Bacteriocin plasmids ofPediococcus acidilactici

Summary Pediococcus acidilactici strains E, F and H isolated from fermented sausages produced bacteriocins which were protein in nature and inhibitory to a variety of spoilage and pathogenic microorganisms often encountered in foods. These strains harbored two to three plasmids ranging in size from 7.4 to 40.2 megadaltons. Curing experiments and plasmid profile analysis indicated the involvement of plasmid DNA with bacteriocin activity in all three strains. Carbohydrate fermentation and antibiotic resistance phenotypes did not appear to be associated with bacteriocin plasmids. Both bacteriocin activity and resistance determinants were linked in strain H and mediated by a 7.4-megadalton plasmid, whereas in strains E and F these two traits were not linked.     

Application and evaluation of the phage resistance- and bacteriocin-encoding plasmid pMRC01 for the improvement of dairy starter cultures.

The conjugative 63-kb lactococcal plasmid pMRC01 encodes bacteriophage resistance and production of and immunity to a novel broad-spectrum bacteriocin, designated lacticin 3147 (M.P. Ryan, M.C. Rea, C. Hill, and R.P. Ross, Appl. Environ. Microbiol. 62:612-619, 1996). The phage resistance is an abortive infection mechanism which targets the phage-lytic cycle at a point after phage DNA replication. By using the genetic determinants for bacteriocin immunity encoded on the plasmid as a selectable marker, pMRC01 was transferred into a variety of lactococcal starter cultures to improve their phage resistance properties. Selection of resulting transconjugants was performed directly on solid media containing the bacteriocin. Since the starters exhibited no spontaneous resistance to the bacteriocin as a selective agent, this allowed the assessment of the transfer of the naturally occurring plasmid into a range of dairy starter cultures. Results demonstrate that efficient transfer of the plasmid was dependent on the particular recipient strain chosen, and while high-frequency transfer (10(-3) per donor) of the entire plasmid to some strains was observed, the plasmid could not be conjugated into a number of starters. In this study, transconjugants for a number of lactococcal starter cultures which are phage resistant and bacteriocin producing have been generated. This bacteriocin-producing phenotype allows for control of nonstarter flora in food fermentations, and the phage resistance property protects the starter cultures in industry. The 63-kb plasmid was also successfully transferred into Lactococcus lactis MG1614 cells via electroporation.     

一个含有乳链菌肽抗性基因的乳酸乳球菌质粒pTS50的鉴定

在添加乳链菌肽、乳糖及溴甲酚紫的M1 7选择培养基上 ,从 1 97个新鲜牛奶样品中筛选到 3株乳链菌肽抗性菌株 ,PCR扩增证实它们都含有乳链菌肽抗性基因。菌种生理生化特性鉴定及特异性 1 6SrDNAPCR扩增产物的序列测定结果表明这 3株菌都属于乳酸乳球菌乳酸亚种。质粒转化实验发现乳酸乳球菌乳酸亚种TS 1 640中的乳链菌肽抗性基因位于一个约47kb的大质粒pTS50上。BamHI、EcoRI、HindⅢ、NcoI、PstⅠ酶切分析和Southern杂交 ,进一步将乳链菌肽抗性基因定位于pTS50的一个约 1 9kbEcoRI酶切片段中     

Parameters associated with cloning in Actinobacillus actinomycetemcomitans

Characterization of virulence traits in Actinobacillus actinomycetemcomitans requires the application of recombinant DNA techniques. To develop appropriate genetic tools it is necessary to identify suitable host-vector systems. The current study assessed cloning parameters in A. actinomycetemcomitans for two previously described vectors, pDMG4 and pMMB67. It was determined that the maximum size of recombinant molecules that could be transferred to A. actinomycetemcomitans strain ATCC29522 via electroporation was 33 kb. The size limit for transformation of the same strain with ligation mixtures (direct cloning), however, was limited to 23-24 kb. Additional experiments included electroporation of various A. actinomycetemcomitans strains with plasmid DNA isolated from Escherichia coli and different A. actinomycetemcomitans sources. Differences in transformation efficiencies suggested the presence of a restriction modification system for pDMG4 in some strains of A. actinomycetemcomitans. Cloning of portions of the enterococcal plasmid pJH1 into A. actinomycetemcomitans resulted in the insertion of the intact vector into the chromosome.     

Amplification of the riboflavin operon genes of Bacillus subtilis in Escherichia coli cells]

Amplification of Bacillus subtilis DNA fragments was performed in Escherichia coli using plasmid RSF2124. The main principle of isolation and cloning hybrid plasmids was described using genes of riboflavin operon as a model. Bac. subtilis DNA was treated with restriction endonuclease EcoR; followed by the agarose gel electrophoretic separation of the resulting fragments. Gels were sliced, DNA was eluted from the corresponding slices and used to transform Bac. subtilis auxotrophs rib A72, rib S110 and rib D107. DNA fraction with the molecular weight 7 . 10(6) daltons restored prototrophy of these mutants. DNA of this fraction was ligated with EcoRI treated plasmid RSF2124 DNA and used for transformation of E. coli rk-mk+. Ampicillin resistant transformants which had lost the colicin production ability, were selected. The presence of riboflavin genes within the hybrid plasmids was detected by transformation of B. subtilis auxotrophs. Three hybrid plasmids (pPR1, pPR2 and pPR3), containing a fragment of Bac. subtilis DNA with the molecular weight 6.8 . 10(-6) daltons including riboflavin operon, were selected. The analysis of the transformation activity of Bac. subtilis DNA and plasmid pPR1 DNA revealed, that there was no restriction activity of Bac. subtilis cells against plasmid DNA amplified in E. coli. Heteroduplex analysis has shown that plasmids pPR1 and pPR2 differ in the orientation of Bac. subtilis DNA fragment. DNA of these plasmids restored prototrophy of the several studied E. coli riboflavin auxotrophs.     

Development of a method for heterologous gene expression in Enterobacter amnigenus, a potential host for the biological control of mosquito larvi

An integrative plasmid containing a 1.3 kb fragment of chromosomal DNA from Enterobacter amnigenus was constructed. The Omega fragment encoding spectinomycin/streptomycin resistance was cloned into the unique BglII site of the resulting plasmid, and the interrupted fragment was transferred via plasmid pMAK705 by electroporation into E. amnigenus with a selection for spectinomycin resistance. Cointegrants were resolved to generate an E. amnigenus strain that expressed spectinomycin resistance, but grew as rapidly as the parental strain. The cloned fragment encodes a putative homologue of the proW gene of Escherichia coli that is not essential for E. amnigenus growth. The integrative plasmid is now available to introduce any heterologous DNA into the E. amnigenus chromosome, for the construction of promoter-probe vectors for the studies of gene regulation, or to construct plasmids suitable for the isolation of secretion signals. Immediate applications of this system will include the expression and secretion of crystal toxins from bacilli for the biological control of mosquito larvae infected with the bacterial host.     

Genetic transformation of Clostridium botulinum hall a by electroporation

Summary A method was developed for the introduction of plasmids into Clostridium botulinum by electroporation. A 4.4 kb plasmid vector, pGK12, which contains genes for resistance to erythromycin (Em^r) and chloramphenicol (Cm^r) was electroporated into C. botulinum type A (Hall A). The highest transformation efficiency was obtained using midlog phase cells, 10% PEG 8000 as the electroporation solution, and 2.5 kV field strength. The transformation efficiency was highest (10³ transformants/g of DNA) when 1 g of plasmid DNA and 4 × 10⁸ CFU/ml of recipient cells were used. Plasmid DNA recovered from the transformants was indistinguishable from that introduced on the basis of restriction enzyme digestion and agarose gel electrophoresis.     

Plasmids in tributyltin-resistant bacteria from fresh and estuarine waters

Summary Twenty-six tributyltin (TBT)-resistant bacterial strains isolated from sediments were examined for the presence of plasmids. Plasmids of the size reported to carry metal resistance genes were not found in 15 of the strains, indicating that resistance does not have to be plasmid-mediated. Attempts to cure plasmid-containing strains using acridine organge, ethidium bromide, novobiocin or sodium dodecylsulfate, or by growth at elevated temperature were not successful, nor were plasmids transferred from TBT-resistant strains into TBT-sensitive organisms by electroporation. In a broth mating experiment however, plasmid pUM505, a conjugative plasmid known to encode chromium resistance inPseudomonas aeruginosa PAO1, was introduced into TBT-sensitiveBeijerinckia sp. MC-27 isolated from freshwater sediment. The TBT tolerance of theBeijerinckia sp. increased 100-fold, from 8.4 M TBT inBeijerinckia sp. MC-27 to 840 M TBT inBeijerinckia sp. MC-27 (pUM505) on solid medium. The plasmid was transferred at a frequency of approximately 6×10^–4. TBT-resistant transconjugants grew faster in media containing TBT and lost their enhanced TBT tolerance and the plasmid upon serial transfer in medium without TBT. Spontaneous mutants of the donorP. aeruginosa lost both TBT resistance and the plasmid. Therefore, TBT resistance in bacteria can be plasmid-mediated. To our knowledge, this is the first report that resistance to a tin compound can be plasmid-mediated.     

Transfer of a plasmid determining bacteriocin Bc-48 production and immunity, and response to sexual pheromones in Enterococcus faecalis S-48.

Production of bacteriocin Bc-48 by Enterococcus faecalis S-48 is encoded by the conjugative plasmid pMB1, which is approximately 90 kb and also responds to sex pheromones of E. faecalis OG1X. Mutants harboring deleted forms of this plasmid (pMB1-del, 75 kb) have lost both the phenotype Bc-48 (production and immunity) and the clumping response. The conjugal transfer of pMB1 to E. faecalis OG1X results in the acquisition by this strain of both bacteriocin production and immunity and also the clumping response. In the transconjugants isolated, the bacteriocinogenic trait is associated with a smaller plasmid (52 kb), which we call pMB1-1. The relationship among plasmids pMB1, pMB1-del, and pMB1-1 has been demonstrated by DNA hybridization. Plasmid pMB1-1 has been transferred with high frequency to E. faecalis mutants cured of Bc-48 production (carrying pMB1-del), conferring to them the Bc-48 trait and clumping response. In the transconjugants from a second mating, pMB1-1 and pMB1-del coexist without appreciable segregation.     

Isolation and characterization of large lactococcal phage resistance plasmids by pulsed-field gel electrophoresis

Abstract Five phage-resistant Lactococcus lactis strains were able to transfer by conjugation the lactose-fermenting ability (Lac⁺) to a plasmid-free Lac⁻ L. lactis strain. In each case, some Lac⁺ transconjugants were phage-resistant and contained one or two additional plasmids of high molecular mass, as demonstrated by pulsed-field gel electrophoresis. Plasmids pPF144 (144 kb), pPF107 (107 kb), pPF118 (118 kb), pPF72 (72 kb) and pPF66 (66 kb) were characterized: they are conjugative (Tra⁺), they confer a phage-resistant phenotype and they bear lactose-fermenting ability (Lactose plasmid) except for the last two. Plasmids pPF144, pPF107 and pPF118 resulted probably from a cointegrate formation between the Lactose plasmid and another plasmid of the donor strain, whereas pPF72, pPF66 and the Lactose plasmid were distinct in the corresponding transconjugants. Plasmids pPF72 and pPF66 produced a bacteriocin. At 30°C, the phage resistance conferred by the plasmids was complete against small isometric-headed phage and partial against prolate-headed phage, except for pPF107 whose phage resistance mechanism was totally effective against both types of phages, but was completely inactivated at 40°C. Restriction maps of four of the plasmids were constructed using pulsed-field gel electrophoresis.     

Transformation of commercial baker's yeast strains by electroporation

Summary We developed an electroporation protocol for transformation which was particularly optimized for commercial baker's yeast strains. The protocol is based on the standard BIORAD GENE PULSER/PULSE CONTROLLER machine. It works efficiently both for the introduction of standard multicopy plasmids (ARS and 2m based) and for integrative transformation. In particular we were able to transform genuine prototrophic baker's yeast strains with a 2m-based multicopy plasmid, carrying the dominant sulfometuron methyl resistance marker. For plasmids requiring the introduction of more than one copy for complementation, the transformation frequency was considerably lower. This suggests that transformation by the electroporation method introduces on average only one or a few copies of the transforming plasmid per cell.     

Elaboration of an electroporation protocol for large plasmids and wild-type strains of Bacillus thuringiensis

Aims:  To elaborate an effective electroporation protocol for large plasmids and wild type strains of Bacillus thuringiensis .
Methods and Results:  The effect of DNA desalting, wall-weakening agency, cell growth conditions, electroporation solutions, and electric fields on electroporation efficiency was evaluated to optimize electroporation conditions for B. thuringiensis . By using this improved method, the greatest efficiency was reached 2 × 10¹⁰ CFU  μ g⁻¹ with pHT304, which is 10⁴ times higher than previously reported. Four large plasmids (29·1, 44·9, 58 and 60 kb) were successfully transferred into the acrystalliferous B. thuringiensis strain BMB171; these results have not been achieved with previous protocols. Three wild type B. thuringiensis strains which could not be transformed previously were also transferred successfully.
Conclusions:  This improved method is more efficient for small plasmids; it is also appropriate for large plasmids and wild type B. thuringiensis strains which were not transformed by previous procedures.
Significance and Impact of the Study:  The present study established an effective electroporation protocol for large plasmids and wild type strains of B. thuringiensis . This method is well suited for the cloning and expression of huge DNA fragments such as gene clusters in B. thuringiensis . It also can be used as a reference method for other Bacillus strains that are refractory to electroporate.     

The cellular location and effect on nisin immunity of the NisI protein from Lactococcus lactis N8 expressed in Escherichia coli and L. lactis

Abstract Vibrio anguillarum and Pasteurella piscicida are Gram-negative bacteria which are pathogenic for marine fish and we report here the first successful transformation of these two bacteria by electroporation. The optimal conditions for electroporation included a field strength of 12.5 kV cm^t-1 and a time constant of 5 ms using 0.2-cm cuvettes. With these parameters, three plasmids (pSU2718, pCML, pEV3) with molecular sizes of 2.6, 5 and 13.7 kb, respectively were successfully transformed into both pathogens. V. anguillarum isolates belonging to serotypes O1 and O2 were transformed with greatest efficiency, 2.5 × 10³ transformants per μg DNA, being achieved in the serotype O2 strains using plasmid pCML. Strains of serotype O3 were not transformed. In the case of P. piscicida the maximum efficiency achieved was 9.8 × 10² transformants per μg pCML plasmid DNA. This optimized system will allow development of procedures for the genetic manipulation of these pathogens.     

Genomic analysis of Pediococcus starter cultures used to control Listeria monocytogenes in turkey summer sausage.

The pulsed-field technique of clamped homogeneous electric field electrophoresis was employed to characterize and size genomic DNA of three pediocin-producing (Ped+) and two non-pediocin-producing (Ped-) strains of Pediococcus acidilactici. Comparison of genomic fingerprints obtained by digestion with the low-frequency-cleavage endonuclease AscI revealed identical restriction profiles for four of the five strains analyzed. Summation of results for 10 individually sized AscI fragments estimated the genome length to be 1,861 kb for the four strains (H, PAC1.0, PO2, and JBL1350) with identical fingerprints. Genomic analysis of the pediocin-sensitive, plasmid-free strain P. acidilactici LB42 with the unique fingerprint revealed nine AscI fragments and a genome length of about 2,133 kb. Ped- (JBL1350) and Ped+ (JBL1095) starter cultures (one each) were used to separately prepare turkey summer sausage coinoculated with a four-strain Listeria monocytogenes mixture (ca. 10(5) CFU/g). The starter cultures produced equivalent amounts of acid during fermentation, but counts of L. monocytogenes were reduced to a greater extent in the presence of the Ped+ starter culture (3.4 log10 unit decrease) than in the presence of the Ped- starter culture (0.9 log10 unit decrease). Although no listeriae were recovered from sausages following the cook/shower, appreciable pediocin activity was recovered from sausages prepared with the Ped+ strain for at least 60 days during storage at 4 degrees C. The results of this study revealed genomic similarities among pediococcal starter cultures and established that pediocins produced during fermentation provide an additional measure of safety against listerial proliferation in turkey summer sausage.     

Plasmid-mediated bacteriocin production by Shigella flexneri isolated from dysenteric diarrhoea and their transformation into Escherichia coli

AIMS: To determine the production of bacteriocin by Shigella flexneri strains, to relate their production to the presence of dysenteric diarrhoea and to asses the genetic determination of the bacteriocin. METHODS AND RESULTS: One hundred and sixteen strains of Sh. flexneri were isolated from patients with diarrhoea and 49 of them produced bacteriocin active against several Escherichia coli and abacteriocinogenic Sh. flexneri strains. The extrachromosomal DNA isolated from bacteriocinogenic Sh. flexneri strains were used as a substrate to transform E. coli HB-101 cells by means of electroporation. CONCLUSIONS: Only the Sh. flexneri strains isolated from dysenteric diarrhoea produced bacteriocin. It was demonstrated that a plasmid of approx. 3 kb was responsible for the genetic determination of these anti-bacterial substances. Significance and IMPACT OF THE STUDY: A 3-kb plasmid that harboured information for the production of bacteriocin by Sh. flexneri strains was described. The production of this bacteriocin may be related to dysenteric diarrhoea produced by these bacterial strains.     

Development of a cloning system in Mycoplasma pulmonis

A system suitable for recombinant DNA manipulation in mycoplasmas was developed using the cloned antibiotic-resistance genes of Tn4001 and Tn916. An integrative plasmid containing one of the resistance markers was inserted into the genome of Mycoplasma pulmonis to form a recipient strain. This was accomplished by transformation and homologous recombination between chromosomal DNA sequences cloned onto the integrative plasmid. A second vector, the cloning vector, containing the same plasmid replicon and alternate resistance marker, carried cloned foreign DNA. When transformed into mycoplasmal recipients, homologous recombination between plasmid sequences resulted in integration of the cloning vector and foreign DNA. A Brucella abortus gene coding for a 31-kDa protein and the P1 structural gene and operon from Mycoplasma pneumoniae were introduced to examine the feasibility of developing mycoplasma as cloning hosts. Recombinant plasmids as large as 20 kb were inserted into M. pulmonis, and the integrated foreign DNA was stably maintained. The maximum size of clonable DNA was not determined, but plasmids larger than 22 kb have not been transformed into mycoplasmas using polyethylene glycol. Also the size of genome (800-1200 kb) may affect the stability of larger inserts of foreign DNA. This system is applicable to any mycoplasma capable of transformation, homologous recombination and expression of these resistance markers. Because of their lack of a cell wall, mycoplasmas may be useful cloning hosts for membrane or excreted protein genes from other sources.     

Genomic analysis of Pediococcus starter cultures used to control Listeria monocytogenes in turkey summer sausage.

The pulsed-field technique of clamped homogeneous electric field electrophoresis was employed to characterize and size genomic DNA of three pediocin-producing (Ped+) and two non-pediocin-producing (Ped-) strains of Pediococcus acidilactici. Comparison of genomic fingerprints obtained by digestion with the low-frequency-cleavage endonuclease AscI revealed identical restriction profiles for four of the five strains analyzed. Summation of results for 10 individually sized AscI fragments estimated the genome length to be 1,861 kb for the four strains (H, PAC1.0, PO2, and JBL1350) with identical fingerprints. Genomic analysis of the pediocin-sensitive, plasmid-free strain P. acidilactici LB42 with the unique fingerprint revealed nine AscI fragments and a genome length of about 2,133 kb. Ped- (JBL1350) and Ped+ (JBL1095) starter cultures (one each) were used to separately prepare turkey summer sausage coinoculated with a four-strain Listeria monocytogenes mixture (ca. 10(5) CFU/g). The starter cultures produced equivalent amounts of acid during fermentation, but counts of L. monocytogenes were reduced to a greater extent in the presence of the Ped+ starter culture (3.4 log10 unit decrease) than in the presence of the Ped- starter culture (0.9 log10 unit decrease). Although no listeriae were recovered from sausages following the cook/shower, appreciable pediocin activity was recovered from sausages prepared with the Ped+ strain for at least 60 days during storage at 4 degrees C. The results of this study revealed genomic similarities among pediococcal starter cultures and established that pediocins produced during fermentation provide an additional measure of safety against listerial proliferation in turkey summer sausage.     

Electro-transformation of Clostridium beijerinckii NRRL B-592 with shuttle plasmid pHR106 and recombinant derivatives

Conditions for transformation of the solventogenic anaerobe Clostridium beijerinckii NRRL B-592 with plasmid DNA via electroporation are described. Shuttle plasmid pHR106 and two derivatives constructed in this study were transferred and were expressed in this organism. One recombinant derivative of pHR106 was constructed by separately subcloning the clostridial tetracycline (tetP) resistance genes into pHR106. The second vector conferring erythromycin resistance was obtained via in-vivo recombination. The new constructs, termed pRZL and pRZE respectively, were then transferred to C. beijerinckii in order to evaluate their potential as shuttle vectors. The recombinant plasmids were shown to transfer to C. beijerinckii and were expressed as autonomously replicating vectors. The use of these plasmids as cloning and shuttle vectors for C. beijerinckii is discussed.Correspondence to: R. M. Zsigray     

Drug resistance of Enterococcus faecium clinical isolates and the conjugative transfer of gentamicin and erythromycin resistance traits

Drug resistance and the transferability of resistance were examined in 218 Enterococcus faecium clinical isolates obtained from in-patients of a Japanese university hospital between 1990 and 1999. One hundred and sixty one isolates (73.9%) were drug-resistant and 127 (58.2%) isolates were resistant to two or more drugs. Vancomycin resistant E. faecium (VRE) was not isolated. The transferability of drug-resistance to an E. faecium strain was examined by broth or filter mating. Six (12.5%) of the 48 gentamicin resistance traits, and fifty (50%) of the 101 erythromycin resistance traits were transferred by filter mating. The gentamicin resistance traits of five isolates and the erythromycin resistance traits of four isolates were transferred to the recipient strains by both broth mating and filter mating at a frequency of about 10(-6) and 10(-5) per donor cell, respectively. The five gentamicin resistant strains were shown to harbor pMG1-like plasmids on the basis of their Southern hybridization with pMG1 (65.1 kbp, Gm(r)), which transfers efficiently between enterococci by broth mating. Each of the four erythromycin resistant transconjugants obtained by broth mating harbored a large conjugative plasmid (more than 100 kbp). The plasmids showed no homology with well-characterized enterococcal conjugative plasmids such as pAD1, pPD1, pAM(beta)1, pIP501 and pMG1 by Southern hybridization. Of the erythromycin resistance traits that transferred only by filter mating, it was found that the erythromycin resistance trait was conferred by a 47-kbp transposable element that transferred from the chromosome of the donor strain to different sites within the pheromone responsive plasmid pAD1 (60 kbp) of the recipient strain, suggesting that the erythromycin resistance trait was encoded on a conjugative transposon, which was named Tn950.