A specific marker,pat, for studying the fate of introduced bacteria and their DNA in soil using a combination of detection techniques

A specific eucaryotic DNA marker from Solanum tuberosum cv Bintje (688 bp patatin cDNA fragment) was cloned into the unique HindIII-site of plasmid RP4. RP4:: pat was transferred from Escherichia coli to Pseudomonas fluorescens R2f by filter mating.Homology to pat was not detected in the microbial population of Ede loamy sand soil, nor in that of the rhizosphere of wheat growing in this soil, as evidenced by colony filter hybridization. More sensitive molecular detection techniques like most-probable-number recovery/hybridization analysis, and analysis of total community DNA from soil by polymerase chain reaction (PCR) amplification did not reveal the presence of the pat sequence either. P. fluorescens R2f (RP4:: pat), introduced into sterile soil extract microcosms, initially showed poor survival and plasmid loss, after which the introduced populations grew and stabilized at a level of about Log₁₀ 7 cfu per mL. Between 25 and 50% of the population maintained the plasmid, as evidenced by filter hybridization of colonies from non-selective agar plates using the pat fragment as probe.Introduced R2f (RP4:: pat) could be recovered from soil microcosms using selective plating followed by colony hybridization and MPN recovery/hybridization with the pat probe. The presence of the pat marker always coincided with the presence of the resistance genes on RP4:: pat, indicating pat was an adequate marker of the presence of this plasmid. In addition, it adequately described the population dynamics of the introduced strain in soil, since no loss of the plasmid occurred.Hybridization to pat was also useful to show transfer of plasmid RP4:: pat to a recipient strain in soil; transfer to indigenous bacteria was not detected.Analysis by slot-blot hybridization of total community DNA extracted from inoculated soils indicated about Log₁₀ 6 cfu per g of dry soil were still detectable. Application of the PCR on this DNA indicated pat was detectable at least at a level of Log₁₀ 4 immunofluorescence-detectable cells per g of dry soil. Thus extraction of total community DNA followed by PCR permitted the detection of genetically engineered microorganisms present in soil as non-culturable cells.     

The plasmids of Acetobacter xylinum and their interaction with the host chromosome

Summary Acetobacter xylinum contains a complex system of plasmid DNA molecules. Plasmids of molecular weights or copy numbers different from the original wild-type, are found in different types of mutants. Restriction endonuclease digestion and DNA/DNA hybridization analysis, showed that the plasmids often contained partly, but not completely the same DNA sequences. Two of these plasmid classes were analysed in more detail, and could be shown to differ in size by about 5 kb. Hybridization analysis using cloned DNA fragments as probes, showed that sequences lacking in the smallest plasmid were still present in a DNA fraction co-migrating with linearized chromosomal DNA. In addition, at least part of the DNA in the smallest plasmid was present both in the plasmid and chromosomal DNA fraction. Analysis of a particular strain containing an insertion of transposon Tn1, also indicated the existence of complex interactions between plasmids and chromosomal DNA. Together with experiments on conjugative transfer and curing of the plasmids, the results indicate that at least part of the genetic system of A. xylinum is unusual when compared to that of other genetically characterized bacteria.     

Characterization of the plasmid DNAs of Rhodopseudomonas capsulata

Presence of extrachromosomal DNa in Rhodopseudomonas capsulata strain BH9 was shown by the appearance of a satellite band in a dye-buoyant density gradient. Radioactively labelled DNA was prepared from this satellite band and examined on a 5–20% sucrose gradient. Three radioactive peaks with sedimentation coefficients of 100 S, 94 S, and 58–64 S, respectively, were consistently observed. Analysis of these sedimentation coefficients suggested that there are two species of plasmid DNA with molecular sizes of 94×10⁶ daltons (named pBH91) and 74×10⁶ daltons (named pBH92). The 58–64 S peak is attributed to open circular molecules. DNAs from each peak of the sucrose gradient were examined by electronmicroscopy, and the results agree closely with those of the sucrose gradient analysis. Reassociation kinetics of the plasmid DNA was also followed. Addition of total DNA of strain BH9 increased the renaturation rate of the plasmid DNA. It was calculated from the magnitude of the increase that approximately 10% of the BH9 total DNA may hybridize with the plasmid sequences. DNA prepared from the gene transfer agent (GTA) produced by R. capsulata increases the renaturation rate of the plasmid to the same extent as total DNA isolated from the GTA producing strain, Y262.     

Isolation and characterization of Rhodobacter capsulatus strains lacking endogenous plasmids

Phodobacter capsulatus (formerly Rhodopseudomonas capsulata) strain B10 was found to contain a single plasmid of molecular weight 86×10⁶. Strains lacking this plasmids were isolated by various methods from strains containing the mutant R plasmid, pTH10. With the exception of two strains, which were found to contain chromosomal insertions of R plasmid DNA, strains lacking the endogenous plasmid appeared to be unaffected in any of the following metabolic or genetic functions: photosynthetic, autotrophic, diazotrophic, and dark, anaerobic growth; the production of bacteriocin; homologous recombination; the restriction of foreign DNA; and the production of gene transfer agent. DNA-DNA hybridization experiments confirmed that the plasmid had been eliminated from these strains and not become integrated into the chromose. However, sequences homologous to those of the endogenous plasmid were found to be present in the chromosome of R. capsulatus B10. This suggests, among other possibilities, that the endogenous plasmid may have originated in the chromosome, and might serve to duplicate certain chromosomal functions.Abbreviations kb kilobase-pair - GTA gene transfer agent - Cma chromosome mobilizing ability     

Translocation of sequences encoding antibiotic resistance from the chromosome to a receptor plasmid in Salmonella ordonez

Summary Salmonella ordonez strain BM2000 carries kanamycin (Km), ampicillin (Ap), spectinomycin (Sp), chloramphenicol (Cm), tetracyline (Tc), and sulfonamide (Su) resistance and production of colicin Ib (Cib). The Km and Cib characters were carried by a 97kb IncI1 plasmid (pIP565). In addition to the Km and Cib traits, all or part of the other antibiotic resistance (R) determinants could be transferred by conjugation from S. ordonez to Escherichia coli where all the acquired characters are borne by an IncI1 plasmid, designated complete or partial composite plasmid respectively. DNA from pIP565 and composite plasmids and total DNA from strain BM2000 were studied by agarose and polyacrylamide gel electrophoresis following digestion with restriction endonucleases, and by Southern hybridization. These comparative analyses enabled us a) to show that acquisition by pIP565 of resistance to all or some of the antibiotics was due to the insertion of a single DNA fragment into the receptor plasmid; b) to detect two types of composite plasmids with regard to the specificity of insertion into pIP565 and the mapping of the inserts; c) to demonstrate that the ApCmSpSuTc resistance determinants were integrated into S. ordonez BM2000 chromosomal DNA; d) to map the restriction fragments of the translocatable sequence integrated into strain BM2000 chromosome or into pIP565.The results obtained suggest that two distinct mechanisms for the translocation of the R determinants coexist in S. ordonez BM2000. Recombination between two of the four directly repeated copies of the IS-like sequence (IS1522) present in S. ordonez chromosome leads to the circularisation of all or part of the AmCmSpSuTc R determinants and is followed by either 1) a second recombination with the copy of IS1522 in pIP565 (Type I composite plasmids), or 2) transposition of precise groups of characters in various sites of pIP565 (Type II composite plasmids).     

Construction and characterization of a cosmid of Streptomyces lividans

Summary We constructed a plasmid pR4C1 in which a DNA fragment containing the cohesive ends of an actinophage, R4 was inserted into the ClaI site of plasmid pIJ365. The plasmid pR4C1 was packaged efficiently into R4 phage particles in vivo and therefore transferred by transduction. Southern hybridization analysis of DNA from pR4C1-transducing R4 phage particles indicated that the plasmid DNA was encapsidated as head-to-tail concatemers with the cohesive ends in the termini. We designated the pR4C1 plasmid a cosmid, following the termination of Collins and Hohn (1978).     

Molecular cloning and transposition of a kanamycin resistance determinant from Campylobacter jejuni between replicons in Escherichia coli

This paper reports a restriction map of a fragment of DNA encoding kanamycin resistance cloned from plasmid DNA of Campylobacter jejuni ABA94 in the recombinant plasmid pRS9421-1. In transposition experiments, kanamycin-resistant R751::km9421 transconjugants appeared at frequencies of 10^-7 per donor cell. These transconjugants harboured a plasmid 4 kb larger than the parental 49 kb plasmid R751. Restriction enzyme analysis and Southern blot hybridization of these transconjugants showed that the kanamycin resistant determinant had transposed from recombinant plasmid pRS9421-1 to plasmid R751.The authors are with the Department of Genetics and Cellular Biology, Faculty of Science, University of Malaya, 59100 Kuala Lumpur, Malaysia     

Replication intermediate of a hybrid plasmid carrying the replication terminus (ter) site of R6K as revealed by agarose gel electrophoresis

Summary A 4.32 kb DNA fragment, on which the DNA replication terminus (terR) site of plasmid R 6K was located, was inserted into the unique EcoRI site of plasmid pUC9. To detect replication intermediate molecules with a replication fork halted at the terR site, a cell DNA extract was digested with EcoRI, electrophoresed through an agarose gel and stained with ethidium bromide. In addition to two major bands, one derived from vector DNA and the other from the ter insert fragment, two extra minor bands were detected. Following DNA-DNA hybridization and electron microscopic observation we concluded that the two minor bands corresponded to the two Y-shaped molecules, produced from the -shaped intermediate molecules by EcoRI digestion.Abbreviations Ap ampicillin - kb kilobase pair(s) - EtBr ethidium bromide     

Vector Insert-Targeted Integrative Antisense Expression System for Plasmid Stabilization

Some DNA vaccine and gene therapy vector-encoded transgenes are toxic to the E. coli plasmid production host resulting in poor production yields. For plasmid products undergoing clinical evaluation, sequence modification to eliminate toxicity is undesirable because an altered vector is a new chemical entity. We hypothesized that: (1) insert-encoded toxicity is mediated by unintended expression of a toxic insert-encoded protein from spurious bacterial promoters; and (2) that toxicity could be eliminated with antisense RNA-mediated translation inhibition. We developed the pINT PR PL vector, a chromosomally integrable RNA expression vector, and utilized it to express insert-complementary (anti-insert) RNA from a single defined site in the bacterial chromosome. Anti-insert RNA eliminated leaky fluorescent protein expression from a target plasmid. A toxic retroviral gag pol helper plasmid produced in a gag pol anti-insert strain had fourfold improved plasmid fermentation yields. Plasmid fermentation yields were also fourfold improved when a DNA vaccine plasmid containing a toxic Influenza serotype H1 hemagglutinin transgene was grown in an H1 sense strand anti-insert production strain, suggesting that in this case toxicity was mediated by an antisense alternative reading frame-encoded peptide. This anti-insert chromosomal RNA expression technology is a general approach to improve production yields with plasmid-based vectors that encode toxic transgenes, or toxic alternative frame peptides.     

Genetic Characterization of a New Thermotolerant Bacillus licheniformis Strain

A potentially new thermotolerant B. licheniformis strain (code name I89), producer of an antibiotic active against Gram-positive bacteria, was genetically characterized and compared with the type strain B. licheniformis ATCC 10716, producer of bacitracin. Studies on DNA base composition (G + C content) and DNA reassociation revealed that the two strains show around 76% homology. Nevertheless, results obtained by rRNA hybridization, with a heterologous probe coding for most of the 16S region of the rRNA operon of Bacillus subtilis, revealed differences in the number of copies for that gene and in the hybridization pattern. Additionally, a different restriction digestion pattern was obtained when DNA was digested with the enzymes NotI, SmaI and analyzed by PFGE. The I89 strain holds a 7.6-kb plasmid not present in the reference strain. The existence of various unique restriction sites and also the stability of this plasmid make it ideal for the future development of a cloning and expression vector. Received: 29 June 1999 / Accepted: 1 September 1999     

Unusual genetic phenomena associated with Tn5 mutagenesis in Alcaligenes eutrophus strain H1

Tn5 was introduced into Alcaligenes eutrophus strain H1 by a suicide vector pSUP1011. Physical characterization of mutants obtained after Tn5 mutagenesis revealed a relatively high frequency of plasmid curing, or deletion of a 50 kb plasmid DNA segment. Results of Southern hybridization and chromosomal walking indicate that the same continuous stretch of plasmid DNA (designated as D region of plasmid) is deleted in four independent isolates. Moreover, the same deletion of plasmid DNA is also observed in a mitomycin C-generated mutant strain H1-4.Journal Paper No. J-12095 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa. Project No. 2607, supported in part by a grant from the Iowa High Technology Council     

Structure of recombinant plasmids containing synthetic human foetal globin gene sequences

Summary In vitro synthesized duplex DNA complementary to human foetal globin messenger RNA was integrated into bacterial plasmids and amplified by transformation of Escherichia coli. Recombinants carrying globin DNA were identified by hybridization of foetal globin messenger RNA to bacterial DNA in situ and by liquid hybridization of purified plasmids to specific globin complementary DNA probes. Heteroduplex mapping revealed either a simple insertion loop at the position of the EcoRI site of the parental plasmid or substitution loops due to insertion of globin DNA sequences combined with deletions of the parental plasmid DNA. We provide evidence to suggest that these deletions are the result of a site-specific nicking activity of the EcoRI preparations used in the formation of recombinant plasmids.     

Synthesis and repair of RNA-containing supercoiled plasmid ColE1 DNA in Escherichia coli

Supercoiled plasmid molecules sensitive to nicking by RNase or alkali have been shown to accumulate during replication of colicinogenic factor E1 (ColE1) in Escherichia coli in the presence of chloramphenicol. The possibility that this sensitivity is due to the covalent integration of RNA molecules during the synthesis of plasmid DNA is supported by the demonstration that (a) strands of supercoiled ColE1 newly replicated in the presence of chloramphenicol exhibit sensitivity to RNase and alkali treatment, while (b) RNase- and alkali-resistant circular strands of plasmid DNA synthesized either before or after the addition of chloramphenicol remain resistant during subsequent replication of the plasmid in the presence of chloramphenicol. Furthermore, newly made plasmid DNA strands cannot act as templates for further rounds of replication if they possess an RNA segment. The existence of a repair mechanism for the removal of the RNA segment from supercoiled ColE1 DNA molecules was demonstrated by pulse-chase experiments. It was observed that the proportion of RNase-sensitive molecules is considerably higher in pulse-labeled as compared to continuously labeled ColE1 DNA synthesized in the presence of chloramphenicol, and the proportion of pulse-labeled ColE1 DNA that is RNase sensitive is greatly reduced during a chase period. Removal of the RNA segment is also carried out effectively at the restrictive temperature in temperature-sensitive DNA polymerase I mutants. In a survey of other bacterial mutants defective in the repair of damaged DNA, a substantial increase in the rate of accumulation of RNase-and alkali-sensitive supercoiled ColE1 DNA in the presence of chloramphenicol was observed in recBC and uvrA mutants in comparison with the wild-type strains.     

Behavior of plasmid pJB5JI in Rhizobium huakuii under free-living and symbiotic conditions

The Rhizobium leguminosarum biovar viceae host-range plasmid pJB5JI was transferred into Rhizobium huakuii strains, both wild-type 7653R and its sym plasmid-cured mutant 7653R-1. Transconjugant 7653R-1 (pJB5JI) acquired the ability to form ineffective nodules on pea plants, whereas transconjugant 7653R (pJB5JI) could not do so, indicating that the indigenous symbiotic plasmid could restrict the functional expression of pJB5JI. On the other hand, transconjugant 7653R (pJB5JI) showed higher nitrogenase activity on A. sinicus and higher shoot dry weight than the recipient strain 7653R. The alien plasmid pJB5JI in both kinds of transconjugants remained stable during frequent transfer on culture media, but in part of the isolates from nodules formed by them the pJB5JI was not visualized on gel by the Eckhardt procedure. Southern hybridization with Tn5 and nod gene probes showed that these isolates still reserved, at least in part, DNA of pJB5JI, which was probably intergrated onto the chromosome of cells.     

Derepression of single-stranded DNA-binding protein genes on plasmids derepressed for conjugation, and complementation of an E. coli ssb- mutation by these genes

Summary Plasmid single-stranded DNA-binding protein genes complement the E. coli ssb-1 mutation, and partially restore capacity for DNA synthesis, DNA repair (direct role as well as role in SOS induction) and general recombination. Plasmid mutants derepressed for fertility derived from R1, R64 and R222 show a higher level of complementation compared to the parental repressed plasmids. Derepressed mutants of R222 synthesize more RNA which hybridizes with the ssb gene of the F factor than does the original R222 plasmid. This indicates that plasmid ssb genes are regulated coordinately with fertility genes.     

Evidence for a life span-prolonging effect of a linear plasmid in a longevity mutant of Podospora anserina

The linear mitochondrial plasmid pAL2-1 of the long-lived mutant AL2 of Podospora anserina was demonstrated to be able to integrate into the high molecular weight mitochondrial DNA (mtDNA). Hybridization analysis and densitometric evaluation of the mitochondrial genome isolated from cultures of different ages revealed that the mtDNA is highly stable during the whole life span of the mutant. In addition, and in sharp contrast to the situation in certain senescence-prone Neurospora strains, the mutated P. anserina mtDNA molecules containing integrated plasmid copies are not suppressive to wild-type genomes. As demonstrated by hybridization and polymerase chain reaction (PCR) analysis, the proportion of mtDNA molecules affected by the integration of pAL2-1 fluctuates between 10% and 50%. Comparative sequence analysis of free and integrated plasmid copies revealed four differences within the terminal inverted repeats (TIRs). These point mutations are not caused by the integration event since they occur subsequent to integration and at various ages. Interestingly, both repeats contain identical sequences indicating that the mechanism involved in the maintenance of perfect TIRs is active on both free and integrated plasmid copies. Finally, in reciprocal crosses between AL2 and the wild-type strain A, some abnormal progeny were obtained. One group of strains did not contain detectable amounts of plasmid pAL2-1, although the mtDNA was clearly of the type found in the long-lived mutant AL2. These strains exhibited a short-lived phenotype. In contrast, one strain was selected that was found to contain wild-type A-specific mitochondrial genomes and traces of pAL2-1. This strain was characterized by an increased life span. Altogether these data suggest that the linear plasmid pAL2-1 is involved in the expression of longevity in mutant AL2.     

Cloning of cDNA sequences derived from poly(A)+ nuclear RNA ofXenopus laevis at different developmental stages: Evidence for stage specific regulation

Summary Nuclear poly(A)⁺ RNA was isolated from gastrula and early tadpole stages ofXenopus laevis, transcribed into cDNA and integrated as double stranded cDNA by the G-C joining method into the Pst cleavage site of plasmid pBR 322. After cloning inE. coli strain HB 101 the clone libraries were hybridized to³²P labelled cDNA derived from nuclear poly(A)⁺ RNA of the two different developmental stages. About 20% of the clones gave a positive hybridization signal thus representing RNA molecules of high and medium abundance. From these clones, some individual clones were identified containing sequences which are not present at the oocyte and gastrula stages but which are transcribed at the early tadpole stage of embryonic development.     

In vitro system for the replication of the mini R1 factor Rsc11

Summary The in vitro synthesis of the mini R1-factor, Rsc11, was achieved using a soluble Escherichia coli cell-extract system. Triton X-100 lysates of the K 12 strain 1101 (Rsc11) fractionated by Sephadex G25 chromatography supported the incorporation of labeled deoxyribonucleotides into covalently-closed circular (30S) and open-circular (25S) plasmid DNA as well as other molecules of various sizes. DNA synthesis required the presence of all four ribonucleotides and was rifampicin sensitive. Pulse-chase experiments indicated that this reaction is discontinuous. A dependence on ATP and sensitivity to nalidixic acid suggested this system capable of the replicative synthesis of Rsc11 DNA. Density-shift analysis confirmed this. In addition to hybrid, fully-heavy plasmid supercoils were synthesized indicating that more than one round of replication was completed. Approximately one-third of the molecules available to the system participate in this reaction.     

Localization of genes for ribosomal RNA in the nuclei of Oxytricha fallax

The location of ribosomal RNA (rRNA) genes in the nuclei of the ciliated protozoan, Oxytricha fallax, was analysed by in situ hybridization. The micronuclear genome of O. fallax has typical chromosomal DNA organization. Macronuclei, although derived from micronuclei, lack chromosomes and instead contain short pieces of DNA ranging from 500 to 20 000 base pairs in length. In situ hybridization was carried out to determine if specific DNA sequences are limited to certain locations within the macronucleus, or if sequences are randomly arranged. Cells were fixed, squashed and then hybridized with ³H-labelled RNA synthesized in vitro using cloned O. fallax rDNA as a template. After autoradiography, silver grains were found to be distributed uniformly over the entire macronucleus without any detectable localization to specific regions. The uniformity of hybridization indicates that rDNA molecules are randomly dispersed throughout the macronucleus and suggests that the macronuclear genetic apparatus lacks any substantial multimolecular organization. S phase macronuclei also showed a uniform distribution of rDNA molecules, irrespective of the position of the replication band at which DNA synthesis takes place. The micronuclei, in contrast, did not show any hybridization, even in cells in which macronuclei were heavily labelled. Macronuclear anlagen, in which the micronuclear chromosomes are polytenized, also do not hybridize. This absence of hybridization indicates a much lower concentration of rDNA in the micronucleus than in the macronucleus. The change in rDNA concentration of rRNA genes presumably occurs during the complicated process of development of a macronucleus from a micronucleus.