Intimate Relationship between mtDNA, Plasmids, and the Fusion of Mitochondria

Physarum polycephalum. The conformation of Physarum mtDNA is currently thought to be circular. The inheritance of its mtDNA depends on the multiallelic mating type loci, matA. In a cross with ordinary matA combinations, the strain that has the higher matA status transmits its mtDNA to the progeny (uniparental inheritance). The mF plasmid promotes the fusion of mitochondria in the zygote and during sporulation. When it exists in a strain with a lower status matA, the mF plasmid overcomes the force of uniparental inheritance and is preferentially transmitted to the progeny via mitochondrial fusion. Moreover, the conformation of mtDNA is changed from circular to linear by recombination with the mF plasmid. Since biparental inheritance usually occurs in a cross involving a combination of matA1 and matA15, two types of inheritance of Physarum mtDNA exist. Considering the existence of the mF plasmid, there are four patterns of cytoplasmic inheritance in P. polycephalum: 1) uniparental inheritance of mtDNA, 2) uniparental inheritance of mtDNA and preferential transmission of the mF plasmid, 3) biparental inheritance of mtDNA, and 4) biparental inheritance of mtDNA and the mF plasmid. This article describes the events involved in each pattern. Finally, we discuss a hypothetical mechanism for mitochondrial fusion. The essential protein may be the ORF640 protein encoded in the mF plasmid. Received 8 March 2000/ Accepted in revised form 23 March 2000     

Budding yeast Rad50, Mre11, Xrs2, and Hdf1, but not Rad52, are involved in the formation of deletions on a dicentric plasmid

We have previously shown that the RAD50, RAD52, MRE11, XRS2, and HDF1 genes of Saccharomyces cervisiae are involved in the formation of deletions by illegitimate recombination on a monocentric plasmid. In this study, we investigated the effects of mutations of these genes on formation of deletions of a dicentric plasmid, in which DNA double-strand breaks are expected to occur frequently because the two centromeres are pulled to opposite poles in mitosis. We transformed yeast cells with a dicentric plasmid, and after incubation for a few division cycles, cells carrying deleted plasmids were detected using negative selection markers. Deletions occurred at a higher frequency than on the monocentric plasmid and there were short regions of homology at the recombination junctions as observed on the monocentric plasmid. In rad50, mre11, xrs2, and hdf1 mutants, the frequency of occurrence of deletions was reduced by about 50-fold, while in the rad52 mutant, it was comparable to that in the wild-type strain. The end-joining functions of Rad50, Mre11, Xrs2, and Hdf1, suggest that these proteins play important roles in the joining of DNA ends produced on the dicentric plasmid during mitosis. Received: 30 October 1996 / Accepted: 28 February 1997     

Structural Elucidation of Alterporriol B,a Novel Metabolic Pigment Produced by Alternaria porri (Ellis) Ciferri

Restriction-reduced mutants were isolated from Streptomyces rosa subsp. notoensis KA301 and S. tanashiensis strain Kala which produce the benzoisochromanequinone antibiotics nanaomycin and kalafungin, respectively. The mutants of S. rosa, which can be transformed with a multi-copy plasmid and in which the actinophage Pa16 can propagate, were selected. They were transformed with a single-copy plasmid propagated in S. lividans TK24, and with its modified plasmid propagated in the mutant at higher efficiency. The mutants of S. tanashiensis were selected by their capability to be transformed with a multi-copy plasmid. The efficiency of transformation with a single-copy plasmid propagated in S. lividans TK24 was low, but was much increased by heating the protoplasts at 42°C for 15 min prior to the transformation. These mutants derived from both strains probably lack at least one of their restriction systems.     

Expression of recombinant organophosphorus hydrolase in the original producer of the enzyme,Sphingobium fuliginis ATCC 27551

The plasmid encoding His-tagged organophosphorus hydrolase (OPH) cloned from Sphingobium fuliginis was modified to be transferred back to this bacterium. The replication function of S. amiense plasmid was inserted at downstream of OPH gene, and S. fuliginis was transformed with this plasmid. The transformant produced larger amount of active OPH with His-tag than E. coli.     

Highly efficient production of enzymes of an extreme thermophile, Thermus thermophilus: A practical method to overexpress GC-rich genes in Escherichia coli

The GC-rich leuB gene (coding for 3-isopropylmalate dehydrogenase) of Thermus thermophilus is scarcely expressed in Escherichia coli, unless a leader open reading frame (ORF) is provided. We conducted experiments on nonexpressible plasmids and obtained a modified plasmid showing greatly enhanced expression: the degree of expression from the plasmid was higher than that from any other plasmid so far constructed. Sequence analysis of the plasmid showed that a 258-bp leader ORF overlapped with the initiation codon of leuB was newly formed as a consequence of the insertion of a 0.5-kb BamHI fragment derived from the E. coli chromosome. The degree of expression from the plasmid was further improved by shortening the leader ORF to 36 bp without changing the overlapping portion, and the flanking sequence between the promoter and the leader ORF was removed. The expression in E. coli of the pfk1 gene (coding for phosphofructokinase) of T. thermophilus was improved by the construction of a structure similar to that which enhanced the expression of the leuB gene. Based on the results, a practical method for the overexpression of GC-rich genes in E. coli is proposed. Received: November 26, 1996 / Accepted: May 17, 1997     

Plasmids in methanotrophic bacteria: isolation,characterization and DNA hybridization analysis

Ten strains of obligate methanotrophs were screened for the presence of plasmid DNA using a variety of methods. Plasmids were detected in all strains except Methylococcus capsulatus Bath. No significant similarity between plasmids was observed with respect to size or restriction digest patterns except for three strains of Methylosinus trichosporium, which appeared to contain the same three plasmids. Nitrocellulose filter hybridization revealed that the plasmid DNA from the M. trichosporium strains shared a small region of homology with the plasmid DNA from Methylosinus sporium 5. All of the plasmids remain cryptic. As the first step in characterization, a restriction digest map of the 55 kb plasmid found in Methylomonas albus BG8 was constructed.Abbreviations kb kilobases Formerly Mary L. O'Connor     

Construction,properties, and application of the pCB5 plasmid,a novel conjugative shuttle vector with a Cupriavidus basilensis origin of replication

Cupriavidus basilensis is a species with diverse metabolic capabilities, including degradation of xenobiotics and heavy metal resistance. Although the genomes of several strains of this species have been sequenced, no plasmid has yet been constructed for genetic engineering in this species. In this study, we identified a novel plasmid, designated pWS, from C. basilensis WS with a copy number of 1–3 per cell and a length of 2150 bp. pWS contained three protein-coding genes, among which only rep was required for plasmid replication. Rep showed no homology with known plasmid replication initiators. Unlike most plasmids, pWS did not have a cis-acting replication origin outside the region of rep. The minimal replicon of pWS was stable in C. basilensis WS without selection. A conjugative C. basilensis/Escherichia coli shuttle vector, pCB5, was constructed using the minimal replicon of pWS. Interestingly, the copy number of pCB5 was flexible and could be manipulated. Enhancing the expression level of Rep in pCB5 by either doubling the promoter or coding region of rep resulted in doubling of the plasmid copy number. Moreover, replacing the native promoter of rep with the lac promoter increased the copy number by over fivefold. Finally, using two different β-galactosidase reporting systems constructed with pCB5, we successfully demonstrated the different regulatory patterns of bph and dmp operons during diphenyl ether (DE) degradation in C. basilensis WS. Thus, this shuttle vector provided an efficient tool for DNA cloning and metabolic engineering in C. basilensis.

     

A gene, SMP2, involved in plasmid maintenance and respiration in Saccharomyces cerevisiae encodes a highly charged protein

Summary The smp2 mutant of Saccharomyces cerevisiae shows increased stability of the heterologous plasmid pSR1 and YRp plasmids. A DNA fragment bearing the SMP2 gene was cloned by its ability to complement the slow growth of the smp2 smp3 double mutant (smp3 is another mutation conferring increased stability of plasmid pSR1). The nucleotide sequence of SMP2 indicated that it encodes a highly charged 95 kDa protein. Disruption of the genomic SMP2 gene resulted in a respiration-deficient phenotype, although the cells retained mitochondrial DNA, and showed increased stability of pSR1 like the original smp2 mutant. The fact that the smp2 mutant is not always respiration deficient and shows increased pSR1 stability even in a rho ⁰ strain lacking mitochondrial DNA suggested that the function of the Smp2 protein in plasmid maintenance is independent of respiration. The SMP2 locus was mapped at a site 71 cM from lys7 and 21 cM from ilv2/SMR1 on the right arm of chromosome XIII.     

Pseudomonas C12B, an SDS degrading strain, harbours a plasmid coding for degradation of medium chain length n-alkanes

Pseudomonas C12B is able to degrade alkyl sulfates, alkylbenzene sulfonates, and linear alkanes and alkenes. Mitomycin C curing experiments and conjugation experiments demonstrated that the ability to utilize n-alkanes (C₉–C₁₂) and n-alkenes (C₁₀ and C₁₂) of medium chain length was plasmid-encoded. The plasmid was designated pDEC. Its size was estimated at several hundreds kb according to mobility in agarose gels. The plasmid did not confer resistance to the antibiotics tested. Analysis of alkylsulfatases P1 and P2 in original and cured strains confirmed that both enzymes are encoded by the chromosome. The ability of Pseudomonas C12B to utilize alkylbenzene sulfonates also appears to be encoded by the chromosome. pDEC could be transferred only to cured derivatives of Pseudomonas C12B, but not to strains of P. aeruginosa, P. putida, or Acinetobacter sp. Cured derivatives of Pseudomonas C12B could not serve as hosts for the broad host range plasmid CAM–OCT. The enzyme system encoded by the putative dec genes present on plasmid pDEC differs from the system coded by the alk genes of plasmid OCT in the size range of hydrocarbons preferentially used.     

Mutations in a new chromosomal gene of Escherichia coli K-12, pcnB, reduce plasmid copy number of pBR322 and its derivatives

Summary We describe mutants of Escherichia coli that decrease the plasmid copy number of pBR322 derivatives. One mutant was partially characterized genetically and its mutation, designated pcnB for plasmid copy number, was mapped to approximately 3 min on the E. coli chromosome. This locus is distinct from other genes whose products are known to affect plasmid replication or stable plasmid maintenance. The pcnB mutant strain should be useful for cloning genes into pBR322 that have aberrant or deleterious effects on the cell when present in high copy number.     

Cloning and DNA sequence of plasmid determinant iss, coding for increased serum survival and surface exclusion, which has homology with lambda DNA

Summary Escherichia coli K12 cells carrying a cloned 1.4 kb HindIII fragment from plasmid ColV2-K94, showed increased survival in guinea pig serum. The recombinant plasmid also conferred group II surface exclusion, i.e. the cells were reduced in recipient ability towards the incoming plasmid R538drd in conjugation experiments. Southern blotting suggested homology with bacteriophage lambda DNA and to the insertion element IS2. Determination of the DNA sequence of the fragment demonstrated the presence of a truncated IS2 (165 bp), separated by 250 bp from a 900 bp stretch of homology with lambda DNA, beginning within the Rz gene and continuing in the rightward direction on the lambda map. A 97 amino acid open reading frame (ORF) adjacent to Rz and on the opposite strand, remained intact in iss, with several amino acid changes. The ORF in iss is preceded by sequences resembling prokaryotic ribosome binding sites and promoters.     

Transposon donor plasmids, based on ColIb-P9, for use in Pseudomonas putida and a variety of other gram negative bacteria

Summary The properties of pLG221, a derivative of the ColIb plasmid carrying the transposon Tn5 are described. This plasmid can be used to introduce Tn5 by conjugation from Escherichia coli into a variety of Gram negative bacteria outside the host range for maintenance of ColIb. Plasmid pLG221, and a similar plasmid pLG223 carrying Tn10 may be of general utility as vectors for transposon-mediated mutagenesis in a variety of Gram negative bacteria.     

A small IncQ-type plasmid carrying the quinolone resistance (qnrS2) gene from Aeromonas hydrophila

Aims: To investigate the qnrS2 gene encoded by a plasmid obtained from Aeromonas hydrophila. Methods and Results: To investigate the full‐length sequence of the plasmid carrying qnrS2 (plasmid designated pAHH04) from the strain SNUFPC‐A10, the full‐length coding sequence of the qnrS region was first amplified. The remaining part of the plasmid was read outwards from this region. The plasmid pAHH04 contained the repC, repA, mobA and mobC genes, and its total size was 7191 bp with a G+C content of 60%. Conclusions: This study describes the full‐length sequence of a plasmid carrying the qnrS2 gene from Aer. hydrophila. The plasmid pAHH04 carried plasmid replication and mobilization genes from IncQ‐type plasmids. Significance and Impact of the Study: The isolated qnrS2 gene encoded by a plasmid from an Aer. hydrophila strain is of significant importance because it emphasizes the problem of antibiotic resistance as well as the ability of the determinants to spread among the different bacterial species that impact human health.     

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.     

Cloning of Bacillus subtilis leucina A, B and C genes with Escherichia coli plasmids and expression of the leuC gene in E. coli.

Summary The leucine genes of Bacillus subtilis have been cloned directly from the chromosomal DNA into Escherichia coli leuB cells by selection for the Leu⁺ phenotype using RSF2124 as a vector plasmid. The hybrid plasmid designated RSF2124-B·leu contained a 4.2 megadalton fragment derived from B. subtilis DNA, including the leu genes. The fragment had one site susceptible to EcoRI^* and another site susceptible to BamNI endonuclease. Among the three fragments produced by EcoRI^* and BamNI endonucleases, the 1.2 megadalton fragment had the ability to transform B. subtilis leuA, leuB and leuC auxotrophs to leu ⁺. However, B. subtilis ilvB and ilvC auxotrophs were not rescued even by the whole 4.2 megadalton fragment present in the hybrid plasmid. -Isopropylmalate dehydrogenase (leuB gene product) activity found in E. coli cells containing the hybrid plasmid was about 60% of that in E. coli wild type cells, despite the high copy number (7.8) of the plasmid per chromosome observed.     

Cloning and Characterization of the Replicon of the Nocardia italica Plasmid, pNI100

A 19-kb plasmid, pNI100, was isolated from Nocardia italica CCRC12359; its replicon was cloned and characterized as having a single open reading frame (ORF) of 1188 bp specifying 396 amino acids (aa). Analyses of the deduced aa sequence of the Rep protein indicated that characteristics of three consensus sequences and a P-loop-like motif in the Rep protein of plasmid pSG5, a conjugative plasmid involving a rolling-circle replication mechanism, were conserved in those of plasmid pNI100. Phenotypically, a pock structure was produced in the regenerated mycelium by introducing pNI100 DNA into the Streptomyces lividans protoplast. This result strongly suggests that pNI100 is a conjugative plasmid and probably replicates by a rolling-circle replication mechanism. By using the replicon of pNI100, a bifunctional plasmid pNI105 that could replicate in both Escherichia coli and S. lividans was constructed and found to be a useful cloning shuttle vector.     

A novel high-copy plasmid, pEC, compatible with commonly used Escherichia coli cloning and expression vectors

A 66164-bp cryptic plasmid, pEIB1, was isolated from strain Vibrio anguillarum MVM425 and sequenced. A plasmid carrying a 1089-bp fragment, containing the minimal replication region of pEIB1, a kanamycin-resistance marker and an l-arabinose promoter, designated pEC, was maintained as a high copy plasmid in E. coli and stably inherited in the absence of antibiotic selection. Significantly, pEC was compatible with the widely used ColE1, pSC101 and p15A replicons making it a useful tool for a dual-plasmid expression system.     

Cloning of rpsO, the gene for ribosomal protein S15 of Escherichia coli

Summary The gene for Escherichia coli ribosomal protein S15 (rpsO) was cloned on the vector pBR322 from F-prime JCH55 DNA. The recombinant plasmid was transformed to Serratia marcescens cells and it was proved that E. coli S15 was synthesized and incorporated into ribosome particles in S. marcescens cells. A DNA fragment containing rpsO was also inserted into the vector pRF3, which changes its copy number depending on the growth temperature in a temperature-sensitive polA host. By use of this recombinant plasmid it was shown that the relative synthesis rate of S15 increased about twice even when the copy number of the plasmid increased more than twenty-fold.     

Genetic characterization of pAsa6, a new plasmid from Aeromonas salmonicida subsp. salmonicida that encodes a type III effector protein AopH homolog

A new plasmid designated pAsa6 from an Aeromonas salmonicida subsp. salmonicida strain isolated from diseased turbot has been characterized. pAsa6 consists of 18536 bp, has a G+C content of 53.8% and encodes 20 predicted open-reading frames (ORFs). Eight ORFs showed homology to transposases, of which six are complete and two are partial IS sequences. Two ORFs showed homology to replication proteins, and six ORFs showed homology to hypothetical proteins. Two ORFs are truncated homologs of putative A. salmonicida sulfatases. Two genes, aopH and sycH encode homologs of an effector protein for which a role in fish colonization by A. salmonicida has been previously reported, and its chaperone, respectively. The results of filter conjugation experiments suggested that pAsa6 is not mobilizable, as it failed to be conjugally-transferred to several species of marine bacteria tested. All the ORFs of pAsa6 with the exception of four copies of a IS1 transposase gene, have a counterpart in the recently sequenced 155-kb A. salmonicida plasmid pAsa5, suggesting either that pAsa6 is a derivative of pAsa5, or that pAsa5 is the result of the fusion of a pAsa6-like plasmid and a larger plasmid of ca. 135-kb. The pAsa6-encoded repA and aopH genes could be PCR-amplified from strains lacking pAsa6, suggesting presence of a large, possibly pAsa5-like plasmid that was not detected on agarose gels, or the existence of chromosome-integrated plasmid sequences. This study demonstrates that genomic locations for the aopH gene different to pAsa5 or pAsa5-like plasmids exist in A. salmonicida.