Multiple genes coding for octopine-degrading enzymes in Agrobacterium.

Most biotype 2 strains of Agrobacterium tumefaciens and A. radiobacter which utilize nopaline also degrade octopine. In all such strains studied, the ability to degrade octopine did not appear to be transferred to plasmidless recipient cells under conditions of plasmid transfer in which the ability to utilize nopaline was transferred. An octopine-degrading mutant was isolated in a strain cured of its plasmid, suggesting that genes of octopine degradation may have a chromosomal location in some strains. In strains in which octopine utilization is coded by plasmid genes, octopine degradation was always inducible, whereas in strains which degrade both octopine and nopaline, octopine utilization was constitutive although nopaline degradation was inducible. When plasmids coding for octopine-utilizing ability were transformed into a strain containing either a nopaline- or null-type plasmid, transformants able to degrade octopine were either not observed or were unstable upon purification. All of these data suggest that plasmids associated with virulence are incompatible with one another, and therefore imply that the major groups of plasmids associated with virulence have a common origin.     

Transgenic Brassica napus plants obtained by cocultivation of protoplasts with Agrobacterium tumefaciens

Hypocotyl protoplasts of German winter oilseed, rape (Brassica napus) lines of double-low quality were transformed using Agrobacterium tumefaciens harbouring pGV 38501103 neo (dimer) containing chimaeric kanamycin resistance reporter genes. Transformed protoplasts were regenerated to fertile and phenotypically normal plants. Transformation was confirmed by kanamycin resistance, nopaline production, neomycinphosphotransferase II activity, and Southern blot hybridization. Seed progeny from self-pollinated transformants expressed the introduced kanamycin resistance as a Mendelian trait.Abbreviations BAP 6-benzylaminopurine - Cf Claforan^R - 2.4D 2,4-dichlorophenoxy acetic acid - Km kanamycin - MS Murashige and Skoog (1962) - NAA -naphthalene acetic acid - NPT II neomycinphosphotransferase - npt II neomycinphosphotransferase II gene - NOS nopaline synthase - nos nopaline synthase gene - ocs octopine synthase gene - IAA indole-3-acetic acid     

Efficient vir gene induction in Agrobacterium tumefaciens requires virA, virG, and vir box from the same Ti plasmid

The vir genes of octopine, nopaline, and L,L-succinamopine Ti plasmids exhibit structural and functional similarities. However, we observed differences in the interactions between octopine and nopaline vir components. The induction of an octopine virE(A6)::lacZ fusion (pSM358cd) was 2.3-fold higher in an octopine strain (A348) than in a nopaline strain (C58). Supplementation of the octopine virG(A6) in a nopaline strain with pSM358 did not completely restore virE(A6) induction. However, addition of the octopine virA(A6) to the above strain increased virE(A6) induction to a level almost comparable to that in octopine strains. In a reciprocal analysis, the induction of a nopaline virE(C58)::cat fusion (pUCD1553) was two- to threefold higher in nopaline (C58 and T37) strains than in octopine (A348 and Ach5) and L,L-succinamopine (A281) strains. Supplementation of nopaline virA(C58) and virG(C58) in an octopine strain (A348) harboring pUCD1553 increased induction levels of virE(C58)::cat fusion to a level comparable to that in a nopaline strain (C58). Our results suggest that octopine and L,L-succinamopine VirG proteins induce the octopine virE(A6) more efficiently than they do the nopaline virE(C58). Conversely, the nopaline VirG protein induces the nopaline virE(C58) more efficiently than it does the octopine virE(A6). The ability of Bo542 virG to bring about supervirulence in tobacco is observed for an octopine vir helper (LBA4404) but not for a nopaline vir helper (PMP90). Our analyses reveal that quantitative differences exist in the interactions between VirG and vir boxes of different Ti plasmids. Efficient vir gene induction in octopine and nopaline strains requires virA, virG, and vir boxes from the respective Ti plasmids.     

A comparison of virulence determinants in an octopine Ti plasmid, a nopaline Ti plasmid, and an Ri plasmid by complementation analysis of Agrobacterium tumefaciens mutants

Transposon-insertion mutants with vir^? Ti plasmids were characterized and then used in complementation experiments. One of the mutants (LBA 1517) had a mutation in a newly discovered vir locus called virF. The virF mutation led to a strongly diminished virulence on tomato and tobacco, but not on certain other plant species. Also a mutant (LBA 1505) was isolated with a mutation somewhere in the bacterial genome but outside the octopine Ti plasmid that caused a restriction in host range for tumor induction. Introduction of a nopaline Ti plasmid or an Ri plasmid into LBA 1505 did not restore normal virulence, showing that the vir gene affected in LBA 1505 determines a factor which is essential for normal tumor induction both by different types of Ti plasmids and by the Ri plasmid. The introduction of R primes containing part or all of the octopine Ti plasmid virulence region led to a restoration of virulence in strains with a vir^? nopaline Ti plasmid. Also the transfer of an Ri plasmid to a large number of different vir^? octopine or nopaline Ti plasmid mutants rendered these strains virulent. These results indicate that the octopine Ti plasmid, the nopaline Ti plasmid, and the Ri plasmid each have a similar virulence system which can mediate the transfer of T-DNA to plant cells from different types of Ti or Ri plasmids. In complementation experiments between vir^? octopine Ti plasmid mutations and vir^? nopaline Ti plasmid mutations it was found that equivalent functions are determined by the areas of DNA homology in the virulence regions of these two types of Ti plasmids. The previously defined octopine Ti plasmid virC locus appeared to consist of two different loci. One of these loci was found to be in a region of the octopine Ti plasmid which does not share DNA homology with the nopaline Ti plasmid, and was therefore called virO (octopine Ti plasmid specific). For the other locus the name virC was retained. Whereas mutations in the virC locus were avirulent on all plant species tested, mutations in virO were avirulent on tomato and pea, but virulent on sunflower and Nicotiana rustica. VirO^? mutants produced rooty tumors on Kalanchoë tubiflora.     

Octopine- and Nopaline-Inducible Proteins in Agrobacterium tumefaciens Are Also Induced by Arginine

Octopine induced the synthesis of 83, 76, 62, 58, 44, 42, 31, and 22 kDa proteins in Agrobacterium tumefaciens strains harboring the tumor-inducing (Ti) plasmids pTiA6 and pTiAch5. Nopaline induced the synthesis of 83, 76, 62, 58, 56, 44, 42, 31, and 22 kDa proteins in A. tumefaciens strains harboring the Ti plasmids pTiC58 and pTiT37. The molecular masses of proteins induced by octopine and nopaline were very similar. In accordance with the ‘opine concept’, octopine and nopaline were found to induce protein synthesis only in strains harboring the respective Ti plasmids. Arginine, a common catabolic product of octopine and nopaline, induced the synthesis of most of the proteins induced by the two opines. Our results show that only the initial step(s) of octopine and nopaline catabolism are induced by specific opines in the respective strains. The subsequent steps are likely to be regulated by arginine in both strains. Received: 5 January 1996 / Accepted: 21 February 1996     

Comparison between nuclear localization of nopaline- and octopine-specific Agrobacterium VirE2 proteins in plant, yeast and mammalian cells

In a unique case of trans-kingdom DNA transfer, Agrobacterium genetically transforms plants by transferring its DNA segment into the host cell nucleus and integrating it into the plant genome. One of the central players in this process is the bacterial virulence protein, VirE2, which binds the transported DNA molecule and facilitates its nuclear import. Nuclear import of VirE2 proteins encoded by two major Agrobacterium strains, nopaline and octopine, has been hypothesized to occur by different mechanisms, i.e. the nopaline VirE2 was imported only into the nuclei of plant cells while the octopine VirE2 also accumulated in the nuclei of animal cells. Here, this notion was tested by a systematic comparison of nuclear import of nopaline- and octopine-specific VirE2 in dicotyledonous and monocotyledonous plants and in living mammalian and yeast cells. These experiments showed that nuclear import of both nopaline and octopine VirE2 proteins is plant-specific, occurring in plant but not in non-plant systems.     

Virulence of Agrobacterium tumefaciens strains with Brassica napus and Brassica juncea

Summary Brassica napus and Brassica juncea were infected with a number of Agrobacterium tumefaciens strains. Tumourigenesis was very rapid and extremely efficient on B. juncea with all but one of the strains. Tumourigenesis on B. napus varied widely. It was very efficient with the nopaline strains, was reduced with the succinamopine strain A281 and was very weak with the octopine strains. The latter observation was confirmed with six different B. napus rapeseed cultivars. The selectivity was due to differences in the virulence of Ti plasmids with B. napus, rather than the tumourigenicity of the T-DNA or virulence of the chromosomal genes associated with the strains. An exception was strain LBA4404. The virulence of the octopine strains was increased by coinfection with more virulent disarmed strains and by induction with acetosyringone.     

Growth requirements ofArabidopsis thaliana crown galls

Crown galls induced onArabidopsis thaliana plants by octopine or nopaline strains ofAgrobacterium tumefaciens were grownin vitro on different media. Dark growth of all tumor tissues was strictly hormone-dependent. In contrast, hormonal autonomy was observed in the light where crown gall calli readily differentiated into teratomas and (sometimes fertile) plants. Differentiating tissues always grew more vigorously than subtended calli. The growth of transformed calli was stimulated by vitamins and partly inhibited by growth regulators in concentrations used for the maintenance of untransformed calli. Crown gall calli, teratomas and sometimes regenerated plants were shown to express lysopine or nopaline dehydrogenase activities.     

Transport of nonmetabolizable opines by Agrobacterium tumefaciens.

We have examined the uptake of [14C]octopine and [14C]nopaline by Agrobacterium tumefaciens strains containing the C58 chromosomal background in medium suitable for the induction of vir genes. All strains tested could transport both of these opines, regardless of the presence or type of Ti plasmid (octopine or nopaline) present in the bacterium. The transport of these opines required active cellular metabolism. Nonradioactive octopine, nopaline, and arginine competed effectively with [14C]octopine and [14C]nopaline for transport into A. tumefaciens A136, suggesting that the transport of these opines occurs via an arginine transport pathway not encoded by the Ti plasmid.     

Arginine catabolism: a new function of both octopine and nopaline Ti-plasmids of Agrobacterium.

Summary The oncogenic plasmids of Agrobacterium, the Ti-plasmids, carry genes that enable their bacterial host to catabolize opines. Opines are unusual amino acid derivatives that are only produced in crown gall tumours incited by oncogenic strains of Agrobacterium. The 2 opines, octopine and nopaline, are degraded by Agrobacterium strains carrying the octopine or the nopoline Ti-plasmid, respectively, to arginine and pyruvic acid, and to arginine and -ketoglutaric acid. In this paper it is shown that the Ti-plasmids carry gene(s) involved in the utilisation of arginine as a carbon source. Strains harbouring wild type octopine or nopaline Ti-plasmids in the chromosomal context of strain C58C1 do not grow on arginine as a carbon source. However, they are able to grow on arginine provided that they are induced, or constitutive for opine catabolism. The features of ornithine utilisation are identical. The gene(s) involved in arginine and ornithine utilization in C58C1 (pTi-oct) or C58C1 (pTi-nop) are under the control of the regulator gene that controls octopine or nopaline catabolism. A tentative pathway of octopine utilization is proposed, in which at least two steps are Ti-plasmid coded, and probably belong to the same operon: 1-scission of octopine into arginine and pyruvic acid 2-transformation of an arginine derivative (GSA?) to glutamic acid.Arginine utilization as a carbon source is therefore a new function of the Ti-plasmid. As this function is not inducible by arginine but by opines, it provides a method for selecting regulatory mutants of opine catabolism in the genetic background of strain C58.     

Crown gall transformation of lentil (Lens culinaris Medik.) with virulent strains of Agrobacterium tumefaciens

Summary Four diverse strains of Agrobacterium tumefaciens (C58, Ach5, GV3111, and A281) were capable of inducing tumors at a high frequency on inoculated stems of lentil (Lens culinaris Medik. cultivar Laird) in vivo, and on excised shoot apices in vitro. GV3111 and Ach5 produced the largest and heaviest tumors in vivo, while A281 produced the heaviest tumors in vitro. Tumor formation and opine production are indicative of plant cell transformation and tumors produced appropriate opines: nopaline (C58), octopine (Ach5 and GV3111), and agropine and mannopine (A281). Southern analysis of DNA from a tumor line produced by strain C58 showed that a T-DNA fragment had been transferred into the lentil genome.     

Octopine and nopaline synthesis and breakdown genetically controlled by a plasmid of Agrobacterium tumefaciens

Summary Several nopaline degrading strains and one octopine degrading strain are shown to loose oncogenicity as well as the ability to utilize these guanidine compounds when they are cured of their TI plasmid. To investigate whether the specific genes involved in the utilization of one or the other compound are located on the plasmid, plasmid-transfer experiments have been performed.The plasmid from a nopaline degrading strain has been transferred to a naturally non oncogenic Agrobacterium namely A. radiobacter. Furthermore, the plasmid from an octopine degrading strain has been transferred to a plasmid-cured strain which originally had the capacity to utilize nopaline. Both kinds of experiments prove that the TI plasmid determines the strain specificity with regard to the utilization of either octopine or nopaline.They also demonstrate that the synthesis of either octopine or nopaline in crown gall cells is also determined by genes located on the TI plasmid harboured by the transforming A. tumefaciens strains.     

Detection of bacterial chitinase activity in transformed plant tumour cells using a specific exochitinase substrate

Methods for the detection of bacterial chitinase activity were compared. The soluble substrate p-nitrophenyl-ß-D-N,N diacetyl chitobiose (NDC) was more sensitive in detecting purified chitinase of Serratia marcescens than assays measuring degradation of a solid chitin substrate by either radiochemical or colorimetric means. A chimaeric gene containing a S. marcescens chitinase gene under control of a Cauliflower Mosaic Virus 35S promoter and nopaline synthase terminator sequences was constructed and transferred to tobacco tumour cells using Agrobacterium tumefaciens as a vector. The rate of hydrolysis of the NDC substrate was three fold greater with cell extracts of both pooled and individual tumours carrying the chimaeric chitinase gene than in control tumours. It was calculated from the enzyme activity data that the foreign bacterial chitinase contributed 0.1% of the total soluble protein in transformed plant cells. This level of expression of this gene was not detectable using the less sensitive assays employing solid chitin substrate. These results indicate that NDC is a preferable substrate for assaying bacterial chitinase in transformed plant cells.     

Interactions between octopine and nopaline plasmids in Agrobacterium tumefaciens.

Transfer of octopine Ti plasmids to strains already carrying an octopine Ti plasmid was found to occur at the same (high) frequency as transfer to Ti plasmid lacking recipients, showing that resident Ti plasmids do not exhibit entry exclusion towards incoming Ti plasmids. The resident octopine Ti plasmid was lost by the recipient after the entrance of the incoming Ti plasmid, which is indicative of the incompatibility between the Ti plasmids. Octopine Ti plasmids were found to become established only infrequently in recipients with a nopaline Ti plasmid and, vice versa, nopaline Ti plasmids were only rarely established in recipients with an octopine Ti plasmid. Rare clones in which the incoming octopine (nopaline) Ti plasmid had been established despite the presence of a nopaline (octopine) Ti plasmid appeared to harbor cointegrates consisting of the entire incoming Ti plasmid and the entire resident Ti plasmid. The integration event invariably had occurred in a region of the plasmids that is highly conserved in evolution and that is essential for oncogenicity. These results show that octopine and nopaline Ti plasmids cannot be maintained as separate replicons by one and the same cell. Therefore, be definition, these plasmids belong to the same incompatibility group, which has been names inc Rh-1. Agrobacterial non-Ti octopine and nopaline plasmids were found to belong to another incompatibility group. The tumorigenic properties of strains harboring two different Ti plasmids, in a cointegrate structure, were indicative of the virulence genes of both of them being expressed. The agrobacterial non-Ti octopine and nopaline plasmids did not influence the virulence properties encoded by the Ti plasmid.     

Construction of Agrobacterium strains by electroporation of genomic DNA and its utility in analysis of chromosomal virulence mutations.

We have extended the technique of electroporation as a genetic tool for manipulating the Agrobacterium tumefaciens chromosome. We used this technique to introduce chromosomal DNA into recipient A. tumefaciens strains by electroporation and constructed isogenic chvE mutants that share the same chromosomal background but differ in their types of pTi (octopine or nopaline). Both nopaline and octopine pTi-carrying chvE mutants were deficient in vir regulon induction and exhibited similar reductions in host range.     

Studies on the structure of cointegrates between octopine and nopaline Ti-plasmids and their tumour-inducing properties

Stable cointegrates between incRh-1 octopine (Ach5) and nopaline (C58) Ti-plasmids, present in ten independently isolated Agrobacterium tumefaciens strains, showed identical restriction endonuclease patterns. Each cointegration event had taken place in the common sequence between the T-regions of both Ti-plasmids. This illustrates a high preference for this region when used in the formation of cointegrates. Four crown gall tissues, obtained after transformation of Nicotiana tabacum cells by one of the mutants, were analysed by using Southern blot analysis for their T-DNA structure. The borders of T-DNA frequently appeared to differ from T-DNA borders previously detected in tumour tissues that had been induced by Agrobacterium strain C58 or Ach5. Therefore, it was concluded that possibly a less stringent mechanism exists for the integration into plant DNA of T-DNA, derived from a composite (octopine/nopaline) T-region than for integration of T-DNA from a normal (octopine or nopaline) T-region.Abbreviations Agr sensitivity to agrocin 84 - Ape phage Apl exclusion - Cb resistance to carbenicillin - Occ octopine catabolism - Ocs octopine synthesis - Noc nopaline catabolism - Nos nopaline synthesis - Rec recombination - Tra transfer - Vir virulence     

Two unlinked T-DNAs can transform the same tobacco plant cell and segregate in the F1 generation

Summary The 200 kb Agrobacterium Ti-plasmid pTiT37 carries a 25 kb segment of T-DNA which it transfers to plant cells during crown-gall tumorigenesis. We have previously engineered into this T-DNA a pBR322-derived cloning vector which enabled us to rescue-clone full length T-DNA from the Ti-plasmid into a 36 kb MINI-Ti plasmid. We report here the deletion of oncogenes from MINI-Ti to produce Micro-Ti containing the nopaline synthase gene and the ampicillin resistance gene and origin of replication of pBR322, flanked by left and right T-DNA borders. Micro-Ti was recloned into the wide host range plasmid pRK290 and transformed into an A. tumefaciens strain carrying a helper plasmid that could supply Virulence (VIR) genes in trans. Using the octopine Ti-plasmid pTiB6-806 as a helper, transformed tobacco cells were obtained which produced both nopaline and octopine. Two cloned cell lines producing both opines were found to be hormone dependent and to produce fertile tobacco plants. We selfed one of these plants and found that the two opine markers segregated in the F1 progeny in a Mendelian fashion. This showed that the T-DNAs were not linked in the transformed plant genome. Southern blot analysis of the genomic DNA from the regenerated plant showed that only part of the (oncogenic) octopine T-DNA was present indicating that it had suffered a deletion in the auxin producing locus (tms region). Presence of the cytokinin autonomy locus presumably accounts for the abnormal rooting behavior of the F1 progeny seedlings containing this T-DNA.Abbreviations NAA Naphtalene acetic acid - IAA Indole-3-acetic acid - BA 6-benzylaminopurine - pCPA para-chlorophenoxyacetic acid Part of this work was presented for her doctoral thesis by A. JdF at the National Institute of Agronomy of Paris-Grignon, January 1983     

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.     

Characterization of the enzyme responsible for nopaline and ornaline synthesis in sunflower crown gall tissues

Extracts prepared from sunflower (Helianthus annuus L.) crown gall tissues induced by Agrobacterium tumefaciens strains C58 and T37 (nopaline utilizers) catalyze the synthesis of nopaline and ornaline. These compounds are not synthesized in extracts of crown gall tissues induced by strains B6, 15955 (octopine utilizers), and AT1 (utilizes neither octopine nor nopaline) or in extracts of habituated sunflower callus. Both synthetic activities require NADPH, α-ketoglutarate, and either arginine or ornithine; histidine and lysine will not substitute. Incorporation of arginine or ornithine into product is inhibited by the other substrate but not by histidine or lysine. On the basis of inhibition and K_m data, both activities appear to be catalyzed by one enzyme and the same enzyme is apparently present in crown gall tissues induced by strains C58 and T37.     

Environmental conditions differentially affect vir gene induction in different Agrobacterium strains. Role of the VirA sensor protein

The induction of vir gene expression in different types of Agrobacterium strains shows different pH sensitivity profiles. The pH sensitivity pattern demonstrated by octopine Ti strains was similar to that of a supervirulent leucinopine Ti strain, whereas this was different from that shown by nopaline Ti strains and agropine Ri strains. Data are given which indicate that these differences are due to different properties of the virA genes of these wild types. An exceptional case was formed by strains with the limited-host-range plasmid pTiAG57 which showed AS-dependent vir induction only if reduced inoculum sizes were used and the temperature was 28°C or below.