Cercosporin-deficient mutants by plasmid tagging in the asexual fungus<Emphasis Type="Italic"> Cercospora nicotianae</Emphasis>

We have successfully adapted plasmid insertion and restriction enzyme-mediated integration (REMI) to produce cercosporin toxin-deficient mutants in the asexual phytopathogenic fungus Cercospora nicotianae. The use of pre-linearized plasmid or restriction enzymes in the transformation procedure significantly decreased the transformation frequency, but promoted a complicated and undefined mode of plasmid integration that leads to mutations in the C. nicotianae genome. Vector DNA generally integrated in multiple copies, and no increase in single-copy insertion was observed when enzymes were added to the transformation mixture. Out of 1873 transformants tested, 39 putative cercosporin toxin biosynthesis ( ctb) mutants were recovered that showed altered levels of cercosporin production. Seven ctb mutants were recovered using pre-linearized plasmids without the addition of enzymes, and these were considered to be non-REMI mutants. The correlation between a specific insertion and a mutant phenotype was confirmed using rescued plasmids as gene disruption vectors in the wild-type strain. Six out of fifteen rescued plasmids tested yielded cercosporin-deficient transformants when re-introduced into the wild-type strain, suggesting a link between the insertion site and the cercosporin-deficient phenotype. Sequence analysis of a fragment flanking the insert site recovered from one insertion mutant showed it to be disrupted in sequences with high homology to the acyl transferase domain of polyketide synthases from other fungi. Disruption of this polyketide synthase gene ( CTB1) using a rescued plasmid resulted in mutants that were defective in cercosporin production. Thus, we provide the first molecular evidence that cercosporin is synthesized via a polyketide pathway as previously hypothesized.Communicated by E. Cerdá-Olmedo     

Genetic and functional analysis of the nodulation region of the Rhizobium leguminosarum Sym plasmid pRL1JI

Thirty Tn5- or Tn1831-induced nodulation (nod) mutants of Rhizobium leguminosarum were examined for their genetic and symbiotic properties. Thirteen mutants contained a deletion in Sym plasmid pRL1JI. These deletions cover the whole nod region and are 50 kb in size. All remaining seventeen mutations are located in a 6.6 kb EcoRI nod fragment of the Sym plasmid. Mutations in a 3.5 kb part on the right hand side of this 6.6 kb fragment completely prevent nodulation on Vicia sativa. All mutants in this 3.5 kb area are unable to induce marked root hair curling and thick and short roots.Mutations in a 1.5 kb area on the left hand side of the 6.6 kb nod fragment generate other symbiotic defects in that nodules are only rarely formed and only so after a delay of several days. Moreover, infection thread formation is delayed and root hair curling is more excessive than that caused by the parental strain. Their ability to induce thick and short roots is unaltered.Mutations in this 1.5 kb region are not complemented by pRmSL26, which carries nod genes of R. meliloti, whereas mutations in the 3.5 kb region are all complemented by pRmSL26.Abbreviations Rps repression of production of small bacteriocin - Mep medium bacteriocin production - Nod nodulation - Fix fixation - Tsr thick and short roots - Flac root hair curling - Hsp host specificity - Flad root hair deformation - Tc tetracycline - Km kanamycin - Cm chloramphenicol - Sp spectinomycin - Sm streptomycin - R resistant     

DNA restriction-modification systems in the ethanologen, Zymomonas mobilis ZM4

To better understand the DNA restriction-modification (R-M) systems for more amenable strain development of the alternative industrial ethanologen, Zymomonas mobilis, three gene knockout mutants were constructed. The gene knockout mutants were tested for their DNA restriction activities by the determination of transformation efficiency using methylated and unmethylated foreign plasmid DNAs. Inactivation of a putative mrr gene encoded by ZMO0028 (zmrr) resulted in a 60-fold increase in the transformation efficiency when unmethylated plasmid DNA was used. This indicated that the putative mrr gene may serve as a type IV restriction-modification system in Z. mobilis ZM4. To assign the function of a putative type I DNA methyltransferase encoded by ZMO1933 (putative S subunit) and ZMO1934 (putative M subunit), the putative S subunit was inactivated. The gene inactivation of ZMO1933 resulted in a 30-fold increase in the transformation efficiency when methylated plasmid DNA was introduced, indicating that the putative S subunit possibly serves as a part of functional type I R-M system(s). Growth studies performed on the mutant strains indicate inactivation of the type I S subunit resulted in a lower maximum specific glucose consumption rate and biomass yield, while inactivation of the type IV Zmrr had the opposite effect, with an increase in the maximum specific growth rate and biomass yield.     

Genetic and physical studies of restriction-deficient mutants of the Inc FIV plasmids R124 and R124/3

Summary R124 and R124/3 are R plasmids that carry the genes for two different restriction and modification systems. The phenotype of strains carrying either of these plasmids along with the F'lac ⁺ plasmid, is restriction-deficient (Res^-). The Res^- phenotype is not due to selection of preexisting mutants but rather to a complex mutational event caused by the F plasmid. Restriction-deficient mutants carry extensive deletions and other DNA rearrangements. Tn7 insertion is used to locate the restriction gene. Many of the Res^- mutants are genetically unstable and revert at exceptionally high frequencies. Reversion is accompanied by DNA rearrangements which result in a net gain of 9 kb of DNA. F derivates of F⁺ which do not cause restriction-deficiency but do cause deletion were used to distinguish between the DNA rearrangements associated with restriction-deficiency and those associated with deletion. From Res⁺ revertants of strains carrying F'lac ⁺ and R124 or R124/3 we have isolated F plasmids that now carry the genes for the R124 or R124/3 restriction and modification systems. It is suggested that interaction between part of the F plasmid and that segment of the R plasmid which controls the switch in Res-Mod specificity which has been observed (Glover et al. 1983) is responsible for the production of restriction-deficiency.     

<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation of the plant pathogenic fungus <Emphasis Type="Italic">Rosellinia necatrix</Emphasis>

Rosellinia necatrix is a soil-borne root pathogen affecting a wide range of commercially important plant species. The mycelium of R. necatrix was transformed to hygromycin B resistance by an Agrobacterium tumefaciens-mediated transformation system using a binary plasmid vector containing the hygromycin B phosphotransferase (hph) gene controlled by the heterologous fungal Aspergillus nidulans P-gpd (glyceraldehyde 3-phosphate dehydrogenase) promoter and the trpC terminator. Co-cultivation of R. necatrix strain W1015 and A. tumefaciens strain AGL-1 at 25°C using the binary vector pAN26-CB1300, which contained the hygromycin B resistance cassette based on pAN26 and pCAMBIA1300, resulted in high frequencies of transformation. The presence of the hph gene in the transformants was detected by PCR, and single-copy integration of the marker gene was demonstrated by Southern b lot analy s is. This report of an Agrobacterium-mediated transformation method should allow the development of T-DNA tagging as a system for insertional mutagenesis in R. necatrix and provide a simple and reliable method for genetic manipulation.     

Self cloning in Micromonospora olivasterospora of fms genes for fortimicin A (astromicin) biosynthesis.

Summary We have cloned the seven genes that are responsible for biosynthesis of the antibiotic fortimicin A (FTM A) using a recently developed self-cloning system that employs the plasmid vector pMO116 for Micromonospora olivasterospora. Five chimeric plasmids that restored FTM A production in M. olivasterospora mutants blocked at different biosynthetic steps were isolated by shotgun cloning. Secondary transformation using other non-producing mutants showed that two additional FTM A biosynthetic genes were included on these plasmids, and that at least four of the genes were clustered. Interestingly AN38-1, a non-producing mutant that had a defect in dehydroxylation of a precursor of FTM A, was complemented by the DNA fragment containing a neomycin resistance gene that had been cloned from a neomycin-producing strain (Micromonospora sp. FTM A non-producing strain) in the course of constructing the plasmid vector pM0116. These results clearly show that this novel gene cloning system in Micromonospora is of practical use.     

Interfamilial transfer of amber suppressor gene for the isolation of amber mutants of mycobacteriophage I3

A suppressor-containing strain of Mycobacterium smegmatis SN₂ was isolated by transferring an amber suppressor carried on the plasmid of Pseudomonas pseudoalcaligenes ERA through transformation. Amber mutants of mycobacteriophage I3 were isolated.Non-Common Abbreviations NTG N-methyl-N-nitro-N-nitrosoguanidine - moi Multiplicity of infection An abstract of this communication was presented at the IV International Congress of Genetics, Moscow, U.S.S.R., August 21–30, 1978     

A T4 DNA fragment containing genes for the baseplate central plug: Endonuclease restriction, gene expression and cell wall changes

Summary A fragment of Escherichia coli bacteriophage T4D DNA, containing 6.1 Kbp which included the six genes (genes 25, 26, 51, 27, 28 and 29) coding for the tail baseplate central plug has been partially characterized. This DNA fragment was obtained originally by Wilson et al. (1977) by the action of the restriction enzyme EcoRI on a modified form of T4 DNA and was inserted in the pBR322 plasmid and then incorporated into an E. coli K12 strain called RRI. This plasmid containing the phage DNA fragment has now been reisolated and screened for cleavage sites for various restriction endonucleases. Restriction enzymes Bgl 11 and Xbal each attacked one restriction site and the enzyme Hpa 1 attacked two restriction sites on this fragment. The combined digestion of the hybrid plasmid containing the T4 EcoRI DNA fragment conjugated to the pBR322 plasmid with one of these enzymes plus Bam H1 restriction enzyme resulted in the localization of the restriction site for Bgl 11, Xba 1 and Hpa 1. Escherichia coli strain B cells were transformed with this hybrid plasmid and found to have some unexpected properties. E. coli B cells, which are normally restrictive for T4 amber mutants and for T4 temperature sensitive mutants (at 44°) after transformation, were permissive for 25am, 26am and 26^Ts, 51am, and 51^Ts, 27^Ts, and 28^Ts T4 mutants. Extracts from the transformed E. coli cells were found in complementation experiments to contain the gene 29 product, as well as the gene 26 product, the gene 51 product, and the gene 27 product. The complementation experiments and the permissiveness of the transformed E. coli B cells to the various conditional lethal mutants clearly showed that the six T4 genes were producing all six gene products in these transformed cells. However, these cells were not permissive for T4 amber mutants in genes 27, 28, and 29. The transformed E. coli B cells, as compared to untransformed cells, were found to have altered outer cell walls which made them highly labile to osmotic shock and to an increased rate of killing by wild type T4 and all T4 amber mutants except for T4 am29. The change in cell walls of the transformed cells has been found to be due to the T4 baseplate genes on the hybrid plasmid, since E. coli B transformed by the pBR322 plasmid alone does not show the increase in osmotic sensitivity.     

Integration and excision of a plasmid in Bacillus subtilis

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

The use of plasmid DNA to probe DNA repair functions in the yeast Saccharomyces cerevisiae

Summary The survival of plasmid YRp12 treated in vitro with ultraviolet- or -radiation, or with restriction endonucleases, has been used to investigate in vivo RAD gene activity in Saccharomyces cerevisiae. Yields of pyrmidine dimers or single and double strand breaks in plasmid DNA were assayed by physical methods. The biological effects of these damages were assayed by transformation of wild-type cells and rad mutants from each of the major groups of radiosensitive mutants. After UV-irradiation plasmid survival depended qualitatively on the same host functions that are needed for cellular survival. After -irradiation no such correspondence was found. Apart from a RAD52-dependent stimulation of transformation efficiency at low doses, other host repair functions had little effect. Stimulation of transformation corresponded with the production of double- but not single-strand breaks in plasmid sequences homologous with the yeast genome and may be linked with a transient increase in mitotic stability.More generally these data also show that transformation events using the LiCl protocol may entail the uptake of a very low number of plasmid molecules per cell over a 10-fold range of DNA concentrations.     

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.     

Selection procedure for deregulated iron transport mutants (fur) in Escherichia coli K 12: fur not only affects iron metabolism

Summary A selection procedure using Mn²⁺ is described. A high percentage of the Mn²⁺ resistant mutants had constitutive iron transport systems. By P1 transduction, and complementation with the cloned fur gene it could be shown that nearly all the mutants constitutive in the expression of the operon fusion fiu::placMu were only defective in fur. High concentrations of manganese inhibited the derepression of an iron-regulated lac operon fusion. In another iron-regulated lac operon fusion that was inducible by iron, manganese also induced the production of -galactosidase. Most of the fur mutants isolated (80%) were not able to grow on succinate, fumarate or acetate. After transformation with a fur ⁺ plasmid all 39 mutants tested were able to grow on succinate. In fur mutants the presence of succinate in the growth medium reduced succinate uptake rates by 50%–70%. Succinate dehydrogenase activity was reduced to 10% of that of the parent strain.     

Plasmid control of recombination in E. coli K 12

Summary The recombination proficiency of three recipient strains of Escherichia coli K 12 carrying different plasmids was investigated by conjugal mating with Hfr Cavalli. Some plasmids (e.g. R1drd 19, R6K) caused a marked reduction in the yield of recombinants formed in crosses with Hfr but did not reduce the ability of host strains to accept plasmid F104. The effect of plasmids on recombination was host-dependent. In Hfr crosses with AB1157 (R1-19) used as a recipient the linkage between selected and unselected proximal markers of the donor was sharply decreased. Plasmid R1-19 also decreased the yield of recombinants formed by recF, recL, and recB recC sbcA mutants, showed no effect on the recombination proficiency of recB recC sbcB mutant, and increased the recombination proficiency of recB, recB recC sbcB recF, and recB recC sbcB recL mutants. An ATP-dependent exonuclease activity was found in all tested recB recC mutants carrying plasmid R1-19, while this plasmid did not affect the activity of exonuclease I in strain AB1157 and its rec ^– derivatives. The same plasmid was also found to protect different rec ^– derivatives of the strain AB1157 against the lethal action of UV light. We suppose that a new ATP-dependent exonuclease determined by R1-19 plays a role in both repair and recombination of the host through the substitution of or competition with the exoV coded for by the genes recB and recC.     

Cloning and expression of Citrobacter freundii hydrogenase genes in Escherichia coli

Summary Escherichia coli mutants deficient in hydrogenase activity (Hyd^-) were derived from E. coli C600 by mutagenesis with nitrosoguanidine. Hydrogenase activities of mutant strains; HK-2, HK-7, HK-8, HK-16, HK-23, and HK-26 were below 1/100 that of the parental strain E. coli C600. Conjugational transfer of plasmid F-143 to the mutants was carried out and hydrogenase activities of the transformants were assayed. Recovery of hydrogenase activities in mutant strains; HK-2, HK-7, HK-8, HK-16, and HK-23 was observed, but not for HK-26. Two kinds of hydrogenase genes of Citrobacter freundii were cloned on pBR 322 and hybrid plasmids pCBH2 and pCFH1 were obtained. Hydrogenase activities of mutant strains HK-2, HK-8 and HK-16 were complemented with pCBH2 and strain HK-7 with pCFH1 respectively. The other mutant strains, HK-23, HK-26, however, were not complemented with these plasmids.     

Random shuttle mutagenesis: gonococcal mutants deficient in pilin antigenic variation

Shuttle mutagenesis has been adapted to randomly mutate the genome of Neisseria gonorrhoeae (gono-coccus; Gc). A size-restricted plasmid library of Gc strain FA1090 was mutated with the mini-transposon mTnEGNS. Randomness was tested by checking for transposon insertion bias between vector and insert DNA, Gc transformation efficiency of individual mutated clones, and representation of unique clones before and after Gc transformation with a mutated pool of DNA. Mutants created by random shuttle mutagenesis were screened, using a colony-based polymerase chain reaction assay, for the ability to undergo pilin antigenic variation. Out of 8064 mutants screened, 22 unique transposon insertion mutants were found to be antigenic variation deficient (Avd). The Avd mutants were separated into five types according to recombination defect-associated phenotypes, including colony growth, natural DNA transformation competence, and repair of DNA damage caused by ultraviolet radiation.     

Mutants of Rhodopseudomonas sphaeroides useful in genetic analysis

Two kinds of mutants of Rhodopseudomonas sphaeroides that should be useful in extending genetic analysis of this organism have been isolated. One is deficient in recombination and has been used to isolate derivatives of the plasmid R 68.45 which incorporate chromosomal genes of R. sphaeroides. The other is apparently defective in a DNA restriction enzyme; transfer of plasmid borne chromosomal genes of R. sphaeroides from Escherichia coli back to R. sphaeroides is greatly enhanced in these mutants.In memory of R. Y. Stanier     

Correlation between specific plasmids and δ-endotoxin production in Bacillus thuringiensis

Five strains of Bacillus thuringiensis that produce crystalline δ-endotoxin were used as parental strains in an effort to isolate acrystalliferous (Cry⁻) mutants: HD-2 (B. thuringiensis var. thuringiensis, flagellar serotype 1); HD-1 and HD-73 (both var. kurstaki, serotype 3ab); HD-4 (var. alesti, serotype 3a); and HD-8 (var. galleriae, serotype 5ab). The parental strains contain complex plasmid arrays that have been previously characterized (González and Carlton, 1980). The plasmid patterns of both Cry⁻ and Cry⁺ variants were analyzed and compared to the parental strains using a modified Eckhardt (1978) lysate-electrophoresis method. Most Cry⁻ mutants derived from strain HD-2 were found to exhibit a distinctive colony morphology which facilitated their isolation. Loss of crystal production was associated with loss of a 75-Md plasmid. A 50-Md plasmid of strain HD-73 was lost in the Cry⁻ mutants. Crystal production in strain HD-4 appears to be associated with a plasmid about 105 Md in size; in strain HD-1, a smaller plasmid (29 Md in size) seems to be involved. In strain HD-8, a large plasmid (˜130 Md in size) is implicated in crystal production. Direct bioassay of several of the mutant strains has confirmed the loss of δ-endotoxin activity in the acrystalliferous isolates. The evidence obtained supports the notion of a relationship between specific extrachromosomal DNA elements and δ-endotoxin production in B. thuringiensis, and suggests that in each strain only a single plasmid is involved, although the size of the implicated plasmid varies from one strain to another.     

Transfer of the drug-resistance transposon Tn5 toErwinia herbicola and the induction of insertion mutations

Translocatable drug-resistance element (transposon) Tn5 was transferred through conjugation from its carrier suicidal plasmid pJB4JI, harbored byEscherichia coli, toErwinia herbicola. The frequencies of transfer ranged from 0.4×10^–8 to 26×10^–8 per recipient cell. Membrane filter mating yielded more transconjugants than the spread plate technique. Several insertion mutations resulting in loss of bacteriocinogenicity were detected. The location of Tn5 in the mutant genomes was determined by Southern blot hybridization using Tn5-containing pRZ102 as the³²P-labelled probe. The resulting autoradiogram showed specific hybridization with a 96 megadalton plasmid in nine mutants ofErwinia herbicola out of ten tested. However, in one mutant, the 96 megadalton plasmid was missing; instead a larger plasmid containing Tn5 was apparent which was not present in the original strain. This plasmid may have arisen by dimerization of the 96 megadalton plasmid as a result of Tn5 insertion. Using this method, we show that the insertion of Tn5 in that plasmid may have caused the loss of bacteriocinogenicity. The potential usefulness of this technique in genetic analyses of otherErwinia species and other phytobacteria is discussed.     

Study of the phenomenon of marker rescue in plasmid transformation and transduction of intact cells, protoplasts and different rec mutants of Bacillus subtilis

Summary Marker rescue in plasmid transformation of competent cells of different rec mutants of B. subtilis was studied. In most cases the value of marker rescue decreased proportionally to reduction of plasmid transformation efficiency (although there were certain exceptions). Marker rescue was not observed either in plasmid transformation of protoplasts or in plasmid transduction of intact cells.Abbreviations Km ^R Kanamycin-resistant - Cm ^R Chloramphenicol-resistant