Agrobacterium plasmids encode structurally and functionally different loci for catabolism of agrocinopine-type opines

Summary Agrobacterium tumefaciens strains C58, T37, K827 and J73, A. rhizogenes strains A4 and 15834, and A. radiobacter strain K299 were all susceptible to agrocin 84 and this sensitivity was enhanced in each case by addition of agrocinopines A and B. Analysis of transconjugants showed that sensitivity of strain A4 to agrocin 84 was encoded by pArA4a and not by the rhizogenic plasmid, pRiA4. The acc region of the A. tumefaciens nopaline-type Ti plasmid pTiC58, contained on the recombinant plasmid pTHH206, hybridized strongly to restriction fragments of plasmids from strains T37, K827, J73 and K299. Hybridizing fragment patterns generated with BamHI and EcoRI were identical among the four Ti plasmids while pAtK299 showed restriction fragment length polymorphisms at acc with the two enzymes. At moderate stringency, the pTiC58 acc region hybridized weakly to a single restriction fragment from the Ar plasmid of A. rhizogenes strain A4, but not to pTiBo542, which encodes catabolism of the closely related opines agrocinopines C and D. Plasmid pAtK84b of A. radiobacter strain K84 is induced for conjugal transfer by agrocinopines A and B. However, no hybridization was detected between this plasmid and acc from pTiC58 under conditions of moderate stringency. Like pTiC58, pAtK84b conferred transport of agrocinopines A and B on its host bacteria despite the absence of detectable sequence homology with the pTiC58-derived acc probe. However, unlike pTiC58, pAtK84b failed to confer sensitivity to or uptake of agrocin 84 on its bacterial host. These results indicate that at least four distinguishable systems exist for catabolism of the two agrocinopine opine families with the prototype locus, exemplified by acc from pTiC58, being strongly conserved among nopaline-type Ti plasmids.     

Broad-Host-Range Agrocin of Agrobacterium tumefaciens

Eighteen strains of Agrobacterium tumefaciens isolated from crown galls were tested for agrocin production. Of six agrocin-producing strains, one (D286) produced a broad-host-range agrocin active against strains carrying nopaline, octopine, and agropine type Ti plasmids. Sensitivity to agrocin D286 was found to map in the 11- to 18-megadalton region of the nopaline Ti plasmid pTiC58. The agrocin was partially purified, and its physical characteristics were consistent with its being a nucleotide, as is agrocin 84. Agrocin D286 was shown to inhibit DNA, RNA, and protein syntheses. Strain D286 spontaneously lost its pathogenicity, and its potential for use in the biological control of crown gall is discussed.     

NewAgrobacterium helper plasmids for gene transfer to plants

We describe the construction of new helper Ti plasmids forAgrobacterium-mediated plant transformation. These plasmids are derived from three differentAgrobacterium tumefaciens Ti plasmids, the octopine plasmid pTiB6, the nopaline plasmid pTiC58, and the L,L-succinamopine plasmid pTiBo542. The T-DNA regions of these plasmids were deleted using site-directed mutagenesis to yield replicons carrying thevir genes that will complement binary vectorsin trans. Data are included that demonstrate strain utility. The advantages ofAgrobacterium strains harbouring these disamed Ti plasmids for plant transformation viaAgrobacterium are discussed.     

Characteristics of the nopaline catabolic plasmid in Agrobacterium strains K84 and K1026 used for biological control of crown gall disease

Wild-type Agrobacterium radiobacter strain 84 and its Tra- derivative K1026, used for biological control of crown gall disease, each contain the plasmid pAtK84b. It confers incompatibility to tumor-inducing (Ti) plasmids of pathogenic A. tumefaciens, thus preventing transfer of Ti plasmids into K84 and K1026, and the consequent development of pathogens resistant to the specific antibiotic, agrocin 84 produced by K84 and K1026. pAtK84b also resembles one group of Ti plasmids in its capacity for directing nopaline catabolism. A study of the DNA homology among pAtK84b, pTiC58, and pTiAch5 was carried out. pAtK84b was transferred by conjugation to a plasmidless recipient and, after isolation, was hybridized with Ti plasmid DNA. Areas of DNA homology were located on published maps of pTiC58 and pTiAch5, a restriction enzyme map of pAtK84b was constructed, and areas of homology with DNA of known genetic function were located on the map. Strong and extensive (over 50%) homology was found between pAtK84b and pTiC58 (nopaline catabolic, Noc), but much less between pAtK84b and pTiAch5 (octopine catabolic). There was no detectable homology between pAtK84b and the oncogenic T-DNA and virulence (Vir) regions of either Ti plasmid. The size of pAtK84b was 173 kb and the orientation of regions of identified gene function (Noc, incompatability/origin of replication, and conjugal transfer) on pTiC58 was matched by the locations of homologous areas on pAtK84b. It is concluded that pAtK84b may be a deletion product of a pTiC58-type plasmid which has been disarmed in the oncogenic T-DNA and Vir regions.     

Characterization of conjugal transfer functions of Agrobacterium tumefaciens Ti plasmid pTiC58.

Physical characterization of 13 transposon Tn5 insertions within the agrocinopine-independent, transfer-constitutive Ti plasmid pTiC58Trac identified three separate loci essential for conjugation of this nopaline/agrocinopine A + B-type Ti plasmid. Complementation analysis with relevant subcloned DNAs indicated that the three physically separated blocks of conjugal genes constitute distinct complementation groups. Two independent Tn5 insertions within the wild-type, agrocinopine-dependent, repressed pTiC58 plasmid resulted in constitutive expression of conjugal transfer. These two insertions were physically indistinguishable and could not be complemented in trans. However, the Trac phenotype resulted when the Tn5-mutated fragment cointegrated into the wild-type Ti plasmid. While the spontaneous Trac mutant Ti plasmids were also derepressed for agrocinopine catabolism, those generated by Tn5 insertions remained inducible, indicating that this apparent cis-acting site is different from that affected in the spontaneous mutants. No chromosomal Tn5 insertion mutations were obtained that affected conjugal transfer. An octopine-type Ti plasmid, resident in different Agrobacterium tumefaciens chvB mutants, transferred at normal frequencies, demonstrating that this virulence locus affecting plant cell binding is not required for Ti plasmid conjugation. None of our conjugal mutants limited tumor development on Kalanchoe diagremontiana. Known lesions in pTiC58 vir loci had no effect on conjugal transfer of this Ti plasmid. These results show that pTiC58 Ti plasmid conjugal transfer occurs by functions independent of those required for transfer of DNA to plant cells.     

Occurrence of free and conjugated 12,13-epoxytrichothecenes and zearalenone in banana fruits infected with Fusarium moniliforme.

Agrobacterium tumefaciens J73, a biotype 2 strain harboring a nopaline Ti plasmid, was found to produce an agrocin active against a broad range of A. tumefaciens strains, including grapevine isolates. Sensitivity to J73 is not encoded by a Ti plasmid. Optimal conditions for the production of the agrocin were determined.     

Essential Components of the Ti Plasmid trb System, a Type IV Macromolecular Transporter

The trb operon from pTiC58 is one of three loci that are required for conjugal transfer of this Ti plasmid. The operon, which probably codes for the mating bridge responsible for pair formation and DNA transfer, contains 12 genes, 11 of which are related to genes from other members of the type IV secretion system family. The 12th gene, traI, codes for production of Agrobacterium autoinducer (AAI). Insertion mutations were constructed in each of the 12 genes, contained on a full-length clone of the trb region, using antibiotic resistance cassettes or a newly constructed transposon. This transposon, called mini-Tn5Ptrb, was designed to express genes downstream of the insertion site from a promoter regulated by TraR and AAI. Each mutation could trans complement downstream Tn3HoHo1 insertions in the trb operon of full-sized Ti plasmids. When marker-exchanged into the transfer-constitutive Ti plasmid pTiC58DeltaaccR mutations in trbB, -C, -D, -E, -L, -F, -G, and -H abolished conjugal transfer from strain UIA5, which lacks the 450-kb catabolic plasmid pAtC58. However, these mutants retained residual conjugal transfer activity when tested in strain NT1, which contains this large plasmid. The trbJ mutant failed to transfer at a detectable frequency from either strain, while the trbI mutant transferred at very low but detectable levels from both donors. Only the trbK mutant was unaffected in conjugal transfer from either donor. Transfer of each of the marker-exchange mutants was restored by a clone expressing only the wild-type allele of the corresponding mutant trb gene. An insertion mutation in traI abolished the production of AAI and also conjugal transfer. This defect was restored by culturing the mutant donor in the presence of AAI. We conclude that all of the trb genes except trbI and trbK are essential for conjugal transfer of pTiC58. We also conclude that mutations in any one of the trb genes except traI and trbJ can be complemented by functions coded for by pAtC58.     

Ti plasmid and chromosomal ornithine catabolism genes of Agrobacterium tumefaciens C58.

The pTiC58 plasmid noc genes of Agrobacterium tumefaciens C58 code for nopaline oxidase (nocC), nopaline permease (nocP), the inducible periplasmic protein n1 (nocB), and a function(s) required for ornithine catabolism (nocA). In addition, strains C58 and Ach-5 of A. tumefaciens have chromosomal ornithine catabolism genes. The chromosomal orc gene codes for ornithine dehydrogenase. Strain C58 is normally orc, but orc+ mutants can be selected. We have characterized both chromosomal orc and pTiC58 nocA plasmid genes. Complementation of most chromosomal orc mutants by pTiC58 restored growth on both nopaline and L-ornithine but did not restore ornithine dehydrogenase activity. We conclude that ornithine is an intermediate of nopaline degradation and that the Ti plasmid and chromosome both code for ornithine-degradative enzymes. A model for nopaline catabolism is presented.     

Dynamic structure of Agrobacterium tumefaciens Ti plasmids.

Agrobacterium tumefaciens C58F is a variant of strain C58 which generates a high proportion of avirulent mutants in the presence of the virulence (vir) gene inducer acetosyringone. These mutants are altered in the Ti plasmid and do not respond to the acetosyringone signal (C. Fortin, E. W. Nester, and P. Dion, J. Bacteriol. 174:5676-5685, 1992). The physical organization of the Ti plasmid was compared in strain C58 and its variant. One feature distinguishing pTiC58F from its parent plasmid was the presence of the insertion element IS426. Three copies of this element were detected in the strain C58 chromosome, whereas two additional copies were found in strain C58F, including one copy in the Ti plasmid. This particular copy of IS426 was associated with the region of arginine and nopaline catabolism of pTiC58F. Most of the avirulent mutants recovered following growth of strain C58F in the presence of acetosyringone were complemented by clones carrying either virA or virG. Element IS426 was no longer found in the arginine and nopaline catabolism region of the Ti plasmids from the virA and virG mutants, but it resided in the particular KpnI fragment containing the modified vir locus. Behavior of a strain C58F derivative, which was inactivated in a chromosomal component required for the response to acetosyringone, was consistent with the possibility that vir gene induction is essential to the massive production of avirulent mutants.     

A functional map of the nopaline catabolism genes on the Ti plasmid of Agrobacterium tumefaciens C58

Summary The nopaline catabolism (noc) genes are located in a 14.4 kb region on the pTiC58 plasmid of A. tumefaciens C58. These genes permit the bacterium to grow on nopaline N²-(1,3-dicarboxylpropyl) arginine, a substrate produced in plant tumors initiated by strain C58. The functions of the noc genes include the use of nopaline and L-ornithine as sole carbon and nitrogen sources. Using Tn5 insertional mutants, we have identified and mapped the positions of the genes that are responsible for nopaline catabolism (NopC), ornithine catabolism (OrnC) and nopaline uptake (NopU). A polar relationship was found between these phenotypes, which extended leftward over the noc region to the T-region. The NopC mutants were also deficient in nopaline oxidase, an enzyme that liberates free arginine from nopaline.The noc region also encodes the synthesis of a periplasmic protein, n1 that was induced by nopaline. Tn5 insertional mutations and molecular cloning were used to map the n1 production locus. The recombinant plasmids, pSa4480 and pSa4481, containing the 8.9 kb right-hand end of the noc region, conferred n1 production when introduced into a pTi-free strain of A. tumefaciens. Production of n1 by the strains carrying these plasmids required nopaline induction.We have identified in toto three noc loci: nocB, nocC, and nocA, which confer n1 production, nopaline oxidase production and ornithine catabolism respectively. A model is proposed whereby the noc genes of pTiC58 are contained on a leftward reading operon in the order nocB, nocC, and nocA.     

Bacteriocin production inAgrobacterium tumefaciens

Agrobacterium tumefaciens C58 forms “plaques” during layer cultivation. The “plaques” were shown not to be caused by the presence of a temperate bacteriophage or by random contamination. The “plaques” and their central microcolonies were used to repeatedly isolate cultures producing an antibiotic substance against the original strainA. tumefaciens C58, other nopaline strains, some octopine strains ofA. tumefaciens and some strains of the related genusRhizobium. The substance is thus a bacteriocin; in analogy to agrocins 84 and D286 it was named agrocin C58. The agrocin is not inactivated by trypsin. Its production by strain C58 was found only on cultivation on solid but not liquid media. The producing isolate ofA. tumefaciens C58 (strain C58i2) contains neither plasmid pTiC58 nor the plasmid analogous to pAgK84 which controls the production of agrocin 84 inA. radiobacter K84.     

Physical map of the vitopine Ti plasmid pTiS4.

Within the Agrobacterium vitis group the vitopine strains represent a special subclass. Vitopine bacteria carry Ti plasmids with little or no homology with the well-characterized T-DNAs of Agrobacterium tumefaciens or Agrobacterium rhizogenes. The 262-kb Ti plasmid of the vitopine strain S4 was cloned and mapped. Homology studies with the octopine Ti plasmid pTiAch5, the nopaline Ti plasmid pTiC58, and the agropine/mannopine Ri plasmid pRiHRI identified several regions of homology. The origin of replication was localized to within 2.5 kb.     

Wide host range cloning vectors: a cosmid clone bank of an Agrobacterium Ti plasmid

Plasmids from two virulent strains of Agrobacterium rhizogenes belonging to biotypes 1 and 2 are compared for DNA homology with the nopaline Ti plasmid from Agrobacterium tumefaciens C58 by means of Southern blot hybridizations. We find that both A. rhizogenes plasmids share strong sequence homology with regions of the Ti plasmid that affect oncogenicity of A. tumefaciens C58. The biotype 1 plasmid shows an additional region of homology at approximately the position of the genes responsible for conjugative transfer of pTiC58. Neither A. rhizogenes plasmid shows any detectable homology with the T-DNA of A. tumefaciens C58. Possible analogies between hairy root and crown gall induction are discussed on the basis of the results presented.     

Localization and restriction maps of the replication origin regions of the plasmids of Agrobacterium rhizogenes strain A4

Summary Banks of cosmids of the plasmids of the agropine-type Agrobacterium rhizogenes strain A₄ were used to transform Agrobacterium tumefaciens strain C58C1, which lacks a Ti plasmid. Hybrid cosmids able to be maintained in this strain were subcloned to localize precisely the origin of replication regions. These regions were mapped with restriction enzymes and compared by hybridization with those of Agrobacterium tumefaciens nopaline pTiC58 and octopine pTiAch5. This led to the characterization of three new plasmids suitable as cloning vectors in Escherichia coli and A. tumefaciens. They are compatible with pTi and pAt plasmids of A. tumefaciens and are maintained stably, even without selection pressure.     

Relationship between Nif plasmids of fast-growing Rhizobium species and Ti plasmids of Agrobacterium tumefaciens.

By use of the Southern blot hybridization technique the extent of DNA homology was determined between the Nif plasmid of a number of fast-growing Rhizobium species and Ti plasmids of the octopine (pTiAch5) and nopaline (pTiC58) type. DNA sequences common to these plasmids were located on functional maps of the Ti plasmids. No homology between Nif plasmids and the T region of Ti plasmids was detected.     

Physical mapping of DNA base sequence homologies between an octopine and a nopaline Ti plasmid of Agrobacterium tumefaciens

A detailed physical map of the homologous and non-homologous regions between an octopine (pTiAch5) and a nopaline (pTiC58) Ti plasmid was determined by Southern type hybridization and by electron microscope heteroduplex analysis. This map was correlated with the functional maps of both plasmids. For the Southern type hybridizations, total labelled pTiAch5 DNA was hybridized to Southern blots of restriction fragments from a series of hybrid plasmids containing overlapping segments of the whole TiC58 plasmid. Reciprocal experiments were also carried out. The common sequences between the two plasmids (±30%) are restricted to four major stretches of homology. Analysis of heteroduplexes between pTiAch5 and several hybrid plasmids containing specific regions of pTiC58, and of heteroduplexes between hybrid plasmids derived from pTiC58 and pTiAch5 provided a detailed map of the fine structure of the four major homology regions. Two regions are distributed in the same relative order as compared to a common reference point, and two are inversed. Three regions contain a number of small, mostly asymmetrical substitution loops. Several regions distributed over the common DNA sequences were found to be partially homologous.     

Ornithine cyclodeaminase from octopine Ti plasmid Ach5: identification, DNA sequence, enzyme properties, and comparison with gene and enzyme from nopaline Ti plasmid C58.

Octopine and nopaline are two arginine-derived opines synthesized in plant cells transformed with octopine or nopaline plasmids. Utilization in Agrobacterium tumefaciens is mediated by Ti plasmid regions called occ or noc (octopine or nopaline catabolism), and recent experiments showed that noc in pTiC58 codes for a pathway from nopaline to L-proline. The last enzyme is ornithine cyclodeaminase (OCD), an unusual protein converting L-ornithine directly into L-proline. We investigated whether octopine plasmid pTiAch5 also harbors a gene for OCD. The results revealed an ocd gene which is induced by octopine and maps in the occ region. DNA sequence analysis and comparison with the gene from pTiC58 showed that the two genes are related (69% homology in DNA and deduced amino acid sequence), and antiserum against OCD(C58) also reacted with OCD(Ach5). The enzyme activity was characterized, and a comparison with OCD(C58) showed that the properties are similar, but not identical. Differences were detected in the regulation of enzyme activity by L-arginine and L-proline and in the response to varying ratios of NAD+/NADH. It is proposed that this reflects different mechanisms for integration of opine catabolism into general metabolism.     

Transfer of the octopine T-DNA segment to plant cells mediated by different types of Agrobacterium tumor- or root-inducing plasmids: generality of virulence systems.

Genetic complementation studies demonstrated that the transfer to plant cells of the octopine T-DNA, entirely present as the only part of the tumor-inducing (Ti) plasmid on the plasmid pAL1050, was effected by the virulence systems from related plasmids, viz. the nopaline Ti plasmid pTiC58, the limited host range plasmid pTiAg57, and the root-inducing (Ri) plasmid pRi1855. Rhizobium symbiosis plasmids were not capable of effecting the introduction of pAL1050 into plant cells.     

Characteristics of Ti plasmids from broad-host-range and ecologically specific biotype 2 and 3 strains of Agrobacterium tumefaciens.

Agrobacterium tumefaciens strains isolated from crown gall tumors on grapevines in California were consistently of the biotype 3 group. All 11 of these strains were limited in their host range and harbored Ti plasmids with molecular masses between 119 and 142 megadaltons (Mdal) as well as a larger cryptic plasmid of greater than 200 Mdal; occasionally a smaller cryptic plasmid of 65 Mdal was also present. Ti plasmids o these strains have DNA sequences in common with Ti plasmids of octopine and nopaline strains belonging to the biotype 1 group and exhibited sequence homologies with the conserved region of the T-DNA. Ten of the 11 strains utilized octopine as a sole source of carbon and nitrogen and 3 strains catabolized both octopine and nopaline, whereas 1 strain catabolized only nopaline. All of these strains were resistant to the bacteriocin agrocin-84, except one grapevine strain that belonged to the biotype 1 group and was agrocin sensitive; it is also differed in its plasmid and virulence characteristics. Isolations from Rubus ursinus ollalieberry galls yielded exclusively biotype 2 strains. These strans were insensitive to agrocin-84, utilized nopaline as a sole carbon and nitrogen source, and were highly virulent on all host plants tested. They contained Ti plasmids ranging between 100 and 130 Mdal and occasionally a cryptic plasmid of 69 Mdal. Their Ti plasmids have DNA sequences in common with Ti plasmids of biotype 1 strains and with the conserved region of the T-DNA.     

Nucleotide sequence of the virG locus of the Agrobacterium tumefaciens plasmid pTiC58

The nucleotide sequence of the virG locus of the nopaline type plasmid pTiC58 of Agrobacterium tumefaciens has been determined. It contains an open reading frame (ORF) of 759 nucleotides and has 77% homology to the virG sequences of octopine type plasmids. Differences between the sequences of the two types of Ti plasmids in the region of virG are located predominantly outside the ORF. The amino acid sequences inferred from the two virG genes show 80% homology to each other and each shows the same moderate homologies to amino acid sequences derived from genes in a family of two-component regulatory systems. Specific differences in nucleotide and amino acid sequences as well as a structure-function model for the gene product are discussed.