Overproduction of E. coli xylose isomerase

Summary A promoterles DNA fragment containing theE. coli xylose isomerase gene and its ribosome binding site was ligated into a plasmid downstream from the strong P_L promoter. The plasmid was then used to transformE. coli strains containing a temperature-sensitive repressor (cI857). The transformants overproduced xylose isomerase when the repressor was thermally inactivated.     

Site-specific integration of the phage ΦCTX genome into the Pseudomonas aeruginosa chromosome: characterization of the functional integrase gene located close to and upstream of attP

The site-specific integration of the phage CTX genome, which carries the gene for a pore-forming cytotoxin, into the Pseudomonas aeruginosa chromosome was analysed. The 1,167 by integrase gene, int, located immediately upstream of the attachment site, attP, was characterized using plasmid constructs, harbouring the integration functions, and serving as an integration probe in both P. aeruginosa and Escherichia coli. The attP plasmids p1000/p400 in the presence of the int plasmid pIBH and attP-int plasmids pINT/pINTS can be stably integrated into the P. aeruginosa chromosome. Successful recombination between the attP plasmid p1000 and the attB plasmid p5.1, in the presence of the int plasmid pIBH in E. coli HB101 showed that the int gene is active in trans in E. coli. The int gene product was detected as a 43 kDa protein in E. coli maxicells harbouring pINT. Proposed integration arm regions downstream of attP are not necessary for the integration process. pINT and phage CTX could be integrated together into P. aeruginosa chromosomal DNA, yielding double integrates.     

A new type of insertion mutation in monkey cells: insertion accompanied by long target site duplication

Summary We have developed a system for the detection of a new type of insertion mutation in mammalian cells. We have used a shuttle vector, plasmid pNK1, which contains the SV40 and pBR322 replication origins, and Ap^R, galK, and neo ^R genes. This plasmid was introduced into monkey COS1 cells, allowed to replicate, and then recovered plasmids were reintroduced into Escherichia coli HB101 to detect insertion mutations in the galK gene. We selected galK ^– KM^R Ap^R mutants in order to eliminate galK ^– Km^S deletion mutants. Insertion mutations in the plasmids recovered were then screened by agarose gel electrophoresis. Finally, insertion mutants that had the following characteristics were selected. First, they had the ability to produce gal⁺ revertants caused by the precise excision of inserted DNA in E. coli, implying that they had a target site duplication on both sides of the insertion. Second, they contained some repetitive sequence(s) as judged by hybridization with a bulk monkey DNA probe. Nucleotide sequence analysis of one of the mutants, 15K-1, showed that it contained -satellite sequences within the coding region of the galK gene. It contained tandem repeat units of -satellite sequence and was flanked by a 64 bp target site duplication, indicating that the -satellite sequence had been translocated from the monkey genome into the plasmid by illegitimate recombination. Another insertion mutant, N11-1, contained an 11 kb insert which included an unknown repetitive sequence that was also flanked by a target site duplication of 353 bp. Since both of the insertion mutations contain long target site duplications, we concluded that the insertion mutations detected here are a new type of insertion mutation. A model for the formation of the insertion-duplication mutation is proposed, in which DNA replication plays a role in this illegitimate recombination.     

Resistance to hygromycin B

Summary A bacterial gene encoding hygromycin phosphotransferase has been modified for expression in tobacco cells. The aphIV gene from Escherichia coli was inserted between the 5 sequence of an octopine synthase gene and the 3 sequence from a nopaline synthase gene. The new gene was incorporated between T-DNA border fragments in the broad-host-range vector pKT210 to form a micro-Ti plasmid. Agrobacterium tumefaciens containing this plasmid and a Ti plasmid as helper was used to incite crown gall tumors on aseptic tobacco plants. Samples of these galls could grow in the presence of hygromycin B, provided that the aph gene had been fused with the ocs gene to maintain the sense of the coding sequences. When the genes had been fused in the reverse antisense orientation none of the gall samples could grow on hygromycin. Unlike wild-type galls the hygromycin-resistant tissue contained DNA sequences homologous to the aphIV gene. Thus the modified gene can be introduced into tobacco cells and confer on them the ability to grow in the presence of hygromycin B.     

Introduction of genes for leucine biosynthesis from Clostridium pasteurianum into C. acetobutylicum by cointegrate conjugal transfer

Summary A Clostridium pasteurianum gene bank was constructed in Escherichia coli, using plasmid pAT153, and several chromosomal fragments found which complemented both leuB and leuC mutations in auxotrophic E. coli K12 strains. No fragments capable of complementing leuA or leuD mutations were identified. Conjugal transfer of the LeuB/leuC genes from Bacillus subtilis into two different Leu^- C. acetobutylicum auxotrophic strains was elicited by their incorporation into a large plasmid cointegrate composed of the conjugal plasmid pAM1 and a specially constructed gram-positive, replication-deficient plasmid, pMTL21 EC. Inheritance of the cointegrate plasmid restored one of the auxotrophic C. acetobutylicum strains to prototrophy. The second strain remained Leu^-.     

Electroporation and stable maintenance of plasmid DNAs in a biocontrol strain of Pseudomonas syringae

Transformation efficiencies as high as 10⁷ transformants g^–1 DNA have been previously reported for pseudomonads using electroporation protocols established for E. coli with plasmid DNAs prepared from methylation proficient E. coli hosts. We report here a protocol for electroporation of plasmid DNAs into a biocontrol strain of Pseudomonas syringae which could not be electroporated by standard E. coli methods. Transformation efficiencies of 10⁷ or higher were obtained with DNA recovered from initial P. syringae transformation or with DNA prepared from methylation deficient E. coli. Both plasmids used in this study were stably maintained in the absence of selection for at least 50 generations.     

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.     

Cloning of mglB, the structural gene for the galactose-binding protein of Salmonella typhimurium and Escherichia coli

Summary From libraries of EcoRI fragments of Salmonella thyphimurium and Escherichia coli DNA in gt7, phages could be isolated that carry mglB, the structural gene of the galactose-binding protein as well as other mgl genes. Lysogenization of an E. coli mutant carrying a defective galactose-binding protein with gt7 mglB (Salmonella) restores full galactose transport and galactose chemotaxis. Both the E. coli mutant protein as well as the wild-type Salmonella galactose-binding protein are synthesized in this strain. The EcoR1 fragments of both organisms carrying the mgl genes were 6 Kb long. They were subcloned into the multicopy plasmid pACUC184. The hybrid plasmid containing the Salmonella mgl DNA gives rise to the synthesis of large amounts of galactose-binding protein in the periplasm of E. coli. The protein can be precipitated by antibodies against the E. coli binding protein and is identical to the fully processed protein isolated from Salmonella typhimurium LT2. In vitro protein synthesis (Zubay-system) with either gt7 mgl phages as well as the hybrid plasmid as DNA matrix produces the galactose-binding protein mainly in precursor form that is precipitable by specific antibodies.     

Improvement of plasmid encoded lactococcal bacteriophage resistance by mutator strain Epicurian coli XL1-Red

A random mutation strategy using mutator strain, Epicurian coli XL1-Red, was applied to a plasmid, pND018, constructed by inserting a Lactococcus lacis bacteriophage resistance gene (abiI) into a L. lactis/E. coli shuttle vector (pDL278), to introduce random mutations throughout the plasmid. Following transformation of the mutated plasmid library to a plasmid free and phage sensitive strain of L. lactis (LM0230), mutated plasmids were screened by cross-streaking and efficiency of plaquing (EOP) assays. Two strains with enhanced resistance were obtained, as well as several phage sensitive strains. Repeated transformation of the mutated plasmids to LM0230 confirmed that the observed phenotypes were caused by mutations located on the plasmids. The EOP values and plaque morphology of two enhanced phage resistance mutants were characterized at 30°C and 37°C. These results indicate that this simple procedure can be applied to generate modified plasmids with improved phage resistance, which may be of commercial value.     

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).     

A bifunctional plasmid carrying the recA gene of E. coli

Summary To investigate the effect of an active, plasmid-carried recA gene on the stability and/or the expression of plasmid genes in different genetic backgrounds, we have constructed a bifunctional plasmid (able to replicate in Escherichia coli and in Bacillus subtilis). Chimeric plasmids were obtained by inserting pC194 (Ehrlich 1977) into pDR1453 (Sancar and Rupp 1979). pDR1453 is a 12.9 Kbp plasmid constructed by inserting an E. coli chromosome fragment carrying the recA gene into pBR322. The expected bifunctional recombinant (pMR22/1) (15.7 Kbp) was easily obtained but surprisingly the Cm resistance was expressed only at a very low level in E. coli (as compared, for example, to pHV14, pHV15). We attribute this effect to the presence of multiple recA genes in the cell. On the contrary, Cm^r E. coli transformants bear a recombinant plasmid (pMR22/n) containing tandemly repeated copies of pC194 in equilibrium with excised free pC194. Such amplification has never been observed in a Rec^- background and is therefore mediated by the recA genes. Growth of these clones in the absence of Cm causes the loss of the extra copies, yielding a plasmid with a single copy of pC194, indistingishable from pMR22/1. Interestingly, we have observed that deletions occur at high frequency in pC194, which drastically increase Cm^r in E. coli containing plasmids with a single copy of pC194. Two types of such deletions were detected: (a) large 1050 bp deletions covering about onethird of pC194 and (b) small 120–150 bp deletions (near the MspI site) in the region containing the replicative functions of pC194 (Horinouchi and Weisblum 1982). Both types of deletion render the recombinant plasmid unable to replicate in B. subtilis. pM22/1 replicates, although with a low copy-number, and is stable in B. subtilis wild type; the recA gene of E. coli does not complement any of the rec ^- mutations of B. subtilis. A strong instability, mainly of the E. coli and pBR322 sequences, was observed in many dna and rec mutants of B. subtilis yielding smaller plasmid with a much higher copy-number.     

A DNA segment within the colicin E1 structural gene on ColE1 affecting immunity to colicin

Summary Insertion of DNA at the EcoRI site of ColE1 results in increase of immunity to colicin killing in E. coli harboring such recombinant ColE1 plasmid as compared to E. coli (ColE1). This effect is neither due to cis or trans interactions originating from the inserted foreign DNA fragment, nor to changes in plasmid copy number. This defect in the immunity mechanism is not trans complemented for by wild type ColE1. Increase in immunity can also be obtained by deleting a DNA segment from the ColE1 genome. This segment is 120 bp left to the EcoRI site within the colicin structural gene. It is concluded that the structure of DNA per se, around the EcoRI site, within colicin structural gene, is the structure which affects immunity expression.     

Glutathione production by Escherichia coli cells with hybrid plasmid containing tandemly polymerized genes for glutathione synthetase

Summary A DNA fragment containing the structural and promoter regions of glutathione synthetase (GSH II) gene (gsh II) from Escherichia coli B were polymerized. The dimeric and trimeric DNA fragments obtained were inserted into Bam HI site of vector plasmid pBR325 and the resulting hybrid plasmids were designated pGS401-02 and pGS401-03, respectively. The GSH II activity of E. coli cells with these hybrid plasmids increased depending on the number of the genes (gsh II) contained. To construct hybrid plasmids useful for glutathione production, another DNA fragment with a gene (gsh I) for -glutamylcysteine synthetase (GSH I) from E. coli B was inserted into Pst I sites of pGS401-02 and pGS401-03 and the hybrid plasmids obtained (pGS501-12 and pGS501-13, respectively) were introduced into E. coli B cells. Although the glutathione-producing activities of the cells with these plasmids were little improved as compared with that of cells with the hybrid plasmid (pGS501-11) containing both gsh I and gsh II because of the low activity of GSH I, our method has brought to light a new type of gene amplification.     

Escherichia coli mutants temperature-sensitive for DNA synthesis

Summary A series of mutants of E. coli temperature-sensitive for DNA synthesis has been studied. The temperature-sensitive DNA mutations map in seven distinct genetic loci most of which have not been previously reported. Mutations in dnaA and in dnaC affect the initiation of DNA replication; those at the remaining loci affect chain elongation. A temperature-sensitive Flac is shown to suppress a group A mutant with somewhat less efficiency than other F factors previously reported by others. The gene products rendered temperaturesensitive by the mutations have not been identified for any of the loci.     

A general method for the construction of Escherichia coli mutants by homologous recombination and plasmid segregation

Summary A technique is presented by which mutations can be introduced into the Escherichia coli chromosome by gene replacement between the chromosome and a plasmid carrying the mutant gene. The segregational instability of plasmids in E. coli is used with high efficiency to isolate E. coli mutants. The method should be applicable to construction of mutants for any E. coli chromosomal gene provided it is dispensable, and for any E. coli strain provided it is capable of homologous recombination. The use of the method was demonstrated by constructing E. coli mutants for the glycogen branching enzyme gene (glgB) and the -galactosidase gene (lacZ). The results show that recombination occurs via a reciprocal mechanism indicating that the method should, in a slightly modified form, also be useful in transferring chromosomal mutations onto multicopy plasmids in vivo.     

Transfer and expression of a Bacillus licheniformis α-amylase gene in Zymomonas mobilis

The gene from Bacillus licheniformis coding for a thermostable -amylase was subcloned into the broad-host-range plasmid pKT210 in Escherichia coli. The recombinant plasmid pGNB6 was transferred into Zymomonas mobilis ATCC 31821 by conjugation. Plasmid pGNB6 was stably maintained in E. coli and unstable in Z. mobilis. The amylase gene was expressed in Z. mobilis at a lower level (25%) than in E. coli and regulation of enzyme biosynthesis was different in the host cells. Almost all the -amylase activity was recovered in the culture medium of Z. mobilis. This enzyme localization seemed to be the result of protein secretion rather than cell lysis. Integration of the amylase gene into a cryptic plasmid of Z. mobilis was observed. The amylase gene was still expressed, although at a lower level, and the -amylase activity, associated with a protein of molecular mass 62,000 daltons, was immunologically identical in Z. mobilis, E. coli and B. licheniformis.     

Molecular cloning of a gene which regulates the adaptive response to alkylating agents in Escherichia coli

Summary The ada ⁺ gene of E. coli is a regulatory gene of the adaptive response to simple alkylating agents. ada mutants are sensitive to both the mutagenicity and toxicity of alkylating agents, and are unable to induce O⁶-methylguanine DNA methyltransferase and 3-methyladenine DNA glycosylase II. The ada ⁺ gene was cloned from wild type E. coli B by ligating bacterial DNA partially digested with Sau3A into the cosmid vector pJB8. The hybrid cosmid, pCS33, conveyed N-methyl-N-nitro-N-nitrosoguanidine resistance to ada mutants of E. coli B and E. coli K12, and resulted in the constitutive synthesis of the two DNA repair enzymes at high levels. An alk mutation, which results in a deficiency of only the DNA glycosylase, was not complemented by this cosmid. It was concluded that the product of the ada ⁺ gene is a positive regulator of the adaptive response. The cosmid insert DNA was subcloned into the plasmid vector pAT153, and the ada ⁺ plasmids pCS42 and pCS58 selected. The ada ⁺ gene located in PCS58 by transposon mutagenesis and subcloning. Two polypeptides of Mr 37,000 and 27,000, were identified in maxicells as products of the ada ⁺ gene(s). It is as yet unclear whether they represent different forms of the same gene product, or are encoded by separate ada ⁺ genes within the same operon.     

Plasmid pAO1 of Arthrobacter oxidans encodes 6-hydroxy-D-nicotine oxidase: cloning and expression of the gene in Escherichia coli

Summary The 160 kb plasmid pAO1 from Arthrobacter oxidans (Brandsch and Decker 1984) was subcloned in Escherichia coli with the aid of the plasmid vectors pUR222 and pBR322. Screening of the recombinant clones for enzyme activity revealed that the flavoenzyme 6-hydroxy-d-nicotine oxidase (6-HDNO), one of the enzymes of the nicotine-degradative pathway in A. oxidans, is encoded on pAO1. Immunoprecipitation of ³⁵S-methionine-labelled E. coli cells with 6-HDNO-specific antiserum and expression of recombinant plasmid DNA in E. coli maxicells revealed that 6-HDNO is made as a 52,000 dalton protein, approximately 4,500 daltons larger than 6-HDNO from A. oxidans. The 6-HDNO activity was constitutively expressed in E. coli cells, possibly from an A. oxidans promoter, as shown by subcloning of the 6-HDNO gene in pBR322, using the expression vector pKK223-3 and the promoter probe vector pCB192.     

Development of a transformation system forTrichoderma longibrachiatum and its use for constructing multicopy transformants for theegl1 gene

An efficient transformation system for the fungusTrichoderma longibrachiatum has been developed. Transformation was obtained both by electroporation and polyethyleneglycol treatment, using a plasmid carrying theEscherichia coli hygromycin B phosphotransferase gene as a dominant selectable marker. The transformation frequency was 0.5 to 5 transformants /g plasmid DNA. Transformation normally occurred by tandem integration of the transforming DNA. A high percentage of the transformants were mitotically unstable. The efficiency of co-transformation was very high (around 90%), and several co-transformants containing multiple copies of theegll gene encoding a -(1,4)-endoglucanase were obtained. Some of them secrete increased levels of endoglucanase to the culture medium. In addition, theE. coli lacZ gene was expressed in an active form under control of theAspergillus nidulans gpdA gene promoter.