Increased Bean (Phaseolus vulgaris L.) Nodulation Competitiveness of Genetically Modified Rhizobium Strains

Rhizobium leguminosarum bv. phaseoli strain collections harbor heterogeneous groups of bacteria in which two main types of strains may be distinguished, differing both in the symbiotic plasmid and in the chromosome. We have analyzed under laboratory conditions the competitive abilities of the different types of Rhizobium strains capable of nodulating Phaseolus vulgaris L. bean. R. leguminosarum bv. phaseoli type I strains (characterized by nif gene reiterations and a narrow host range) are more competitive than type II strains (that have a broad host range), and both types are more competitive than the promiscuous rhizobia isolated from other tropical legumes able to nodulate beans. Type I strains become even more competitive by the transfer of a non-Sym, 225-kilobase plasmid from type II strain CFN299. This plasmid has been previously shown to enhance the nodulation and nitrogen fixation capabilities of Agrobacterium tumefaciens transconjugants carrying the Sym plasmid of strain CFN299. Other type I R. leguminosarum bv. phaseoli transconjugants carrying two symbiotic plasmids (type I and type II) have been constructed. These strains have a diminished competitive ability. The increase of competitiveness obtained in some transconjugants seems to be a transient property.     

DNA Hybridization Probe for Use in Determining Restricted Nodulation among Bradyrhizobium japonicum Serocluster 123 Field Isolates

Several soybean plant introduction (PI) genotypes have recently been described which restrict nodulation of Bradyrhizobium japonicum serocluster 123 in an apparently serogroup-specific manner. While PI 371607 restricts nodulation of strains in serogroup 123 and some in serogroup 127, those in serogroup 129 are not restricted. When DNA regions within and around the B. japonicum I-110 common nodulation genes were used as probes to genomic DNA from the serogroup strains USDA 123, USDA 127, and USDA 129, several of the probes differentially hybridized to the nodulation-restricted and -unrestricted strains. One of the gene regions, cloned in plasmid pMJS12, was subsequently shown to hybridize to 4.6-kilobase EcoRI fragments from DNAs from nodulation-restricted strains and to larger fragments in nodulation-unrestricted strains. To determine if the different hybridization patterns could be used to predict nodulation restriction, we hybridized pMJS12 to EcoRI-digested genomic DNAs from uncharacterized serocluster 123 field isolates. Of the 36 strains examined, 15 were found to have single, major, 4.6-kilobase hybridizing EcoRI fragments. When tested for nodulation, 80% (12 of 15) of the strains were correctly predicted to be restricted for nodulation of the PI genotypes. In addition, hybridization patterns obtained with pMJS12 and nodulation phenotypes on PI 371607 indicated that there are at least three types of serogroup 127 strains. Our results suggest that the pMJS12 gene probe may be useful in selecting compatible host-strain combinations and in determining the suitability of field sites for the placement of soybean genotypes containing restrictive nodulation alleles.     

Tn5-Mediated Cloning of a Genetic Region from Pseudomonas putida Involved in the Stimulation of Plant Root Elongation

Transposon (Tn5) mutagenesis was applied to Pseudomonas putida GR12-2R3, which promotes root elongation (a phenotype designated Pre) of Brassica campestris under gnotobiotic conditions. Of 3,000 Tn5 transconjugants, only one mutant that lost Pre activity but remained prototrophic and capable of plant root colonization was detected. This mutant was complemented by plasmid pRE53, which contained a 15.0-kilobase DNA insert isolated from a parental strain. The complemented mutant regained full Pre activity comparable to that of the wild type.     

Production of chorismate mutase-prephenate dehydrogenase by a strain of Escherichia coli carrying a multicopy,tyrA plasmid: Isolation and properties of the enzyme

A multicopy plasmid that contains the tyrosine operon has been used to transform strains of Escherichia coli K-12. The resultant strains yielded levels of chorismate mutase-prephenate dehydrogenase that were up to 5000-fold higher than that given by the parent strain and about 6-fold higher than that given by a tyrR strain. The production of enzyme fell when tetracycline was omitted from the growth medium because of the loss of the plasmid. The bifunctional enzyme was isolated in good yield by a simple purification procedure and shown to possess properties identical to those exhibited by the enzyme from a tyrR strain.     

Identification of Erwinia amylovora, the Fireblight Pathogen, by Colony Hybridization with DNA from Plasmid pEA29

All strains of Erwinia amylovora characterized carry a medium-size plasmid of 29 kilobases (pEA29). We mapped this plasmid with various restriction enzymes, cloned the whole DNA into an Escherichia coli plasmid, and subcloned restriction fragments. These DNA species were used for identification of E. amylovora after handling of strains in the laboratory and also in field isolates. About 70 strains of E. amylovora and 24 strains from nine other species, mainly found in plant habitats, were checked in a colony hybridization test. Virulent and avirulent E. amylovora strains reacted positively, whereas the other species were negative. Apart from the hybridization assay, the positive strains were additionally tested for ooze production on rich agar with 5% sucrose and on immature-pear slices. Unspecific background hybridization of non-E. amylovora strains found for hybridization with the whole E. amylovora plasmid was almost eliminated when a 5-kilobase SalI fragment from pEA29 was used as a probe and when the washes after the hybridization procedure were done with high stringency. Under these conditions, E. amylovora could be readily identified from field isolates.     

Plasmid Profiles of Virulent Rhodococcus equi Strains Isolated from Infected Foals in Poland

Rhodococcus equi is an important bacterial pathogen in foals up to 6 months old, widespread in horse farms all over the world. It was found that only virulent R. equi strains expressing 15–17 kDa virulence-associated protein (VapA) and having large virulence plasmid of 85–90 kb containing vapA gene are pathogenic for horses. To date, 12 plasmid types have been reported in VapA positive strains from horses. There are no data concerning plasmid types of Polish field R. equi strains isolated from horses and horse farm environment. The aim of the study is to determine plasmid profiles of virulent R. equi strains isolated in Poland from dead foals as well as from soil samples taken from horse breeding farms. Plasmid profiles of 10 clinical strains derived from 8 farms and 11 environmental strains from 3 farms, confirmed as virulent by PCR, were compared with 12 reference strains containing the known plasmid size and type. Plasmid DNAs were analysed by digestion with the restriction endonucleases BamHI, EcoRI, EcoT22I, and HindIII for detailed comparison and estimation of plasmid sizes. The results of RFLP analysis revealed that all except one isolates used in the study are classified as VapA 85 kb type I plasmid. One strain harboured VapA 87 kb type I plasmid. This is the first report of plasmid types of Polish field R. equi strains. The results of our preliminary investigations on horse farms located in central and eastern Poland indicate that the virulent R. equi strains thus far isolated from diseased foals and horse farms environment represent a highly uniform plasmid pattern.     

Multiple Pathways of Plasmid DNA Transfer in Helicobacter pylori

Many Helicobacter pylori (Hp) strains carry cryptic plasmids of different size and gene content, the function of which is not well understood. A subgroup of these plasmids (e.g. pHel4, pHel12), contain a mobilisation region, but no cognate type IV secretion system (T4SS) for conjugative transfer. Instead, certain H. pylori strains (e.g. strain P12 carrying plasmid pHel12) can harbour up to four T4SSs in their genome (cag-T4SS, comB, tfs3, tfs4). Here, we show that such indigenous plasmids can be efficiently transferred between H. pylori strains, even in the presence of extracellular DNaseI eliminating natural transformation. Knockout of a plasmid-encoded mobA relaxase gene significantly reduced plasmid DNA transfer in the presence of DNaseI, suggesting a DNA conjugation or mobilisation process. To identify the T4SS involved in this conjugative DNA transfer, each individual T4SS was consecutively deleted from the bacterial chromosome. Using a marker-free counterselectable gene deletion procedure (rpsL counterselection method), a P12 mutant strain was finally obtained with no single T4SS (P12ΔT4SS). Mating experiments using these mutants identified the comB T4SS in the recipient strain as the major mediator of plasmid DNA transfer between H. pylori strains, both in a DNaseI-sensitive (natural transformation) as well as a DNaseI-resistant manner (conjugative transfer). However, transfer of a pHel12::cat plasmid from a P12ΔT4SS donor strain into a P12ΔT4SS recipient strain provided evidence for the existence of a third, T4SS-independent mechanism of DNA transfer. This novel type of plasmid DNA transfer, designated as alternate DNaseI-Resistant (ADR) mechanism, is observed at a rather low frequency under in vitro conditions. Taken together, our study describes for the first time the existence of three distinct pathways of plasmid DNA transfer between H. pylori underscoring the importance of horizontal gene transfer for this species.     

Identification of Frankia Strains by Direct DNA Hybridization of Crushed Nodules

A hybridization procedure was developed to identify Frankia strains inside actinorhizae by direct probing of crushed root nodules. The probe consisted of an indigenous cryptic plasmid. This well-conserved, 8-kilobase plasmid was detected in Frankia isolates that were very close taxonomically (they possessed a very high DNA sequence homology). The probe did not hybridize to the DNA of Frankia isolates which did not carry the plasmid. Endophyte DNA was extracted by a modification of a technique originally developed for the detection of plasmids in Frankia isolates. The hybridization procedure applied to nodules collected in a stand of alder permitted determination of a distribution map of the plasmid-bearing Frankia strains.     

Characterization of the replication and stability regions of Agrobacterium tumefaciens plasmid pTAR

A 5.4-kilobase region containing the origin of replication and stability maintenance of the 44-kilobase Agrobacterium tumefaciens plasmid pTAR has been mapped and characterized. Within this region is a 1.3-kilobase segment that is capable of directing autonomous replication. The remaining segment contains the stability locus for maintenance of pTAR during nonselective growth. Approximately 35% of pTAR shares sequence homology with pAg119, a 44-kilobase cryptic plasmid in grapevine strain 1D1119. However, no homology was detected between pTAR DNA and several Ti plasmids or several other small cryptic plasmids in many A. tumefaciens strains. A recombinant plasmid containing the origin of replication and stability maintenance region of pTAR was compatible with pTiC58, pTi15955, and pTi119 and incompatible with pAg119. A new compatibility group, Inc Ag-1, is discussed.     

Asymbiotic Acetylene Reduction by a Fast-Growing Cowpea Rhizobium Strain with Nitrogenase Structural Genes Located on a Symbiotic Plasmid

A procedure was designed which enabled the detection of ex planta nitrogenase activity in the fast-growing cowpea Rhizobium strain IHP100. Nitrogenase activity in agar culture under air occurred at a rate similar to that found for Bradyrhizobium strain CB756 but lower than that for Rhizobium strain ORS571. Hybridization studies showed that both nod and nif genes were located on a 410-kilobase Sym plasmid in strain IHP100.     

Genetic and biochemical characterization of the Escherichia coli K-12 fhuB mutation.

The fhuB region of Escherichia coli K-12 was subcloned from pLC4-44 into pP lac to obtain pCPN1. Deletions of this recombinant plasmid were made, and a 1.4-kilobase PstI fragment was further subcloned into the vector plasmid pKK177-2 to obtain pCPN12. The response of tonA and tonB strains and fhuB strains containing the plasmids to 15 hydroxamate siderophores were assayed. Results showed that tonA strains were deficient only in the utilization of ferrichrome-type siderophores, whereas fhuB strains were deficient in the utilization of all hydroxamate-type siderophores. The response of the plasmid-containing fhuB strains to the siderophores showed that the fhuB gene resides on a 1.4-kilobase PstI fragment of DNA. The proteins synthesized by these plasmids were examined in maxicells of strain CSR603. Plasmid pCPN1 expressed five proteins of molecular weights 78,000, 40,000, 30,000, 24,000, and 13,700. By the use of deletions of pCPN1, the approximate order of the genes for these proteins was determined. Plasmid pCPN12 expressed no proteins other than the beta-lactamase proteins in maxicell strain CSR603. However, in maxicell strain BN660, a lon mutant, it expressed a 20,000-molecular-weight protein. Inner membrane vesicles made from tonB and fhuB strains were able to transport [55Fe]ferrichrome and [55Fe]rhodotorulate at rates similar to those obtained in vesicles from tonB+ and fhuB+ strains.     

Cloning and Expression of an Insecticidal k-73 Type Crystal Protein Gene from Bacillus thuringiensis var. kurstaki into Escherichia coli

A 75-kilobase plasmid from Bacillus thuringiensis var. kurstaki (HD-244) was associated with the k-73 type insecticidal crystal protein production by mating into B. cereus and subsequent curing of excess plasmids. This plasmid was partially digested with endonuclease R · Sau3A and the fragments were cloned into Escherichia coli (HB101) on vector pBR322. Candidate clones were screened for plasmid vectors which contained the expected insert size (at least 3 kilobases) and then with an enzyme-linked immunosorbent assay, using antisera prepared against electrophoretically purified, solubilized insecticidal crystal protein of 130,000 daltons. Several positive clones were isolated and were analyzed for expression, toxicity, and genetic content by restriction enzyme analysis. Electrophoretic transfer blots of proteins from a candidate E. coli clone, analyzed by enzyme-linked immunosorbent assay, demonstrated a predominant cross-reacting protein of about 140,000 daltons. Ouchterlony analysis also showed a single precipitin band. Extensive bioassays with Manduca sexta larvae revealed that the E. coli clones make toxin with a specific activity (50% lethal dose per microgram of cross-reacting protein) equivalent to that of the parental B. thuringiensis strain or a B. cereus trancipient carrying the toxin-encoding, 75-kilobase plasmid.     

Homology of pCS1 Plasmid Sequences with Chromosomal DNA in Clavibacter michiganense subsp. sepedonicum: Evidence for the Presence of a Repeated Sequence and Plasmid Integration

Restriction fragments of pCS1, a 50.6-kilobase (kb) plasmid present in many strains of Clavibacter michiganense subsp. sepedonicum (“Corynebacterium sepedonicum”), have been cloned in an M13mp11 phage vector. Radiolabeled forms of these cloned fragments have been used as Southern hybridization probes for the presence of plasmid sequences in chromosomal DNA of this organism. These studies have shown that all tested strains lacking the covalently closed circular form of pCS1 contain the plasmid in integrated form. In each case the site of integration exists on a single plasmid restriction fragment with a size of 5.1 kb. Southern hybridizations with these probes have also revealed the existence of a major repeated sequence in C. michiganense subsp. sepedonicum. Hybridizations of chromosomal DNA with deletion subclones of a 2.9-kb plasmid fragment containing the repeated sequence indicate that the size of the repeated sequence is approximately 1.3 kb. One of the copies of the repeated sequence is on the plasmid fragment containing the site of integration.     

Genetic Diversity of Pierce's Disease Strains and Other Pathotypes of Xylella fastidiosa

Strains of Xylella fastidiosa isolated from grape, almond, maple, and oleander were characterized by enterobacterial repetitive intergenic consensus sequence-, repetitive extragenic palindromic element (REP)-, and random amplified polymorphic DNA (RAPD)-PCR; contour-clamped homogeneous electric field (CHEF) gel electrophoresis; plasmid content; and sequencing of the 16S-23S rRNA spacer region. Combining methods gave greater resolution of strain groupings than any single method. Strains isolated from grape with Pierce's disease (PD) from California, Florida, and Georgia showed greater than previously reported genetic variability, including plasmid contents, but formed a cluster based on analysis of RAPD-PCR products, NotI and SpeI genomic DNA fingerprints, and 16S-23S rRNA spacer region sequence. Two groupings of almond leaf scorch (ALS) strains were distinguished by RAPD-PCR and CHEF gel electrophoresis, but some ALS isolates were clustered within the PD group. RAPD-PCR, CHEF gel electrophoresis, and 16S-23S rRNA sequence analysis produced the same groupings of strains, with RAPD-PCR resolving the greatest genetic differences. Oleander strains, phony peach disease (PP), and oak leaf scorch (OLS) strains were distinct from other strains. DNA profiles constructed by REP-PCR analysis were the same or very similar among all grape strains and most almond strains but different among some almond strains and all other strains tested. Eight of 12 ALS strains and 4 of 14 PD strains of X. fastidiosa isolated in California contained plasmids. All oleander strains carried the same-sized plasmid; all OLS strains carried the same-sized plasmid. A plum leaf scald strain contained three plasmids, two of which were the same sizes as those found in PP strains. These findings support a division of X. fastidiosa at the subspecies or pathovar level.     

Conjugal Transfer in Lactic Streptococci of Plasmid-Encoded Insensitivity to Prolate- and Small Isometric-Headed Bacteriophages

Eight of 40 strains of Streptococcus lactis and S. lactis subsp. diacetylactis were able to conjugally transfer a degree of phage insensitivity to Streptococcus lactis LM0230. Transconjugants from one donor strain, S. lactis subsp. diacetylactis 4942, contained a 106-kilobase (kb) cointegrate plasmid, pAJ1106. The plasmid was conjugative (Tra⁺) and conferred phage insensitivity (Hsp) and lactose-fermenting ability (Lac) in S. lactis and Streptococcus cremoris transconjugants. The phage resistance mechanism was effective against prolate- and small isometric-headed phages at 30°C. In S. lactis transconjugants, the phage resistance mechanism was considerably weakened at elevated temperatures. A series of deletion plasmids was isolated from transconjugants in S. cremoris 4854. Deletion plasmids were pAJ2074 (74 kb), Lac⁺, Hsp⁺, Tra⁺; pAJ3060 (60 kb), Lac⁺, Hsp⁺; and pAJ4013 (13 kb), Lac⁺. These plasmids should facilitate mapping Hsp and tra genes, with the aim of constructing phage-insensitive strains useful to the dairy industry.     

Replication of plasmid chimera pBR-mtB-A containing rat liver mtDNA fragment in Escherichia coli polA cells

Escherichia coli K-12 strains p108 (polA6), p3478 (polA1), and KS55 (polA12, ts) deficient in DNA polymerase I were transformed by recombinant pBR-mtB-A plasmid containing BamHI-A fragment of rat liver mtDNA and pBR322 plasmid. The physical map of the pBR-mtB-A, containing the recognition sites for SalI, EcoRI and HinIII endonucleases, was constructed and the orientation of mtDNA fragment joined to pBR322 plasmid was studied. The phenotypic selection using ampicillin containing medium at permissive and nonpermissive temperature (KS55 strain), or at 37 °C (polA6 and polA1 strains) revealed that only the cells transformed with the hybrid plasmid are able to grow under these conditions. The presence of mtDNA insertions in chimeric DNA molecules of pBR-mtB-A in polA strains was proved by electrophoretic and hybridization analysis. Thus the results obtained demonstrate the replication of the vehicle containing both plasmid replicon and mitochondrial origin in the conditions nonpermissive for the stable reproduction of the plasmid DNA alone.     

Characterization of plasmids from plant pathogenic pseudomonads

Physical characterization of the resident plasmids from Pseudomonas tabaci, P. angulata, and P. coronafaciens strains indicated that they harbored five different plasmid DNA species. Two ATCC strains of P. tabaci contained indistinguishable plasmids that we have named pJP1 and pJP2. An isolate of one of these strains contained a spontaneous variant of pJP1, pJP1¹, which contains an insertion of 3.9 Mdal. This 3.9-Mdal region did not hybridize to pJP1 indicating that the region was foreign DNA and not a duplication of a segment of DNA already present in pJP1. Another P. tabaci strain, PT27881, contained a third plasmid species, pJP27, which had few similarities to pJP1 or pJP2, but was indistinguishable from the plasmids from all three P. angulata strains. pJP27 and pJP1 had a small region, 8.8 Mdal, of sequence homology. The one strain of P. coronafaciens examined contained a plasmid, pJP50, which was different from the P. tabaci plasmids, but had the 8.8-Mdal region and additional regions of sequence homology with pJP1 and pJP27 as well as homology with a portion of the pJP1¹ insertion. A fourth strain of P. tabaci, PTBR-2, a pathogen on beans, contained plasmid pBW, the only plasmid that lacked detectable regions of homology with the other plasmids.     

Characterization of interspecific plasmid transfer mediated by Bacillus subtilis temperate bacteriophage SP02.

Plasmid pPL1010 is a 7.0-kilobase derivative of plasmid pUB110 that harbors the cohesive end site of the bacteriophage SP02 genome. Plasmid pPL1017 is a 6.8-kilobase derivative of plasmid pC194 that contains the immunity region of bacteriophage phi 105 and the cohesive end site of bacteriophage SP02. These plasmids are transducible by bacteriophage SP02 at a frequency of 10(-2) transductants per PFU among mutant derivatives of Bacillus subtilis 168 and have been transferred to other strains of B. subtilis and B. amyloliquefaciens by means of bacteriophage SP02-mediated transduction, with frequencies ranging from 10(-5) to 10(-7) transductants per PFU. The introduced plasmids were stably maintained in nearly all new hosts in the absence of selective pressure. An exception was found in B. subtilis DSM704, which also harbored three cryptic plasmids. Plasmids pPL1010 and pPL1017 were incompatible with a 7.9-kilobase replicon native to strain DSM704. Furthermore, plasmid pPL1017 was processed by strain DSM704 into a approximately 5.3-kilobase replicon that was compatible with the resident plasmid content of strain DSM704. The use of bacteriophage SP02-mediated plasmid transduction has allowed the identification of Bacillus strains that are susceptible to bacteriophage SP02-mediated genetic transfer but cannot support bacteriophage SP02 lytic infection.     

Apparent Involvement of a Plasmid in Phaseotoxin Production by Pseudomonas phaseolicola

Three naturally occurring toxigenic strains (HB-36, G-50, and HB-33), one nontoxigenic strain (HB-20), and one ultraviolet light-induced toxinless mutant (G-50 Tox⁻) of Pseudomonas phaseolicola were examined by dye-buoyant density equilibrium centrifugation for the presence of plasmid deoxyribonucleic acid. All strains contained plasmid deoxyribonucleic acid. Comparison of the plasmid deoxyribonucleic acid of different strains by agarose gel electrophoresis showed that strain G-50 harbored three plasmids, whereas the rest of the strains contained two plasmids each. Irrespective of their toxigenicity, all strains shared the large-sized first plasmid band, but differed with respect to other plasmids. Restriction endonuclease analyses of the plasmids indicated that a 22.50-megadalton plasmid was common to two of the toxigenic strains (HB-36 and G-50). However, strain HB-33, which is also toxigenic, contained a much smaller plasmid (4.23 megadaltons). It is hypothesized that this small plasmid may have arisen by a recombination event from a larger plasmid.     

Virulence of Agrobacterium tumefaciens Strain A281 on Legumes

This study addresses the basis of host range on legumes of Agrobacterium tumefaciens strain A281, an l,l-succinamopine strain. We tested virulence of T-DNA and vir region constructs from this tumor-inducing (Ti) plasmid with complementary Ti plasmid regions from heterologous nopaline and octopine strains.