Secretory expression in Escherichia coli and Bacillus subtilis of human interferon alpha genes directed by staphylokinase signals

Summary A DNA segment covering the signal sequence coding region, the ribosome binding site, and the promoter of the staphylokinase (sak) 42D gene (Behnke and Gerlach 1987) was cloned into pUC19 to form a portable expression-secretion unit (ESU). Fusion of human interferon α₁ (hIFNα₁) and hybrid hIFNα_1/2 genes to thissak ESU resulted in secretory expression of the two gene products in bothEscherichia coli andBacillus subtilis. While most of the IFNα was exported to the periplasmic space ofE. coli, about 99% was secreted to the culture medium by recombinantB. subtilis strains. The total yield inE. coli was 1.2×10⁵ IU/ml. This level of expression and export led to instability of the recombinant strains that was spontaneously relieved in vivo by inactivation of thesak ESU through insertion of an IS1 element. No such instability was observed withB. subtilis although expression and secretion levels reached even 3×10⁶ IU/ml. Proteolytic degradation of IFNα by extracellular proteases was avoided by a combination of constitutive expression and secretion during the logarithmic growth phase and the use of exoprotease-reduced host strains. The IFNα₁ protein purified fromB. subtilis culture supernatant was correctly processed, carried the expected 11 amino acid N-terminal elongation that resulted from DNA manipulations and proved to be homogenous in Western blotting experiments. The same recombinant plasmid that directed efficient secretion of hIFNα₁ inB. subtilis gave poor yields when introduced intoStreptococcus sanguis.     

Chromosomal location, cloning and nucleotide sequence of the Bacillus subtilis cdd gene encoding cytidine/deoxycytidine deaminase

Summary The Bacillus subtilis cdd gene encoding cytidine/2-deoxycytidine deaminase has been located by transduction at approximately 225 degrees on the chromosome, and the gene order rpC-lys-cdd-aroD was established. The gene was isolated from a library of B. subtilis DNA cloned in D69 by complementation of an Escherichia coli cdd mutation. Minicell experiments revealed a molecular mass of 14000 dalton for the cytidine deaminase subunit encoded by the cloned DNA fragment. The molecular weight of the native enzyme was determined to be 58000, suggesting that it consists of four identical subunits. The nucleotide sequence of 1170 bp, including the cdd gene, was determined. An open reading frame encoding a polypeptide with a calculated molecular mass of 14800 dalton was deduced to be the coding region for cdd. The deduced amino acid composition of the 136-amino acid-long subunit shows that it contains six cysteine residues. A computer search in the GenBank DNA sequence library revealed that the 476 bp HindIII fragment containing the putative promoter region and the first ten codons of cdd is identical to the P43 promoter-containing fragment previously isolated by Wang and Doi (1984). They showed that the fragment contained overlapping promoters transcribed by B. subtilis 43 and 37 RNA polymerase holoenzymes during growth and stationary phase.Abbreviations SDS sodium dodecyl sulphate - Ap ampicillin resistance - Tet^r tetracycline resistance - Km^r kanamycin resistance     

Cloning of the cyclomaltodextrinase gene fromBacillus subtilis high-temperature growth transformant H-17

The cyclomaltodextrinase gene fromBacillus subtilis high-temperature growth transformant H-17 was cloned on separatePstI,BamHI, andEcoRI fragments into the plasmid vector pUC18, but was expressed in an inactive form in the host,Escherichia coli DH5. High level constitutive expression of the gene product was also detrimental to theE. coli host, which led to structural instability of the recombinant plasmid. The cyclomaltodextrinase gene was cloned on a 3-kbEcoRI fragment into the plasmid vector pPL708, and the fragment was structurally maintained in the hostB. subtilis YB886. The cloned gene product was synthesized in an enzymatically active form in theB. subtilis host; however, expression was at a low level. Subcloning of the 3-kbEcoRI fragment into pUC18 and transformation intoE. coli XL1-Blue (FlacI^q) indicated that the cyclomaltodextrinase gene was cloned with its own promoter, since expression of the gene occurred in the absence of IPTG. Subcloning of the cyclomaltodextrinase gene downstream from theBacillus temperate phage SPO2 promoter of pPL708 may increase expression of this gene.Florida Agricultural Experiment Station Journal Series No. R-02177     

Cloning of a gene for maltohexaose producing amylase of an alkalophilic Bacillus and hyper-production of the enzyme in Bacillus subtilis cells

Summary The gene for maltohexaose producing amylase from an alkalophilic bacterium, Bacillus sp. # 707, was cloned in an Escherichia coli phage D69 and recloned in an E. coli plasmid pBR322 and a Bacillus subtilis plasmid pUB110, designated the resulting plasmids as pTUE306 and pTUB812, respectively. A common DNA region of approximately 2.5 kb was defined among the inserted DNAs. The enzymatic activity was lost when a part of the common region was deleted. The plasmids were stably maintained and the gene was well expressed in the bacterium, B. subtilis[pTUB812] which produced more than 70 times higher activity in the culture medium than did Bacillus sp. # 707. The major product of hydrolysis of starch by the enzymes of B. subtilis[pTUB812] and E. coli[pTUE306] was maltohexaose. The cloned gene corresponded to one of the genes for five components of malto-oligosaccharide-producing amylases of Bacillus sp. # 707.Abbreviations G1, G2, G3, G4, G5, and G6 glucose, maltose, maltotriose, maltotetraose, maltopentaose, and maltohexaose, respectively - kb kilobase pairs - kdal kilodalton - [] designated plasmid-carrier state     

Molecular cloning of Bacillus subtilis genes involved in DNA metabolism

Summary Different clones carrying a chromosomal DNA fragment able to transform Bacillus subtilis mutants dnaA13, dnaB19, dnaG5, recG40 and polA42 to a wild-type phenotype were isolated from a library constructed in plasmid pJH101. A recombinant clone carrying a chromosomal fragment able to transform dnaC mutants was obtained from a Charon 4A library. A restriction map of the cloned DNA fragments was constructed. The 11.3 kb cloned DNA fragment of plasmid pMP60-13 containing the wild-type sequence of dnaG5 was shown to transform a recF33 mutant as well.     

Overproduction and secretion of Bacillus circulans endo-β-1,3-1,4-glucanase gene (bglBC1) in B. subtilis and B. megaterium

A gene coding for endo--1,3-1,4-glucanase (lichenase) containing a recombinant plasmid, pLL200K, was transferred from Bacillus circulans into a new shuttle plasmid, pLLS920, by ligating linearized DNAs of pLL200K and pUB110. B. subtilis RM125 and B. megaterium ATCC14945 transformed with pLLS920 produced the endo--1,3-1,4-glucanase. The enzyme was produced during active growth with maximum activity. The B. subtilis (pLLS920) enzyme was 83 times (8522 mU ml^–1) more active than that of the gene donor cells (103 mU ml^–1). The B. megaterium (pLLS920) enzyme was 7 times (735 mU ml^–1) more active than that of the gene donor cells. While E. coli secreted only about 10% of the produced enzyme, B. subtilis excreted the enzyme completely into the medium and B. megaterium by about 98%. The plasmid pLLS920 was stable in B. megaterium (98%), and in B. subtilis (51%) but not in E. coli (29%).     

Molecular cloning and expression ofBacillus subtilis bglS gene inSaccharomyces cerevisiae

A 2.7-kb EcoRI DNA fragment carrying aBacillus subtilis endo--1,3-1,4-glucanase gene (bglS) from theE. coli plasmid pFG1 was cloned into anEscherichia coli/yeast shuttle vector to construct a hybrid plasmid YCSH. The hybrid plasmid was used to transformSaccharomyces cerevisiae, and thebglS gene was expressed. Variation between levels ofbglS gene expression inS. cerevisiae was about 2.3-fold, depending on the orientation of the 2.7-kb DNA fragment. Assay of substrate specificity and optimal pH of the enzyme demonstrated that the enzyme encoded by YCSH (bglS) was identical with that found inB. subtilis, but the expression level ofbglS gene inS. cerevisiae (YCSH) was much lower than that inE. coli (YCSH).     

Cloning of sporulation gene spoIVC in Bacillus subtilis

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.     

Cloning and analysis of DNA sequences from Streptomyces hygroscopicus encoding geldanamycin biosynthesis

A gene library constructed from large (20 kb) fragments of total DNA from the geldananmycin-producing strain Streptomyces hygroscopicus 3602 cloned in the plasmid vector pIJ61 were used to transform S. lividans TK24. Three transformants of about 800 tested were found to have acquired the ability to produce an antibiotic lethal to a geldanamycin-sensitive strain of Bacillus subtilis. The plasmids isolated from these transformants, pIA101, pIA102 and pIA103, each contained an insert of 15 kb. A 4.5 kb DNA fragment from the insert in pIA102 hybridised to DNA from S. hygroscopicus 3602 and to DNA encoding part of the erythromycin polyketide synthase but not to S. lividans TK24 DNA. The integration-defective phage vector C31 KC515 containing this 4.5 kb fragment was able to lysogenise S. hygroscopicus 3602 to produce lysogens defective in geldanamycin production. Loss of the prophage restored the ability to produce geldanamycin. Extracts of fermentation broth cultures of S. lividans containing pIA101, pIA102 and pIA102 and pIA103 analysed by thin-layer chromatography (TLC) contained compounds identical or very similar to purified geldanamycin, which were not present in S. lividans. These compounds showed a mass spectrum indistinguishable from geldanamycin. The evidence suggests that the clones contain DNA sequences encoding functions required for geldanamycin biosynthesis including components of the polyketide synthase.     

Structure and function of the region of the replication origin of the Bacillus subtilis chromosome

Summary A BamHI restriction endonuclease fragment, B7, which is replicated first among all other fragments derived from the Bacillus subtilis chromosome, was cloned in Escherichia coli using as vector a hybrid plasmid pMS102 that can replicate both in E. coli and B. subtilis. Digestion of pMS102 with BamHI produced two fragments and the smaller one was replaced by the B7 fragment.The cloned plasmid pMS102-B7 exhibited some peculiar properties that were not observed with plasmids containing other fragments from the B. subtilis chromosome. (1) E. coli cells harboring this plasmid stuck to each other and to glass. This property was more apparent when cells were grown in poor media. (2) E. coli cells tended to lose the plasmid spontaneously when they were grown without the selective pressure favorable to the plasmid. (3) The frequency of transformation of B. subtilis by pMS102-B7 was less than 1/1,000 of that by the vector plasmid pMS102. The number of copies of pMS102-B7 present in the transformants was also markedly reduced, although the pUB110 origin of replication on the vector was intact and should be functional in B. subtilis. This inhibitory effect of the B7 fragment on plasmid replication was confirmed more directly by developing a semi in vitro replication system using protoplasts.Both in E. coli and B. subtilis the B7 fragment affected replication of its own molecule but not that of the coexisting plasmid with an identical replication system. The implication of the function of the B7 fragment in the initiation of the B. subtilis chromosome will be discussed.     

Production of cyclomaltodextrin glucanotransferase of Bacillus circulans var. alkalophilus ATCC21783 in B. subtilis

Summary The cyclomaltodextrin glucanotransferase (CGTase, E.C. 2.4.1.19) gene from an alkalophilic Bacillus circulans var. alkalophilus ATCC21783 was cloned into Escherichia coli and B. subtilis. When cloned from E. coli to B. subtilis, the entire insert containing the CGTase gene was, depending on the plasmid construction, either unstable or the recombinant B. subtilis did not secrete the enzyme in significant amounts. To achieve efficient enzyme production in B. subtilis, the gene was placed under the control of the B. amyloliquefaciens -amylase promoter. In one of the constructions, both the promoter and the signal sequence of the gene were replaced with those of B. amyloliquefaciens, whereas in another construction only the promoter area was exchanged. The recombinant B. subtilis clones transformed with these plasmid constructions secreted CGTase into the culture medium 14 times as much as did the parental strain in shake flask cultures. In fermentor cultures in an industrially feasible medium the enzyme production was substantially higher, yielding 1.2 g/l of CGTase, which is about 33 times the amount of the enzyme produced by the parental strain in corresponding fermentations. Both of the plasmid constructions were stable when grown over 50 generations without antibiotic selection.     

Expression of a CaMV::sak-gusA-mgfp gene in tobacco plants

A gene encoding staphylokinase from Staphylococcus aureus was cloned into the plant transformation binary vector pCAMBIA1303. The presence of a CaMV::sak-gusA-mgfp gene in Agrobacterium was confirmed by polymerase chain reaction PCR. Tobacco seedlings were used as explants for Agrobacterium tumefaciens-mediated transformation with the pCAMBIA1303sak vector carrying the fusion gene construct CaMV::sak-gusA-mgfp and the expression of the fusion gene was identified in Nicotiana tabacum plants by β-glucuronidas assay. This revised version was published online in August 2006 with corrections to the Cover Date.     

Cloning and nucleotide sequence of a D,L-haloalkanoic acid dehalogenase encoding gene from Alcaligenes xylosoxidans ssp. denitrificans ABIV

We have cloned DNA fragments of plasmid pFL40 from Alcaligenes xylosoxidans ssp. denitrificans ABIV encoding a D,L-2-haloalkanoic acid halidohydrolase (DhlIV). A 6.5-kb EcoRI/SalI-fragment with inducible expression of the halidohydrolase was cloned in Pseudomonas fluorescens and Escherichia coli. A 1.9-kb HindII-fragment demonstrated expression of the dehalogenase only due to the presence of the promoter from the pUC vector in Escherichia coli. The nucleotide sequence of this DNA-fragment was determined. It had an open reading frame coding for 296 amino acid residues (molecular weight of 32783 D). The dhlIV gene showed sequence homology to a short segment of a D-specific dehalogenase (hadD) from Pseudomonas putida AJ1, but not to any other known DNA sequences. Restriction enzyme patterns indicated similarity between dhlIV and the D,L-isomer specific dehI dehalogenase gene from Pseudomonas putida PP3. There are some indications from restriction enzyme patterns and initial sequencing data, that a gene encoding a ⁵⁴ activator protein, similar to the dehR _Iregulatory gene from Pseudomonas putida PP3 is located upstream of dhlIV. In contrast to DehI, dehalogenation of D-or L-chloropropionic acid by the DhlIV-protein leads to lactic acid of inverted configuration.     

Cloning of the gene coding for chitobiase ofSerratia marcescens

Summary A λ phage DNA library ofSerratia marcescens was constructed and a clone carrying the gene coding for chitobiase (E.C.3.2.1.29) was isolated and characterized. Deletion analysis limited the cloned region to 4.5 kb that is capable of efficient expression of chitobiase.Escherichia coli cells harboring a plasmid carrying the cloned gene express chitobiase constitutively. The molecular weight of the protein is about 95000 daltons. In exponentially growingE. coli cells the chitobiase enzyme was found to be secreted into the periplasm.     

Characterization of the levanase gene of Bacillus subtilis which shows homology to yeast invertase

Summary The structural gene for the enzyme levanase of Bacillus subtilis (SacC) was cloned in Escherichia coli. The cloned gene was mapped by PBS1 transduction near the sacL locus on the B. subtilis chromosome, between leu4 and aroD. Expression of the enzyme was demonstrated both in B. subtilis and in E. coli. The presence of sacC allowed E. coli to grow on sucrose as the sole carbon source. The complete nucleotide sequence of sacC was determined. It includes an open reading frame of 2,031 bp, coding for a protein with calculated molecular weight of 75,866 Da, including a putative signal peptide similar to precursors of secreted proteins found in Bacilli. The apparent molecular weight of purified levanase is 73 kDa. The sacC gene product was characterized in an in vitro system and in a minicellproducing strain of E. coli, confirming the existence of a precursor form of levanase of about 75 kDa. Comparison of the predicted aminoacid sequence of levanase with those of the two other known -D-fructofuranosidases of B. subtilis indicated a homology with sucrase, but not with levansucrase. A stronger homology was detected with the N-terminal region of yeast invertase, suggesting the existence of a common ancestor.     

Involvement of DnaK protein in mini-F plasmid replication: temperature-sensitive seg mutations are located in the dnaK gene

Summary The seg mutants (seg-1 and seg-2) of Escherichia coli cannot support the replication of the F factor and mini-F plasmids at 42°C. We cloned the wild-type E. coli chromosomal DNA fragment complementing the seg-1 and seg-2 mutations and found that both mutations were complemented by the wild-type dnaK gene coding for a heat shock protein. Transduction with phage P1 indicated that the seg-2 mutation is located at about 0.3 min in the region containing the dnaK gene in the order trpR-thrA-seg-2-leuB, consistent with the locus of the dnaK gene. Cloning and sequencing of the dnaK gene of the seg mutants showed that there was one base substitution within the dnaK gene in each mutant causing an amino acid substitution. These results indicate that the seg gene in which the seg-1 and seg-2 mutations occurred is identical to the dnaK gene. The mini-F plasmid pXX325 did not transform a dnaK null mutant to ampicillin resistance at 30°C in contrast to plasmids pBR322, pACYC184 and pSC101, which did. The active dnaK (seg) gene product is therefore essential for replication of the mini-F plasmid at both 30° and 42°C.     

Nucleotide sequence, evolutionary origin and biological role of a rearranged cytokinin gene isolated from a wide host range biotype III Agrobacterium strain

Summary A DNA fragment with homology to the cytokinin (ipt) gene from biotype I Agrobacterium tumefaciens strain Ach5 was cloned from the Ti plasmid of the wide host range biotype III Agrobacterium strain Tm-4 and sequenced. The fragment contains an intact ipt coding sequence. However, the 3 non-coding region of this ipt gene is rearranged due to a 0.9 kb deletion fusing it to the 3 coding region of the neighbouring gene 6a, most of which was found to be deleted. The Tm-4 ipt gene is strongly related to the partially deleted ipt gene of the limited host range biotype III strain Ag162. To test its biological activity, the Tm-4 ipt gene was inserted into a specially constructed, disarmed Ti vector lacking tzs and tested on tobacco, where the rearranged ipt gene induced shoot formation. The cloned Tm-4 ipt gene was mutated with Tn5 and the intact gene on the wild-type Tm-4 Ti plasmid was replaced by the mutated gene. The resulting strain was avirulent on tobacco but normally virulent on the natural host of the wild-type strain Tm-4, grapevine. As the biotype 1 6b gene diminishes the effect of a corresponding ipt gene, a larger Tm-4 fragment carrying both the ipt gene and an adjacent 6b-like gene was also tested on tobacco and compared with the Tm-4 ipt fragment alone and with an ipt and 6b/ipt fragment derived from Ach5. The Tm-4 6b gene diminishes the effect of the Tm-4 ipt gene, showing the Tm-4 6b gene to be active as well. The Tm-4 6b/ipt combination is less effective than the Ach5 combination. These results provide further insight into the molecular basis of the host range differences between limited host range and wide host range biotype III Agrobacterium strains and show that the WHR cytokinin gene, although active, does not significantly contribute to tumour formation on the natural host of the WHR biotype III strains, grapevine.Abbreviations LHR limited host range - WHR wide host range - onc oncogenicity genes - iaaH indoleacetamide hydrolase gene - iaaM tryptophan monooxygenase gene - ipt isopentenyl transferase gene - tzs transzeatin secretion gene - NAA -naphthalene acetic acid - BAP 6-benzylaminopurine - Km kanamycin - Neo neomycin - Cm chloramphenicol     

Sensitivity to plating of Escherichia coli cells expressing the cryA gene from Bacillus thuringiensis var. israelensis

Summary The gene (cytA) coding for the 27 kDa polypeptide of the Bacillus thuringiensis var. israelensis mosquito larvicidal -endotoxin, was cloned into a plasmid containing the T7 bacteriophage promoter. The plasmid was used to transform an Escherichia coli strain containing the T7 RNA polymerase gene 1, under the control of lacP. Loss of colony-forming ability without substantial lysis, associated with immediate inhibition of DNA synthesis, was observed after induction of transformed cells. The cytA gene product may kill E. colicells by disrupting their chromosome replicating apparatus.     

Integration and excision of a plasmid in Bacillus subtilis

Summary We have studied the behaviour in Bacillus subtilis of a plasmid (pPV21) carrying the thymidylate synthetase gene of phage 3T (thyP3). The plasmid can transform efficiently the competent cells of all the strains tested. Polyethylene glycol (PEG)-mediated protoplast transformation is efficient only for recE, recD or recF mutants. When present in recombination proficient strains, the plasmid can be integrated into the chromosome, primarily at the thyA locus. This has been shown by genetic mapping and by blot-hybridization. A second less efficient site is at (or near to) the attachment site of phage 3T. Excision of the plasmid restores the EcoRI restriction pattern of the parental DNA, although with the loss of the defective thyA endogenotic allele and the retention of the thyP exogenotic gene.     

Site-directed insertion mutagenesis with cloned fragments in Escherichia coli by P1 phage transduction

Summary A cloned gene with an insertion, which was made by introducing cat, was ligated to the cloning site of the phage gt11. P1 phage grown on cells lysogenized with the recombinant phage could transduce the mutant gene into the original site on the Escherichia coli chromosome.