Regions of DNA sequence homology between an octopine and a nopaline Ti plasmid of Agrobacterium tumefaciens

Summary Despite the fact that pTiC58 and pTiB6S3 functionally, have been shown to date to have only tumorigenicity and phage AP1 exclusion in common, many restriction fragments of the plasmids contain DNA sequences common to both. The bulk of this homologous DNA is concentrated in a few restriction endonuclease fragments and the remainder is organized in short discontinuous regions spread over many fragments. In pTiB6S3 the bulk of the homology is distributed throughout a 29x10⁶ dalton segment comprising 8 Sma I fragments. This region includes those sequences which are transferred to and transcribed in tumorigenic plant cells induced by B6-806 or closely related strains. The pattern of homology within this portion of the plasmid shows a region of low sequence homology (Sma I Fragment 3 b) apparently corresponding to the gene or genes coding for octopine synthesis in the plant tumor cells, surrounded by regions of high sequence homology. The extent of inter-plasmid homology then decreases with increasing distance from fragment 3b. The remainder of the homology is distributed throughout a segment of maximum size 21.5x10⁶ daltons comprising two Sma I fragments and cannot yet be definitely linked with any specific plasmid function.     

T-DNA structure and gene expression in petunia plants transformed by Agrobacterium tumefaciens C58 derivatives

Summary We have previously described substantial variation in the level of expression of two linked genes which were introduced into transgenic petunia plants using Agrobacterium tumefaciens. These genes were (i) nopaline synthase (nos) and (ii) a chimeric chlorophyll a/b binding protein/octopine synthase (cab/ocs) gene. In this report we analyze the relationship between the level of expression of the introduced genes and T-DNA structure and copy number in 40 transgenic petunia plants derived from 26 transformed calli. Multiple shoots were regenerated from 8 of these calli and in only 6 cases were multiple regenerated shoots from each callus genotypically identical to each other. Many genotypes showed no nos gene expression (22/28). Most of the plants (16/22) which lacked nos gene expression did contain nos-encoding DNA with the expected restriction enzyme map. Similarly, amongst the genotypes showing no cab/ocs gene expression, the majority (11/28) did not show any alterations in restriction fragments corresponding to the expected cab/ocs coding sequences (10/11). Approximately half of the plants carried multiple copies of T-DNA in inverted repeats about the left or right T-DNA boundaries. No positive correlation was observed between the copy number of the introduced DNA and the level of expression of the introduced genes. However, plants with high copy number complex insertions composed of multiple inverted repeats in linear arrays usually showed low levels of expression of the introduced genes.     

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.     

T-DNA is organized predominantly in inverted repeat structures in plants transformed with Agrobacterium tumefaciens C58 derivatives

Summary The detailed structural organization of DNA sequences transferred to the plant genome via Agrobacterium tumefaciens has been determined in 11 transgenic tomato plants that carry the transferred DNA (T-DNA) at a single genetic locus. The majority (seven) of these plants were found to carry multiple copies of T-DNA arranged in inverted repeat structures. Such a high frequency of inverted repeats among transgenotes has not been previously reported and appears to be characteristic of transformation events caused by C58/pGV3850 strains of Agrobacterium. The inverted repeats were found to be centered on either the left or the right T-DNA boundary and both types were observed at similar frequency. In several plants both types of inverted repeat were found to coexist in the same linear array of elements. Direct repeats were observed in two plants, each time at the end of an array of inverted repeat elements, and at a lower frequency than inverted repeats. The junctions between T-DNA elements and plant DNA sequences and the junctions between adjacent T-DNA elements were mapped in the same 11 plants, allowing the determination of the distribution of junction points at each end for both types of junction. Based on a total of 17 distinct junctions at the right end of T-DNA and 19 at the left end, the distribution of junction points was found to be much more homogeneous at the right end than at the left end. Left end junctions were found to be distributed over a 3 kb region of T-DNA with two thirds of the junctions within 217 bp of the left repeat. Two thirds of the right end junctions were found to lie within 11 bp of the right repeat with the rest more than 39 bp from the right repeat. T-DNA::plant DNA junctions and T-DNA::T-DNA inverted repeat junctions showed similar distributions of junction points at both right and left ends. The possibilities that T-DNA inverted repeats are unstable in plants and refractory to cloning in wild type Escherichia coli is discussed. Two distinct types of mechanisms for inverted repeat formation are contrasted, replication and ligation mechanisms.     

Plant-inducible recombination between the 25 bp border sequences of T-DNA in Agrobacterium tumefaciens

Summary We developed a model system for detecting and assaying the circular forms of T-DNA which may be generated in Agrobacterium by intramolecular recombination between the 25 bp border repeats of T-DNA. We demonstrated using this system that the DNA region flanked by the 25 bp direct repeats is in fact circularized by recombination between these repeats in cells of Agrobacterium cocultured with tobacco protoplasts. Furthermore, quantitative analysis of the recombination revealed the following: (1) the recombination is also induced when the agrobacterial cells are incubated in protoplast-free conditioned medium prepared by filtering the protoplast culture. The conditioned medium is effective, even after it has been heated at 100°C. (2) The DNA region encompassing the virulence region of the Ti-plasmid is required for recombination. (3) The recombination takes place only between 25 bp repeats with the same orientation. On the basis of these results, we conclude that the circular form of T-DNA is generated by homologous recombination between the border repeats which is mediated by gene product(s) encoded by the virulence region of the Ti-plasmid. Either the recombination itself, or the expression of the virulence gene(s) responsible for the recombination, is induced by diffusible and heatstable factor(s) secreted by plant cells.     

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.     

Tzs, a nopaline Ti plasmid gene from Agrobacterium tumefaciens associated with trans-zeatin biosynthesis

Summary The tzs gene, present in nopaline Ti plasmids, confers on Agrobacterium tumefaciens the ability to produce the phytohormone, trans-zeatin (Regier and Morris (1982) Biochem Biophys Res Comm 104:1560–1566). This gene has now been cloned from the nopaline Ti plasmid pTiC58. It occurs outside the T-DNA in a region close to that associated with virulence functions. Sequence studies indicate that tzs has substantial homology with the T-region gene, ipt, which is known to encode a dimethylallylpyrophosphate transferase, the first enzyme of the cytokinin biosynthetic pathway. As expected from its homology with ipt, tzs possesses significant DMA transferase activity but when expressed in Escherichia coli it causes secretion of trans-zeatin.     

Behavior of Inc-Q plasmids in Agrobacterium tumefaciens

Inc-Q plasmids were introduced into Agrobacterium tumefaciens, by mobilization from Escherichia coli with an Inc-P plasmid, or by transformation with purified plasmid DNA. It was found that they were stably maintained. The presence of an Inc-Q plasmid did not influence tumorigenicity. These results suggest that these plasmids may be used in genetic complementation studies of Ti plasmid mutants in A. tumefaciens.     

Plasmid DNA of Agrobacterium tumefaciens detected in a presumed habituated tobacco cell line

Summary Tabac anergié tissue has been used by many investigators as a habituated tobacco cell line. In this study, we have found sequences which are homologous to approximately 9 megadaltons of an Agrobacterium octopine-type plasmid in DNA isolated from Tabac anergié tissue. These T-DNA sequences were shown to be the same core DNA sequences found to be present in several other unorganized tumor lines which have been studied in our laboratory. The T-DNA was also shown to be integrated into plant DNA. Thus, the Tabac anergié tissue is a crown gall tumor induced by a strain of Agrobacterium tumefaciens containing an octopinetype plasmid. These results indicated that the plants regenerated from 40 clones of the Tabac anergié line by Sacristán and Melchers (1977) were actually reverted plants obtained from an unorganized crown gall tumor, kept in culture for more than 25 years. It is necessary to re-evaluate observations and conclusions which have been based upon Tabac anergié being a habituated tissue.     

Structure of T-DNA in plants regenerated from roots transformed by Agrobacterium rhizogenes strain A4

Summary The structure of the T-DNA in Ri-transformed plants of Brassica napus, Nicotiana plumbaginifolia and Nicotiana tabacum was analysed. All the plants studied present a particular phenotype with wrinkled leaves. The T-DNA is composed of two parts: TL and TR. The size of the TL-DNA (19–20 kb) seems to be almost constant, except in N. tabacum where it is shorter. The TR-DNA can be absent, and its size varies from about 5–28 kb, with two predominant lengths. The smaller size does not include the region homologous to the tms genes of the pTi T-DNA. The copy number varies from one to four copies per plant genome. TL and TR-DNA are not always present in the same copy number, but in some cases are linked together.     

根癌农杆菌介导的玫瑰茄愈伤组织的遗传转化

以根癌农杆菌LBA4404和EHA105为供体菌株,对玫瑰茄愈伤组织进行了转化条件的研究,建立了一套玫瑰茄愈伤组织遗传转化体系。利用该转化体系获得了2个稳定表达新霉素磷酸转移酶活性的玫瑰茄转化细胞系。GUS活性组织化学检测和PCR扩增鉴定的结果表明,愈伤组织的转化率为4%。说明采用农杆菌介导法将外源基因经愈伤组织导入玫瑰茄细胞是可行的。     

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.     

Agrobacterium vitis nopaline Ti plasmid pTiAB4: relationship to other Ti plasmids and T-DNA structure

The Ti plasmid of the Agrobacterium vitis nopaline-type strain AB4 was subcloned and mapped. Several regions of the 157 kb Ti plasmid are similar or identical to parts of the A. vitis octopine/cucumopine (o/c)-type Ti plasmids, and other regions are homologous to the nopaline-type Ti plasmid pTiC58. The T-DNA of pTiAB4 is a chimaeric structure of recent origin: the left part is 99.2% homologous to the left part of the TA-DNA of the o/c-type Ti plasmids, while the right part is 97.1 % homologous to the right part of an unusual nopaline T-DNA recently identified in strain 82.139, a biotype Il strain from wild cherry. The 3 non-coding regions of the ipt genes from pTiAB4 and pTi82.139 are different from those of other ipt genes and contain a 62 by fragment derived from the coding sequence of an ipt gene of unknown origin. A comparison of different ipt gene sequences indicates that the corresponding 62 by sequence within the coding region of the AB4 ipt gene has been modified during the course of its evolution, apparently by sequence transfer from the 62 by sequence in the 3 non-coding region. In pTi82.139 the original coding region of the ipt gene has remained largely unmodified. The pTiAB4 6b gene differs from its pTi82.139 counterpart by the lack of a 12 by repeat in the 3 part of the coding sequence. This leads to the loss of four glutamic acid residues from a series of ten. In spite of these differences, the ipt and 6b genes of pTiAB4 are functional. Our results provide new insight into the evolution of Agrobacterium Ti plasmids and confirm the remarkable plasticity of these genetic elements. Possible implications for the study of bacterial phylogeny are discussed.     

Site-specific mutagenesis of the Ti plasmid by transformation of Agrobacterium tumefaciens with mutagenized T-DNA fragments cloned in E. coli plasmids

Summary A DNA fragment covering the complete T-region of the Ti plasmid from Agrobacterium tumefaciens strain C58 was cloned in the Escherichia coli cosmid pHC79. This fragment was mutagenized by insertion of transposon Tn5. The isolated DNA from hybrid plasmids was used to transform cells of A. tumefaciens strain C58 applying the freeze-thaw method. Although the E. coli plasmids with the mutagenized Ti plasmid fragment cannot replicate in these cells, they can be rescued by recombination with the homologous region of the Ti plasmid. The cointegrates formed were resolved in a second recobination event, which was detected by loss of the drug resistance marker of the E. coli plasmid. Subcloning of the Ti plasmid fragments labeled with Tn5 showed that the frequency of rescue of the hybrid plasmid as a cointegrate and its segregation in agrobacteria depend on the degree of homology with the Ti plasmid. We also applied the strategy for site-directed Tn5 mutagenesis to insert specifically the replication origin of bacteriophage fd and the thymidine kinase gene from Herpes virus into the T-DNA of Ti plasmid-C58.     

Suppression of tumorigenicity by the IncW R plasmid pSa in Agrobacterium tumefaciens

Summary The effect of the IncW R plasmid, pSa, on tumorigenicity and on the expression and maintenance of the Ti plasmid in tumorigenic strains of A. tumefaciens was determined. Plasmid pSa could be transferred into and stably maintained by both octopine-and nopaline-utilizing A. tumefaciens strains. The R plasmid had no effect on Ti plasmid maintenance or on Ti plasmid functions, such as octopine utilization or conjugal bacterial transfer. However, A. tumefaciens strains harboring both the R plasmid and the Ti plasmid in most instances failed to induce tumors on a number of plant species. This effect on tumorigenicity is specific to pSa. When pSa is cured from the A. tumefaciens transconjugants or when their Ti plasmids are genetically transferred to an appropriate recipient, the resultant strains lacking the R plasmid regain tumorigenicity. Restriction endonuclease analysis of plasmid DNA isolated from transconjugants harboring pSa showed no difference in Ti plasmid cleavage patterns when compared to plasmid DNA isolated from the tumorigenic parent strain. These results indicate that pSa does not induce detectable permanent genetic alteration of the Ti plasmid. Rather, it appears that the R plasmid suppresses some Ti plasmid function(s) necessary for tumorigenicity.     

Utilization of octopine and nopaline by Agrobacterium

Tests for utilization of d-octopine and nopaline in defined media containing a carbon and nitrogen source were made on 60 strains of Agrobacterium representing four species and on a representative of each of five species of Rhizobium. Among 46 virulent strains of Agrobacterium, only two strains were found which utilized neither compound, while three strains were found which could utilize both. Of the remaining virulent strains, 27 utilized octopine and 14 utilized nopaline. Each of six strains of A. rhizogenes tested utilized only octopine but at a slower rate relative to growth than most A. tumefaciens. All eight of the A. radiobacter strains failed to utilize either compound, as did four of six nonvirulent strains of A. tumefaciens. The rhizobia did not utilize octopine or, with the possible exception of R. japonicum, nopaline. Virulence in the genus Agrobacterium is concluded to be highly correlated with the ability to utilize one or both of these compounds.     

T-DNA fragments of hairy root plasmid pRi8196 are distantly related to octopine and nopaline Ti plasmid T-DNA

Agrobacterium Ti (tumor-inducing) and Ri (root-inducing) plasmids transform dicot plant cells by insertion of a specific plasmid sector called T-DNA (transferred DNA) into host plant nuclear DNA. The mannopine-type Ri plasmid pRi8196 contains four BamHI fragments that encompass core T-DNA. We report Southern hybridization studies that show that these four fragments have no strong homology to octopine-, nopaline-, or agropine-type Ti plasmids. We detected and mapped very weak homology regions, most of which are assignable to opine synthase or opine catabolic functions on the Ti plasmid. We found no homology between Ri T-DNA and the region of Ti T-DNA that encodes tumor morphology functions.