recircularized monomeric pBR322 molecules, which are found in the majority of transformants, arise primarily by intramolecular recombinational resolution of head-to-tail linear pBR322 dimers. Such linear oligomeric forms are created during preparation of linearized plasmid DNA by annealing of the SalI cohesive termini and constitute a variable proportion of the total molecules present.     

Construction of Broad Host Range Cloning Vectors for Gram-negative Bacteria

A new cloning vector, pMFY31, has been constructed based on the high-copy-number, broad-host-range plasmid RSF1010. The plasmid has a size of 13.2 kb and carries the Ap^r, Cm^r, and Tc^r genes. It contains unique PstI, EcoRI, HindIII, BamHI, and SalI sites, all of which are located within the antibiotic resistance genes, therefore all sites are applicable to insertional inactivation. We also constructed pMFY40, a 11.6 kb derivative of pMFY31, by the elimination of the Cm^r gene. Plasmid pMFY31 has been efficiently introduced into a Pseudomonas putida strain not only by plasmid-DNA transformation but also by conjugal co-transfer with the helper plasmid, and was maintained stably in the strain.     

Cloning and expression of the ilvB gene of Escherichia coli K-12

Summary A plasmid containing theilvB operon, which codes for acetohydroxy acid synthase I ofEscherichia coli K-12, was isolated using a ligated mixture of DNA from plasmid pBR322 and F'ilvB4 treated with endonucleaseSalI. A shortened derivative of this plasmid was isolated by cloning a 3.4 kb bacterial fragment into plasmid pKEN005 to yield plasmid pTCN12. The orientation of theilvB operon relative to plasmid genes was determined by restriction enzyme mapping. Measurement of the level of the product of theilvB gene, acetohydroxy acid synthase I, indicated that plasmid pTCN12 contained a functionalilvB promoter and control region. The DNA from this plasmid was used as a probe to show that the rate of synthesis ofilvB mRNA was proportional to the levels of acetohydroxy acid synthase I.