Octopine synthase mRNA isolated from sunflower crown gall callus is homologous to the Ti plasmid of Agrobacterium tumefaciens

Leucinopine, a characteristic compound of some crown-gall tumors

An unusual compound has been found in crowngall tumors induced by those Agrobacterium tumefaciens strains that utilize neither octopine nor nopaline. The compound has been isolated and shown by proton and carbon-13 NMR spectroscopy and by synthesis to be N(2)-(1,3-dicarboxypropyl)-L-leucine, which also exists in a cyclized (i.e., lactam) form. This compound, which we name "leucinopine," was not detected in octopine tumors, nopaline tumors, or the tumors induced by A. tumefaciens strains 181 and EU6.

The reversed terminator of octopine synthase gene on the Agrobacterium Ti plasmid has a weak promoter activity in prokaryotes

Agrobacterium tumefaciens transfers DNA from its Ti plasmid to plant host cells. The genes located within the transferred DNA of Ti plasmid including the octopine synthase gene (OCS) are expressed in plant host cells. The 3'-flanking region of OCS gene, known as OCS terminator, is widely used as a transcriptional terminator of the transgenes in plant expression vectors. In this study, we found the reversed OCS terminator (3'-OCS-r) could drive expression of hygromycin phosphotransferase II gene (hpt II) and beta-glucuronidase gene in Escherichia coli, and expression of hpt II in A. tumefaciens. Furthermore, reverse transcription-polymerase chain reaction analysis revealed that an open reading frame (ORF12) that is located downstream to the 3'-OCS-r was transcribed in A. tumefaciens, which overlaps in reverse with the coding region of the OCS gene in octopine Ti plasmid.

Growth of Agrobacterium tumefaciens under octopine limitation in chemostats

Agrobacterium tumefaciens B6 and ATCC 15955 were grown under octopine or glutamate limitation in chemostats. Examination of the maximum specific growth rate (mu max) and substrate affinity (KS) for each strain indicated that strain B6 was highly inefficient in its use of octopine as either a nitrogen or carbon source compared with strain ATCC 15955. Examination of the yield coefficients showed that in both strains octopine was used more efficiently as a nitrogen source than as a carbon source. The data permitted predictions to be made concerning the outcome of competition for a single limiting substrate. Under octopine limitation, strain ATCC 15955 should dominate; under glutamate limitation, strain B6 should dominate. The results of an observed competition with glutamate as the limiting substrate confirmed the latter prediction, although B6 did dominate at a rate faster than was predicted from simple competition theory. B6 displayed higher growth rates and substrate affinities than ATCC 15955 on all concentrations of glutamate. The yield of B6 on octopine was also considerably higher. This latter attribute could provide an ecological advantage to B6 because of the importance of yield in the fate of competitions under multisubstrate regimens. These will be the most prevalent regimens in the area around the tumor (tumorosphere) or the rhizosphere. The increased performance on glutamate could provide an advantage in an opine-free environment when B6 is growing as a saprophyte.

Altered imino diacid synthesis and transcription in crown gall tumors with transposon Tn5 insertions in the 3' end of the octopine synthase gene

Octopine synthase encoded by the T-DNA (transferred DNA) locus ocs synthesizes N2-(D-1-carboxyethyl)-L-amino acids in octopine-type crown gall tumors. So far, derivatives of only basic amino acids have been isolated. We have detected a glutamine derivative and called it heliopine. Tumors induced by several Ti plasmids with transposon Tn5 insertions in the 3' end of ocs still synthesized small quantities of N2-(1-carboxyethyl)-arginine and N2-(1-carboxyethyl)-glutamine. In addition, N2-(1,3-dicarboxypropyl)-asparagine, which is absent in wild-type octopine tumors, was detected in these tumors. These three imino diacids (octopine, heliopine, and asparaginopine, respectively, or their isomers) were undetectable in tumors induced by Ti plasmids harboring deletions of the ocs gene. Poly(A)+ RNAs which hybridize to the ocs sequence can also be detected in the ocs::Tn5 tumors; these RNAs, however, were heterogeneous in size and shorter in length than the normal ocs mRNA. These results indicate that mutant ocs products synthesize imino diacids in these ocs::Tn5 tumors.

Functional domains of a T-DNA promoter active in crown gall tumors

Promoter domains required for transcriptional expression of the 780 gene of T-right (pTi15955) were identified by deletion mutagenesis. Accurate quantitation of transcriptional activity of a series of 5' and internal deletion mutants was achieved by using a double gene vector containing a reference 780 gene as an internal standard. Results of the 5' deletions delineated an activator element located between -440 and -229 base pairs (bp) from the start of transcription. Removal of this region resulted in a 100-fold decrease in promoter activity. Two relatively small internal deletion/substitution mutations at positions -74 to -76 and -98 to -112 reduced promoter activity to 38 and 42%, respectively. In most cases large-scale internal deletions (38 to 151 bp) occurring in various locations from positions -12 to -348 bp caused a significant loss in major promoter activity. However, three internal deletions starting at position -37 and extending upstream as far as -153 bp either had little effect on transcriptional activity or resulted in increased activity. Removal of the TATA motif drastically reduced promoter activity to less than 0.1% of the wild type. A minor start of transcription was detected 60 bases upstream from the major transcriptional start site. This minor promoter shares the same activator element as the major promoter for full activity. Deletion and insertion mutations downstream of the minor promoter TATA demonstrated the role of the TATA box in positioning the start of transcription.

Functional domains of a T-DNA promoter active in crown gall tumors

Promoter domains required for transcriptional expression of the 780 gene of T-right (pTi15955) were identified by deletion mutagenesis. Accurate quantitation of transcriptional activity of a series of 5' and internal deletion mutants was achieved by using a double gene vector containing a reference 780 gene as an internal standard. Results of the 5' deletions delineated an activator element located between -440 and -229 base pairs (bp) from the start of transcription. Removal of this region resulted in a 100-fold decrease in promoter activity. Two relatively small internal deletion/substitution mutations at positions -74 to -76 and -98 to -112 reduced promoter activity to 38 and 42%, respectively. In most cases large-scale internal deletions (38 to 151 bp) occurring in various locations from positions -12 to -348 bp caused a significant loss in major promoter activity. However, three internal deletions starting at position -37 and extending upstream as far as -153 bp either had little effect on transcriptional activity or resulted in increased activity. Removal of the TATA motif drastically reduced promoter activity to less than 0.1% of the wild type. A minor start of transcription was detected 60 bases upstream from the major transcriptional start site. This minor promoter shares the same activator element as the major promoter for full activity. Deletion and insertion mutations downstream of the minor promoter TATA demonstrated the role of the TATA box in positioning the start of transcription.

The hypervirulence of Agrobacterium tumefaciens A281 is encoded in a region of pTiBo542 outside of T-DNA

We used a binary-vector strategy to study the hypervirulence of Agrobacterium tumefaciens A281, an L,L-succinamopine strain. Strain A281 is hypervirulent on several solanaceous plants. We constructed plasmids (pCS65 and pCS277) carrying either the transferred DNA (T-DNA) or the remainder of the tumor-inducing (Ti) plasmid (pEHA101) from this strain and tested each of these constructs in trans with complementary regions from heterologous Ti plasmids. Hypervirulence on tobacco could be reconstructed in a bipartite strain with the L,L-succinamopine T-DNA and the vir region on separate plasmids. pEHA101 was able to complement octopine T-DNA to hypervirulence on tobacco and tomato plants. Nopaline T-DNA was complemented better on tomato plants by pEHA101 than it was by its own nopaline vir region, but not to hypervirulence. L,L-Succinamopine T-DNA could not be complemented to hypervirulence on tobacco and tomato plants with either heterologous vir region. From these results we suggest that the hypervirulence of strain A281 is due to non-T-DNA sequences on the Ti plasmid.

Activity of T-DNA borders in plant cell transformation by mini-T plasmids

By using a binary vector system, we examined the requirements for border sequences in T-DNA transformation of plant genomes. Mini-T plasmids consisting of small replicons with different extents of pTiT37 T-DNA were tested for plant tumor-inducing ability in Agrobacterium tumefaciens strain LBA4404 containing helper plasmid pAL4404 (which encodes virulence genes needed for T-DNA transfer). Assays of these bacteria on carrot disks, Kalanchoë leaves, and SR1 Nicotiana tabacum plantlets showed that mini-T plasmid containing full length T-DNA including left and right borders was highly virulent, as were mini-T plasmids containing all onc (oncogenicity) genes and only the right border. In contrast, mini-T plasmids containing all onc genes and only the left border induced tumors only rarely, and a mini-T plasmid containing all onc genes but no T-DNA borders was completely avirulent. Southern hybridization analyses of tumor DNA showed that T-DNA border sequences delimited the extent of the two-border mini-T plasmid transferred and integrated into the plant genome. When only one T-DNA border was present, it formed one end of the transferred DNA, and the other end mapped in the vector sequences. The implications of these results for the mechanism of T-DNA transfer and integration are discussed.

Brassica grown gall tumourigenesis and in vitro of transformed tissue

A number of Brassica species and cultivars were tested and found to be highly susceptible to crown gall induction by both nopaline and octopine strains of Agrobacterium tumefaciens. Only B. napus did not form tumours when inoculated with octopine strains. Seedlings of very young plants were poor hosts but efficient infection occurred after 8-10 weeks of growth. Teratomas arising on tumours in planta were relatively frequent on induction with nopaline strains. Axenically cultured tumour calli of Brassicas were very active in opine synthase activity and stably maintained this transformed phenotype; however, transformed plants could not be regenerated. These results suggest that disarmed nopaline Ti plasmid vectors are well suited for the genetic engineering of this important crop family.

Analysis of transfer of tumor-inducing plasmids from Agrobacterium tumefaciens to Petunia protoplasts

Petunia protoplasts were infected with the virulent Agrobacterium tumefaciens strain A348 or the avirulent strain A136 (lacking a Ti plasmid). The infection process was stopped at various time intervals up to 24 h after inoculation, and the DNA from the plant cells was isolated. Southern blot analysis indicated that the DNA isolated from infected Petunia cells was not detectably contaminated by bacterial DNA from lysed Agrobacterium cells. Analysis of the DNA from the virulent infections suggested that the transferred DNA (T-DNA) may be transferred to the plant cell rapidly (within 2 to 6 h) after the bacteria bind to the cell wall and that the T-DNA may exist in a rearranged state which is stable over the time period investigated. Dot blot analysis indicated that regions far outside the T-DNA may be transferred to the plant cell. Most of the DNA transferred to the plant cell during the initial hours of infection is rapidly degraded.

Cloning and nucleotide sequence of the tzs gene from Agrobacterium tumefaciens strain T37

The trans-zeatin secretion locus (tzs), from the nopaline Ti plasmid of Agrobacterium tumefaciens strain T37, was cloned and the nucleotide sequence determined. This gene is located in the virulence region of pTiT37. The tzs gene is responsible for the secretion of trans-zeatin into bacterial culture medium and in addition has the cytokinin biosynthetic activity, dimethylallylpyrophosphate:AMP dimethylallyltransferase. Sequence analysis showed an open reading frame of 729 nucleotides, capable of encoding a protein of 27,545 daltons. A single new labelled protein of 27,200 daltons was detected in Escherichia coli maxicells expressing the cloned tzs gene. Significant sequence homology was observed between the tzs and the published tmr sequence from pTiT37.

Nucleotide sequence of the insertion sequence found in the T-DNA region of mutant Ti plasmid pTiA66 and distribution of its homologues in octopine Ti plasmid

The octopine tumor-inducing (Ti) plasmid pTiA66 has an insertion mutation in its T region (the DNA region incorporated into the plant genome) that results in the slow growth of crown gall tumors. These tumors exhibit hormonal autonomy different from that of the crown gall tumors caused by wild-type Ti plasmids. In the present study, the nucleotide sequences of both the DNA segment inserted into pTiA66 and its target site have been determined. The inserted segment is 2548 base pairs long and has 20-base-pair terminal inverted repeats. An 8-base-pair sequence at the target site is duplicated at both integration junctions. These structural features of the insert suggest that it is a bacterial insertion sequence (IS) element, which we have named IS66. Blot-hybridization analyses using IS66 probes revealed that genomes of octopine Ti plasmids contain at least three sequences homologous to IS66: two homologues are located in the virulence region and one is located between the left-hand (TL-DNA) and right-hand (TR-DNA) portions of T-DNA. The chromosome of Agrobacterium tumefaciens A66 also contains two sequences highly homologous to IS66. These results suggest that the mutant pTiA66 plasmid was generated by translocation of one of the sequences showing homology with IS66 into the T region. The fact that a sequence homologous to IS66 is present between TL-DNA and TR-DNA also suggests that the octopine T region was split into two portions, TL-DNA and TR-DNA, by translocation of IS66 or its relatives. Thus, IS66 may cause genetic and structural variations of the T region and the vir region of the octopine Ti plasmids.

Binary Agrobacterium vectors for plant transformation

A vector molecule for the efficient transformation of higher plants has been constructed with several features that make it efficient to use. It utilizes the trans acting functions of the vir region of a co-resident Ti plasmid in Agrobacterium tumefaciens to transfer sequences bordered by left and right T-DNA border sequences into the nuclear genome of plants. The T-region contains a dominant selectable marker gene that confers high levels of resistance to kanamycin, and a lac alpha-complementing region from M13mp19 that contains several unique restriction sites for the positive selection of inserted DNA.

Binary Agrobacterium vectors for plant transformation

A vector molecule for the efficient transformation of higher plants has been constructed with several features that make it efficient to use. It utilizes the trans acting functions of the vir region of a co-resident Ti plasmid in Agrobacterium tumefaciens to transfer sequences bordered by left and right T-DNA border sequences into the nuclear genome of plants. The T-region contains a dominant selectable marker gene that confers high levels of resistance to kanamycin, and a lac alpha-complementing region from M13mp19 that contains several unique restriction sites for the positive selection of inserted DNA.

Changes in T-DNA methylation and expression are associated with phenotypic variation and plant regeneration in a crown gall tumor line

Phenotypic variation of an octopine-type crown gall tumor line resulting from changes in the pattern of T-DNA methylation and expression is described. Variants that grow as unorganized callus always express T-DNA transcripts 1 and 2. In shoot-forming variants (teratomas) only T-DNA transcript 4 is expressed. This line also regenerates normal-appearing, rooted plants in which all T-DNA expression is suppressed. Tissues from these plants require phytohormones for growth in vitro. These plants are self-fertile and transmit T-DNA through meiosis, and T-DNA suppression is maintained in the next generation. After treatment of regenerated plant tissue with 5-azacytidine, an inhibitor of DNA methylation, T-DNA transcription and phytohormone-independent tumorous growth resume. The T-DNA of cell lines in which T-DNA is not expressed is highly methylated, whereas the level of T-DNA methylation is reduced in 5-azacytidine treated cells that resume T-DNA expression and phytohormone-independent growth. The correlation between the degree of T-DNA methylation and the level of T-DNA expression indicates that hypermethylation is responsible for the suppression of T-DNA transcription.

Mannityl opine analogs allow isolation of catabolic pathway regulatory mutants

Five virulent Agrobacterium spp. strains that can catabolize the mannityl opines mannopine (MOP), mannopinic acid ( MOA ), and agropinic acid (AGA) were tested for their ability to grow on analogs of these compounds. Analogs containing alternative amino acids replacing glutamic acid or glutamine were generally refused by these bacteria, but mutants were obtained that catabolized the entire family of analogs. In the case of strain C58C1 (pRi 8196), we demonstrated that typical mutants were constitutive for MOP uptake, whereas the wild-type parent was inducible by MOP. Analogs of MOA prepared from a variety of sugars instead of mannose were generally refused, except for a strain carrying pTi B6-806, which grew well on all such analogs. The analogs allowed selection of mutants of all strains. Although most wild-type strains were inducible for AGA uptake, typical mutants selected from strain C58C1 (pRi 8196) were found to be constitutive for uptake of AGA, as was the wild-type strain carrying pTi B6-806. Such constitutive mutants grew on all sugar analogs of MOP, MOA , and AGA tested. The pTi B6-806-containing strain was tested for growth on a more extended series of analogs, including tetrose , triose, diose , and disaccharide analogs, all of which were accepted. Only ketose analogs were refused. Selection of promiscuous regulatory mutants by the two types of opine analogs suggests that the repressor proteins of MOP and AGA permease/ catabolase systems are chiefly responsible for the specificity of the pathways.

DNA sequence analysis of crown gall tumor T-DNA encoding the 0.7 kb transcript

Crown gall tumor formation involves integration into the plant genome of DNA sequences (the T-region) of tumor-inducing (Ti) plasmids present in Agrobacterium tumefaciens. The T-DNA of the tumor expresses several gene products. Little is known about the function or regulation of expression of the 0.7kb transcript, which represents a relatively abundant T-DNA transcript in octopine-type tumors. In this report, a detailed structural analysis of the gene encoding the 0.7 kb transcript has been obtained by DNA sequence analysis of T-DNA isolated from A6S/2 tumor line. An indication of the structural characteristics of the protein product is obtained from the predicted amino acid sequence. The sequences flanking the open reading frame show characteristics with other eucaryotic genes. The corresponding DNA sequence of the inducing Ti plasmid (pTiA6) is identical with that of the DNA sequence from the tumor. Comparison of this gene sequence with the corresponding region of another Ti plasmid (pTiAch5) shows several differences in the 5' flanking sequence, but the nucleotide sequence of the coding region and 3' flanking region are identical.

Map locations of five transcripts homologous to TR-DNA in tobacco and sunflower crown gall tumors

Polyadenylated RNA from two octopine type tumor lines (E1, PSCG-15955) was analyzed by RNA blot hybridization and shown to contain five major transcripts homologous to TR DNA. In tobacco E1 tissue, the molecular weights of the TR homologous RNAs are 1.65 kb, 1.55 kb, 1.45 kb, 1.05 kb, and 0.78 kb. The 5' - and 3'-termini of each of the five E1 tumor transcripts were determined by S1 nuclease hybrid protection mapping. The polarity of transcription for the 0.78, 1.05 and 1.65 kb RNAs is from left to right, while the 1.55 and 1.45 kb RNAs are transcribed from right to left. Although we see the same size transcripts in sunflower PSCG-15955 tissue (with the exception of a 0.89 kb RNA in place of the 1.55 kb transcript of E1) there is an apparent difference in the relative abundance of the various RNAs between the two tumor lines.

Succinamopine: a new crown gall opine

Agrobacterium tumefaciens strains can incite plant tumors consisting of transformed cells that synthesize novel metabolites called opines. The pattern of opine synthesis is dictated by plasmid-borne genes in the pathogen; additional plasmid genes confer on the pathogen the ability to catabolize the same pattern of opines synthesized. One group of A. tumefaciens strains, AT181, EU6, and T10/73, contains closely related tumor-inducing (Ti) plasmids that encode the ability to degrade the opine nopaline; but tumors incited by these strains do not synthesize nopaline. We demonstrated by Southern blot hybridization that AT181(pTi) has no DNA homologous to the nopaline synthase gene of pTi T37, a nopaline Ti plasmid that appears to be most closely related to this group based on fingerprint analysis. Tumors incited by these seemingly anomalous strains contain a new opine that we designate succinamopine. Its structure is analogous to that of nopaline, with asparagine replacing arginine. Evidence for the structure of succinamopine, as well as those of two related metabolites, succinamopine lactam and succinopine lactam, will be published elsewhere. Ability to catabolize succinamopine, succinamopine lactam, and succinopine lactam is encoded by pTi AT181, pTi EU6, and pTi T10/73, but not by any of 15 other Ti and root-inducing plasmids tested. Three avirulent strains tested did not catabolize succinamopine, succinamopine lactam, or succinopine lactam. We propose that pTi AT181, pTi EU6, and pTi T10/73 be designated the succinamopine Ti plasmids.

Clonal analysis of heterogeneous crown gall tumor tissues induced by wild-type and shooter mutant strains ofAgrobacterium tumefaciens-expression of T-DNA genes

Tumors were induced by anAgrobacterium tumefaciens strain with a wild-type octopine Ti plasmid and by shooter mutants with a transposon insertion in the auxin-locus of the T-region. Cloning of isolated axenic tumor tissues revealed that in all cases they consisted of tumor cells (10-26%) next to a majority of normal cells. The tumor clones that had been induced by the strain with the wild-type Ti plasmid all grew as amorphous calli. Tumor, clones induced by a shooter mutant were of two different types. One type of clone grew well on phytohormone-free medium. this type invariably regenerated tumorous shoots abundantly on this medium. The other type of clone only grew after the addition of auxin and cytokinin to the culture medium, but slow growth also took place in the presence of only auxin. This type never regenerated shoots spontaneously. After stimulation by a high level of kinetin, however, a few shoots were also obtained from these clones. One of these shoots, like other tumorous shoots, contained the tumor-specific enzyme octopinesynthase (Ocs), but in contrast to other tumorous shoots formed a root-system.The expression of T-DNA genes in shoots proliferating from the cloned tumor tissues induced by a mutant with an insertion in the region for transcript tr. 2 was studied by northern blot hybridization. Except for tr.2 the T-DNA transcripts were detected in the tumorous shoots analysed, including the transcript, tr.1 from the auxin-locus and tr.4 from the cytokinin-locus. This shows that the presence of these transcripts, which are assumed to be responsible for the tumorigenic character of tumor cells, does not interfere with the differentiation of shoot cells.One of the shooty tumor clones (TSO38) showed an unstable character with regard to octopine synthase activity (Ocs±). For, TSO38 and some of its subclones, it was found that only 4% of the regenerated shoots were Ocs(+). Northern blot hybridization revealed that the mRNA for octopine synthase was present in extremely low quantity in the population of TSO38 derived shoots.The finding that it was possible to force shoots from clone TSO38 and from subclone TSO38-23(-) that were Ocs(-) to become Ocs(+), proved that the gene for octopine synthase was present in the Ocs(-) shoots and that this gene showed unstable expression due to regulation at the level of transcription.

Nucleotide sequence of the Agrobacterium tumefaciens octopine Ti plasmid-encoded tmr gene

The nucleotide sequence of the tmr gene, encoded by the octopine Ti plasmid from Agrobacterium tumefaciens (pTiAch5), was determined. The T-DNA, which encompasses this gene, is involved in tumor formation and maintenance, and probably mediates the cytokinin-independent growth of transformed plant cells. The nucleotide sequence of the tmr gene displays a continuous open reading frame specifying a polypeptide chain of 240 amino acids. The 5'- terminus of the polyadenylated tmr mRNA isolated from octopine tobacco tumor cell lines was determined by nuclease S1 mapping. The nucleotide sequence 5'-TATAAAA-3', which sequence is identical to the canonical "TATA" box, was found 29 nucleotides upstream from the major initiation site for RNA synthesis. Two potential polyadenylation signals 5'-AATAAA-3' were found at 207 and 275 nucleotides downstream from the TAG stopcodon of the tmr gene. A comparison was made of nucleotide stretches, involved in transcription control of T-DNA genes.

Structure and transcription of the nopaline synthase gene region of T-DNA

We present the DNA sequence and plant-tumor transcription pattern of some 2400 base pairs from the right border region of pTi T37 DNA from the virulent Agrobacterium tumefaciens strain T37. This region includes the entire transcription unit encompassing the nopaline synthase gene, together with parts of other transcription units. The strategy used to determine the sequence also produced two opposing series of defined, asymmetric deletions across the target DNA region, some of which may serve future purposes in the exploitation of this sequence, which is known to be expressed in a wide variety of host plant tissues.