T-DNA analysis of plants regenerated from hairy root tumors

Summary Plants regenerated from hairy root tumors induced on Nicotiana glauca and Nicotiana tabacum by Agrobacterium rhizogenes strain A4 were examined for the presence of T-DNA. Regenerated N. tabacum plants contained intact copies of both TL-DNA and TR-DNA. However, plants regenerated from N. glauca tumors did not contain the TR-DNA region corresponding to the tms (auxin synthesis) genes. Some of the regenerants exhibited an abnormal phenotype which is characterized by severe leaf wrinkling. This phenotype is correlated with the presence of TL-DNA, but not TR-DNA.     

Analysis of TR-DNA/plant junctions in the genome of a Convolvulus arvensis clone transformed by Agrobacterium rhizogenes strain A4

A Charon 4A phage library, containing insert DNA isolated from a morning glory (Convolvulus arvensis) plant genetically transformed by Ri T-DNA from Agrobacterium rhizogenes strain A4, was used to isolate a lambda clone that contains part of the Ri TL-DNA and the complete TR-DNA. The two Ri T-DNAs were recovered adjacent to each other in a tail-to-tail configuration (i.e. with the TR-DNA inverted with respect to the TL-DNA). Comparison of nucleotide sequences from this lambda clone with the corresponding sequences from the Ri plasmid allowed us to determine the location of the T-DNA/plant junction for the right end of the TL-DNA and the left and right ends of the TR-DNA. We located, near each of these borders, a 24 bp sequence that is similar to the 24 bp consensus sequence found near the pTi T-DNA extremities. In addition, sequences similar to the core overdrive sequence from pTi are located near each right border. Hybridization and nucleotide sequence analysis of the DNA adjacent to the TL/TR junction shows that no plant DNA is located between the TL and TR-DNAs and suggests that the plant DNA adjacent to the end of the TR-DNA may have been rearranged during the integration into the plant genome.     

Common evolutionary origin of the central portions of the Ri TL-DNA of Agrobacterium rhizogenes and the Ti T-DNAs of Agrobacterium tumefaciens

Analysis of published sequences for Ri TL-DNA (root-inducing left-hand transferred DNA) of Agrobacterium rhizogenes revealed several unsuspected structural features. First, Ri TL-DNA genes are redundant. Using redundancy as a criterion, three regions (left, middle and right) were discerned. The left one, ORFs (open reading frames) 1–7, contains no detectable redundancy. In the middle region a highly diverged gene family was detected in ORFs 8, 11, 12, 13 and 14. The right region contains an apparently recent duplication (ORF 15 =18+17). We interpret the phenomenon of redundancy, particularly in the central region that encodes the transformed phenotype, to be an adaptation that ensures function in a variety of host species. Comparison of Ri TL-DNA and Ti T-DNAs from Agrobacterium tumefaciens revealed common structures, unpredicted by previous nucleic acid hybridization studies. Ri TL-DNA ORF 8 is a diverged Ti T-DNA tms1. Both Agrobacterium genes consist of a member of the diverged gene family detected in the central part of the Ri TL-DNA, but fused to a sequence similar to iaaM of Pseudomonas savastonoi. Other members of this gene family were found scattered throughout Ti T-DNA. We argue that the central region of Ri and the part of Ti T-DNA including ORFs 5–10 evolved from a common ancestor. We present the hypothesis that the gene family encodes functions that alter developmental plasticity in higher plants.     

Isolation and characterization of an ipt gene from the Ti plasmid Bo542

Summary A 1.9 kb clone of the T-DNA region of the Agrobacterium tumefaciens Ti plasmid Bo542 which exhibited homology to the isopentenyl transferase (ipt) locus of pTiA6 was identified by low stringency DNA hybridization. Introduction of this segment of pTiBo542 DNA into cells of Nicotiana tabacum or N. glauca caused tumor formation in vivo, and allowed hormone independent growth in vitro. Furthermore, this DNA segment complemented ipt mutant strains of A. tumefaciens, restoring their ability to cause tumors on Kalanchöe leaves and tomato stems. The complete DNA sequence of this segment has been determined, revealing an open reading frame homologous to other known Agrobacterium ipt genes.     

Green fluorescent protein as a vital elimination marker to easily screen marker-free transgenic progeny derived from plants co-transformed with a double T-DNA binary vector system

We investigated the potential of a novel double T-DNA vector for generating marker-free transgenic plants. Co-transformation methods using a double T-DNA vector or using mixture of two Agrobacterium tumefaciens strains were compared, and showed that the double T-DNA vector method could produce marker-free transgenic tobacco (Nicotiana tabacum L.) plants more efficiently. A dual marker double T-DNA vector was then constructed by assembling the green fluorescent protein (GFP) gene mgfp5 and the neomycin phosphotransferase gene nptII into the same T-DNA. The frequency of co-transformants produced by this vector was 56.3%. Co-expression of mgfp5 and nptII was found in 28 out of 29 T₁ lines, and segregation of the reporter -glucuronidase gene, gusA, from mgfp5 to nptII was found in 12 out of 29 T₁ lines. Therefore, GFP could be used as a vital marker to improve the transformation efficiency and to easily monitor the segregation of marker genes, thus facilitating screening of marker-free progeny.     

pORE: a modular binary vector series suited for both monocot and dicot plant transformation

We present a series of 14 binary vectors suitable for Agrobacterium-mediated transformation of dicotyledonous plants and adaptable for biolistic transformation of monocotyledonous plants. The vector size has been minimized by eliminating all non-essential elements from the vector backbone and T-DNA regions while maintaining the ability to replicate independently. The smallest of the vector series is 6.3 kb and possesses an extensive multiple cloning site with 21 unique restriction endonuclease sites that are compatible with common cloning, protein expression, yeast two-hybrid and other binary vectors. The T-DNA region was engineered using a synthetic designer oligonucleotide resulting in an entirely modular system whereby any vector element can be independently exchanged. The high copy number ColE1 origin of replication has been included to enhance plasmid yield in Escherichia coli. FRT recombination sites flank the selectable marker cassette regions and allow for in planta excision by FLP recombinase. The pORE series consists of three basic types; an ‘open’ set for general plant transformation, a ‘reporter’ set for promoter analysis and an ‘expression’ set for constitutive expression of transgenes. The sets comprise various combinations of promoters (P _HPL, P _ENTCUP2 and P _TAPADH), selectable markers (nptII and pat) and reporter genes (gusA and smgfp).     

Independent induction of transformed roots by the TL and TR regions of the Ri plasmid of agropine type Agrobacterium rhizogenes

Summary To analyse the respective role of TL- and TR-DNA in root induction by agropine-type Agrobacterium rhizogenes Ri plasmids, deletions covering the TL- or the TR-regions were constructed in vitro and introduced into pRiA4 by marker exchange. Each T-region of pRiHRI was also cloned separately on an independent replicon and used in a binary system with the virulence functions of either an Ri or a Ti plasmid provided in trans. Transformed roots were induced on tobacco and tomato explants by TL-DNA as well as by TR-DNA, suggesting that agropine type Ri plasmids from strains A4 and HRI can induce root proliferation by two independent transformation mechanisms. The root induction by the TR-DNA is probably due to auxin biosynthesis by gene products of aux loci homologous to the tms genes of Ti plasmid T-DNA. The molecular mechanism of root proliferation induced by the TL-DNA is probably equivalent to that of mannopine type Ri plasmid T-DNA.     

A functional analysis of T-DNA gene 6b: the fine tuning of cytokinin effects on shoot development

Summary The physiological function in planta of T-DNA gene 6b was studied under various experimental conditions. For this purpose the coding region of gene 6b was cloned behind the 1-promoter of the TR-DNA to enhance expression of the gene product in transformed plant cells. Expression of the recombinant gene in leaf discs of Nicotiana tabacum altered the capacity for shoot formation of the discs, induced by exogenous (i.e. BAP in the growth medium or agrobacterial trans-zeatin produced under control of gene tzs) or endogenous cytokinins (i.e. isopentenyladenosine produced under control of T-DNA gene 4). The data obtained indicate a reduction of cytokinin activity within the plant cells by the product of T-DNA gene 6b.Abbreviations AMP adenosine-5-monophosphate - BAP 6-benzylaminopurine     

Presence of indole-3-acetic acid in chloroplasts ofNicotiana tabacum andPinus sylvestris

The compartmentation and metabolism of indole-3-acetic acid (IAA) was examined in protoplasts derived from needles ofPinus sylvestris L., leaves of normal plants ofNicotiana tabacum L., leaves ofN. tabacum plants carrying the T-DNA gene 1 (rG1 plants) and leaves ofN. tabacum plants carrying the T-DNA gene 2 (rG2 plants) by using a rapid cell-fractionation method. In all tissues, 30%–40% of the IAA pool was located in the chloroplast, while the remainder was found in the cytosol. Quantitative analysis of indole-3-ethanol (IEt) showed that in bothPinus andNicotiana the IEt pool was located exclusively in the cytosol. The only plant that contained endogenous indoleacetamide (IAAm) was therG1-mutant ofN. tabacum, expressing theAgrobacterium tumefaciens T-DNA gene 1. Cellular fractionation of protoplasts from this transgenic plant showed that the entire IAAm pool was located in the cytosol. Feeding experiments utilizing [5-³H]tryptophan, [5-³H]IEt, [1′-¹⁴C] and [2′-¹⁴C]IAA demonstrated that the biosynthesis and catabolism of IAA occurred in the cytosol in bothPinus and in the wild type and the different mutants ofNicotiana. Furthermore, the biosynthesis of IAAm in therG1 plants was also shown to be localized in the cytosol.     

Agrobacterium rhizogenes T-DNA genes capable of inducing hairy root phenotype

Summary Segments of the TL-DNA of the agropine type Ri plasmid pRi 1855 encompassing single and groups of open-reading frames were cloned in the Ti plasmid-derived binary vector system Bin 19. Leaf disc infections on Nicotiana tabacum led to transformed plants, some of which showed typical hairy root phenotypes, such as the wrinkled leaf morphology, excessive and partially non geotropic root systems and the ability of leaf explants to differentiate roots in a hormone-free culture medium. Particularly interestingly, most of these traits were shown by plants transformed with a TL-DNA segment encompassing the single ORF 11, corresponding to the rolB locus. Hairy root can be induced by this latter T-DNA segment on wounded stems of tobacco plants; hairy root induction on carrot discs requires, on the contrary, a more complex complement of TL-DNA genes.Abbreviations YMB yeast mannitol broth - MS Murashige and Skoog medium - 6-BAP 6-benzylaminopurine - NAA naphthalene acetic acid - Km kanamycin - Cb carbenicillin     

Genetic studies on the role of octopine T-DNA border regions in crown gall tumor formation

Summary Crown gall tumors result from transfer and integration of the T-DNA from the Ti plasmid of Agrobacterium tumefaciens into plant nuclear DNA. In the present study, recombinant plasmids containing deletion and rearrangement deriviatives of the T-DNA region of the octopine Ti plasmid pTiA6 were tested in a binary tumorigenesis system (Hoekema et al. 1983) to determine the requirements for T-DNA border regions in tumor formation. Since two defined segments of the T-DNA region of octopine Ti plasmids can be detected in tumor DNA (the left (T_L-) and right (T_R-) DNA), four border regions exist in this Ti plasmid. Agrobacteria harboring plasmid constructs which contain a T-DNA gene capable of inciting tumors (gene 4, the tmr gene, which is involved in cytokinin biosynthesis) and various T-DNA border regions were tested for ability to cause tumors on Nicotiana glauca and other host plants. Such tmr constructs containing as their only border region the right border of either the T_L-DNA or the T_R-DNA are fully tumorigenic. Analogous tmr constructs containing only the T_L-DNa left border region are not tumorigenic. These results do not depend on the orientation or position of the single border with respect to the tmr gene; furthermore, the T_R-DNA right border can confer tumor-forming ability despite the presence of an intervening copy of the T_L-DNA left border.These results for relatively small plasmids are contrasted with previously determined requirements for border regions in tumorigenesis by intact Ti plasmids. A model previously proposed by Wang et al. (1984) for the role of border regions in DNA transfer to plant cells is extended in order to explain the tumor-forming ability of plasmid constructs containing a single border region. The results of this study interpreted according to the model suggest that the octopine T_L-DNA left border is defective in this DNA-transfer process.     

Clones from a shooty tobacco crown gall tumor II: irregular T-DNA structures and organization,T-DNA methylation and conditional expression of opine genes

Summary Transformed clones from a shooty tobacco crown gall tumor, induced byAgrobacterium tumefaciens strain LBA1501, having the auxin locus of the TL-region inactivated by a Tn1831 insertion, were investigated for their T-DNA structure and expression. It has been described previously (28) that in addition to clones with an expected phenotype (phytohormone independent growth in tissue culture (Aut⁺), shoot regeneration (Reg⁺) and octopine synthesis (Ocs⁺)), clones were obtained with an aberrant phenotype. One of these clones, TSO38, is Aut⁺Reg⁺ but shows little or no octopine synthesis activity (Ocs^-). Subclones of TSO38, however, are either Ocs^- or Ocs⁺. Ocs^- shoots become Ocs⁺ under certain states of differentiation, indicating that the octopine synthase gene is present. The fact that in the Ocs^- subclones the octopine synthase gene is not expressed, is probably due to DNA methylation (29). The present paper describes that shoots derived from both an Ocs⁺ and an Ocs^- subclone of TSO38, which were negative for the presence of mannopine (Mas^-) and agropine (Ags^-), became Mas⁺Ags⁺ after culturing on medium containing the hypomethylating agent 5-azacytidine. This means that both in the Ocs^- line and in the Ocs⁺ line expression of TR-DNA opine genes most likely was hampered by DNA methylation. The T-DNA structures of an Ocs^- and an Ocs⁺ TSO38 subclone proved to be identical and surprisingly complex. No intact copy of Tn1831 was present. TL-DNA and TR-DNA segments, present in high copy numbers, were truncated; several T-DNA segments existed in tandem arrangements. When DNA from an Ocs⁺ and an Ocs^- subclone of TSO38 were compared for cleavability by the methylation sensitive restriction enzymes HpaII and MspII, differences were detected, but it became also clear that both lines contained methylated T-DNA segments. This indicates that the Ocs^- and the Ocs⁺ TSO38 subclones differ only quantitatively in respect to degree of T-DNA methylation.     

The production of fertile,triploid somatic hybrid plants (Nicotiana glutinosa (n) + N. tabacum (2n)) via gametic: somatic protoplast fusion

Summary The fusion of gametic protoplasts with somatic protoplasts giving rise to gametosomatic hybrid plants was investigated. Gametosomatic hybrid plants were regenerated following the fusion of nitrate reductase deficient (Nr^–) Nicotiana tabacum Nia-130 leaf mesophyll protoplasts with N. glutinosa tetrad protoplasts. The resulting plants were confirmed as hybrids, based on leaf and floral morphology, chromosome number, leaf esterase and leaf callus peroxidase zymograms and Fraction-1-protein analysis. The five gametosomatic hybrid plants had the expected pentaploid, but functionally triploid chromosome number of 3n=5x=60. The relevance of triploid gametosomatic hybrids in facilitating limited gene transfer, is discussed. The utilisation of tetrads as a generally available source of haploid protoplasts for fusion studies is proposed.     

A quick method to estimate the T-DNA copy number in transgenic plants at an early stage after transformation,using inverse PCR

Agrobacterium-mediated transformation of plants is known to result in transgenic plants with a variable number of integrated T-DNA copies [1, 2, 3, 7]. Our aim was to obtain transgenic tobacco plants containing one integrated T-DNA copy per genome. Therefore, a quick method was developed to estimate the T-DNA copy number of young transgenic plantlets within 10 weeks after transformation. Inverse polymerase chain reaction (IPCR) was used to amplify junction fragments, i.e. plant genomic DNA sequences flanking the known T-DNA sequences [5].     

Fluorescence in situ hybridization of single copy transgenes in rice chromosomes

Summary Fluorescence in situ hybridization (FISH) is a powerful tool for visualizing the chromosomal location of targeted sequences and has been applied in many areas, including karyotyping, breeding and characterization of genes introduced into the plant genome. A simple, routine and sensitive FISH procedure was developed for localizing single copy genes in rice (Oryza sativa L.) metaphase chromosomes. We used digoxygenin-labeled endogenous or T-DNA sequences as small as 5.6 kb to probe corresponding endogenous sequences or the T-DNA insert in denatured rice metaphase chromosomes prepared from root meristem tissue. The hybridized probe sequence was labeled with cy3-conjugated anti-mouse IgG and visualized using fluorescence microscopy. Single copy and multiple copy introduced T-DNA sequences, as well as endogenous sequences, were localized on the chromosomes. The FISH protocol was effectively used to sereen the chromosomal location of introduced T-DNA and number of integration loci in rice.     

In planta transformation of Arabidopsis thaliana

Transformants of Arabidopsis thaliana can be generated without using tissue culture techniques by cutting primary and secondary inflorescence shoots at their bases and inoculating the wound sites with Agrobacterium tumefaciens suspensions. After three successive inoculations, treated plants are grown to maturity, harvested and the progeny screened for transformants on a selective medium. We have investigated the reproducibility and the overall efficiency of this simple in planta transformation procedure. In addition, we determined the T-DNA copy number and inheritance in the transformants and examined whether transformed progeny recovered from the same Agrobacterium-treated plant represent one or several independent transformation events. Our results indicate that in planta transformation is very reproducible and yields stably transformed seeds in 7–8 weeks. Since it does not employ tissue culture, the in planta procedure may be particularly valuable for transformation of A. thaliana ecotypes and mutants recalcitrant to in vitro regeneration. The transformation frequency was variable and was not affected by lower growth temperature, shorter photoperiod or transformation vector. The majority of treated plants gave rise to only one transformant, but up to nine siblings were obtained from a single parental plant. Molecular analysis suggested that some of the siblings originated from a single transformed cell, while others were descended from multiple, independently transformed germ-line cells. More than 90% of the transformed progeny exhibited Mendelian segregation patterns of NPTII and GUS reporter genes. Of those, 60% contained one functional insert, 16% had two T-DNA inserts and 15% segregated for T-DNA inserts at more than two unlinked loci. The remaining transformants displayed non-Mendelian segregation ratios with a very high proportion of sensitive plants among the progeny. The small numbers of transformants recovered from individual T₁ plants and the fact that none of the T₂ progeny were homozygous for a specific T-DNA insert suggest that transformation occurs late in floral development.National Research Council of Canada Publication No. 38003     

Organization of telomeric and subtelomeric chromatin in the higher plant Nicotiana tabacum

We have examined the structure and chromatin organization of telomeres in Nicotiana tabacum. In tobacco the blocks of simple telomeric repeats (TTTAGGG)_n are many times larger than in other plants, e.g., Arabidopsis thatiana or tomato. They are resolved as multiple fragments 60–160 kb in size (in most cases 90–130 kb) on pulsed-field gel electrophoresis (PFGE) of restriction endonuclease-digested DNA. The major subtelomeric repeat of the HRS60 family forms large homogeneous blocks of a basic 180 by motif having comparable lengths. Micrococcal nuclease (MNase) cleaves tobacco telomeric chromatin into subunits with a short repeat length of 157±5 bp; the subtelomeric heterochromatin characterized by tandemly repeated sequences of the HRS60 family is cut by MNase with a 180 by periodicity. The monomeric and dimeric particles of telomeric and subtelomeric chromatin differ in sensitivity to MNase treatment: the telomeric particles are readily digested, producing ladders with a periodicity of 7 bp, while the subtelomeric particles appear to be rather resistant to intranucleosomal cleavage. The results presented show apparent similarities in the organization of telomeric chromatin in higher plants and mammals.     

Neoplastic progression in crown gall in tobacco without elevated auxin levels

We have isolated two stable variants from a crown-gall teratoma tissue of tobacco (Nicotiana tabacum L.) transformed by Agrobacterium tumefaciens strain A66, a mutant of the virulent A6 strain containing an insertion sequence in the tumor-inducing (Ti) plasmid at the locus coding for auxin biosynthesis. Normally tobacco cells transformed by strain A66 spontaneously form shoots in culture and will not grow on hormone-free medium unless shoots develop. The variant tissue lines, isolated from the teratoma tissue after prolonged culture in the dark, grew as friable and unorganized tissues on hormone-free growth medium. Growth of the variants was more sensitive to auxin feeding than growth of the parental teratoma line, and the auxin dose-response curves of the variant lines were similar to those obtained with A6-transformed tobacco cells. Southern blot analysis of DNA from the parental teratoma line and one of the variants showed no differences in copy number or organization of the oncogenic DNA sequence (T-DNA) transferred from the bacterium, indicating that the variant phenotype did not result from reversion of the A66 mutation. Radio-immunoassay analysis showed similar levels of indole-3-acetic acid (IAA) in the variants and parental teratoma line (3–50 and 38–42 pmol·(gFW)^-1, respectively), whereas an A6-transformed cell line contained much higher IAA levels (150–1200 pmol·(g FW)^-1). Low levels of the ethylene precursor 1-aminocyclopropane-1-carboxylic acid in the variants and the parental teratoma line (<5 nmol·(g FW)^-1) as compared with that found in the A6-transformed line (>100 nmol· (g FW)^-1) provided additional, indirect evidence for low auxin levels in the variant lines. These results indicate that crown-gall teratoma tissues of tobacco may switch to the unorganized, auxin-sensitive phenotype without an increase in auxin content.Abbreviations IAA indole-3-acetic acid - kb kilobase - NAA -naphthalene acetic acid - NAM -naphthaleneacetamide - T-DNA DNA transferred from the Ti plasmid to the plant - T_L-DNA the left transferred region of pTiA6 containing the T-DNA oncogenes     

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.