Rol genes alter hormonal requirements for protoplast growth and modify the expression of an auxin responsive promoter

Summary Growth characteristics of tobacco protoplasts containing rolA linked to its own promoter, or the rolB, or rolC genes of Agrobacterium rhizogenes linked to the Cauliflower Mosaic Virus 35S RNA promoter were compared with those from untransformed plants. RolA protoplasts require auxin and cytokinin for callus formation. Protoplasts overexpressing rolB and C form callus in the absence of exogenously applied auxin and cytokinin, respectively. Long term callus growth requires auxin, but the requirement for cytokinin is not critical. Optimal transient expression of an auxin responsive promoter element occurred at lower external levels of auxin in rolB and rolC protoplasts compared with untransformed protoplasts. Addition of putrescine was required for auxin responsive transient gene expression in rolA protoplasts suggesting that polyamines, or their products affect gene expression in rolA plants.Abbreviations T-DNA transferred DNA - TL-DNA left transferred DNA - NAA naphthalene acetic acid - PEG polyethylene glycol - GUS glucuronidase - CaMV cauliflower mosaic virus     

Polyamine metabolism,floral initiation and floral development in Chrysanthemum (Chrysanthemum morifolium Ramat.)

In the short-day plant Chrysanthemum (Chrysanthemum morifolium Ramat. variety Pavo) putrescine and spermidine conjugates appeared in the apical bud before the first observable transformation of the meristem into floral structures. These compounds accumulated on floral initiation and well before floral evocation. Spermidine conjugates were predominant during floral initiation whereas free amines did not accumulate to any significant extent. Different associations of amides were observed during floral initiation as compared with the reproductive phase. 3,4-Dimethoxyphenethylamine conjugates (water-insoluble compounds) were the predominant amine conjugates observed during flower development. These compounds decreased drastically after fertilization. In vegetative buds from plants grown in long days polyamine conjugates were very low and appeared as plants aged. We present evidence that ornithine decarboxylase (ODC) regulates putrescine biosynthesis during floral initiation and floral development. When ODC action was blocked by DFMO (-DL-difluoromethylornithine, a specific, irreversible inhibitor of ODC), flowering was inhibited, and free and conjugated polyamines were not detected. This treatment led to a slight enhancement of ADC activity. When putrescine was added, polyamine titers and flowering were restored. A similar treatment with DFMA (-DL difluoromethylarginine, a specific, irreversible inhibitor of ADC) did not affect flowering and the polyamine titers. The results suggest that ODC and polyamine conjugates are involved in regulating floral initiation in Chrysanthemum.Abbreviations ADC arginine decarboxylase - ODC ornithine decarboxylase - DFMA -DL-difluoromethylarginine - DFMO -DL-difluoromethylornithine     

Inverse Relationship between Polyamine Levels and the Degree of Phenotypic Alteration Induced by the Root-Inducing, Left-Hand Transferred DNA from Agrobacterium rhizogenes

Floral induction in plants is a paradigm for signal perception, transduction, and physiological response. The introduction of root-inducing, left-hand transferred DNA (Ri T-DNA) into the genomes of several plants results in modifications of flowering (D Tepfer [1984] Cell 47: 959-967), including a delay in flowering in tobacco (Nicotiana tabacum). Conjugated polyamines are markers for flowering in numerous species of plants. In tobacco their accumulation is correlated with the onset of flowering (F Cabanne et al. [1981] Physiol Plant 53: 399-404). Using tobacco, we have explored the possibility of a correlation between the expression of Ri TL-DNA and changes in polyamine metabolism. We made use of two levels of phenotypic change, designated T and T′, that retard flowering by 5 to 10 and 15 to 20 days, respectively. We show that delay in flowering is correlated with a reduction in polyamine accumulation and with a delay in appearance of conjugated polyamines, and we propose that genes carried by the Ri TL-DNA intervene either directly in polyamine metabolism or that polyamine metabolism is closely linked to direct effects of Ri T-DNA expression.     

Polyamines,floral induction and floral development of strawberry (Fragaria ananassa Duch.)

In the short-day plant, strawberry (Fragaria ananassa Duch.), polyamines (putrescine, spermidine and spermine), conjugated spermidine (water-insoluble compounds) and bound amines (putrescine, spermidine, phenylethylamine, 3-hydroxy, 4-methoxyphenylethylamine) accumulated in the shoot tips during floral induction and before floral emergence. Different associations of free amines and conjugated amines were observed during floral induction, as compared with the reproductive phase. During the whole period of floral development, phenylethylamine (an aromatic amine) was the predominant amine, representing 80 to 90% of the total free amine pool. Phenylethylamine conjugates (water-insoluble compounds) were the predominant amides observed prior to fertilization. These substances decreased drastically after fertilization. In vegetative shoot tips from plants grown continously under long days, free polyamines (putrescine, spermidine) and bound polyamines (putrescine, spermidine) were low and no change was observed. Free amines (spermine and phenylethylamine), bound aromatic amines (phenylethylamine, 3-hydroxy, 4-methoxyphenylethylamine), conjugated spermidine and phenylethylamine did not appear. Male-sterile flowers were distinguished by their lack of conjugated spermidine and phenylethyalamine and by a decrease in free phenylethylamine. In normal and sterile strawberry plants -DL-difluoromethylornithine (DFMO), a specific irreversible inhibitor of ornithine decarboxylase (ODC), caused inhibition of flowering and free and polyamine conjugates. When putrescine was added, polyamine titers and flowering were restored. A similar treatment with -DL-difluoromethylarginine (DFMA), a specific, irreversible inhibitor of arginine decarboxylase (ADC), did not affect flowering and polyamine titers. These results suggest that ornithine decarboxylase (ODC) and polyamines are involved in regulating floral initiation in strawberry. The relationship between polyamines, aromatic amines, conjugates, floral initiation and male sterility is discussed.Abbreviations ADC arginine decarboxylase - ODC ornithine decarboxylase - DFMA -DL-difluoromethylarginine - DFMO -DL-difluoromethylornithine - Put putrescine - Spd spermidine - Spm spermine - Phen phenylethylamine - 3H4M Phen 3-hydroxy, 4-methoxyphenylethylamine     

Changing root and shoot architecture with the rolA gene from Agrobacterium rhizogenes: Interactions with gibberellic acid and polyamine metabolism

The effects of rolA on root and shoot architecture have been ascribed to a deficiency in gibberellic acid (GA₃) and to changes in polyamine metabolism. Using tobacco, we examined interactions among GA₃, a polyamine accumulation inhibitor (α-DL-difluoromethylornithine or DFMO) and the rolA gene controlled by the 35S CaMV promoter. We measured the effects of these three agents on architecture and polyamine accumulation in excised roots and whole plants grown in vitro. Previous work showed that DFMO or genetic transformation with the rolA gene from Agrobacterium rhizogenes, controlled by the 35S promoter (P_35S-rolA), caused excised tobacco roots to grow faster with altered root system architecture. We show that gibberellic acid (GA₃) reversed the effects of DFMO on the architecture of excised root systems, but neither reversed the effects of DFMO on growth, nor the changes in growth and architecture associated with P_35S-rolA. GA₃ treatment alone resulted in increased agmatine levels, suggesting that the inhibition of the effects of DFMO on architecture was through a stimulation of the arginine decarboxylase (ADC) pathway, GA₃ alone also inhibited the accumulation of putrescine and tyramine conjugates in excised roots. In tobacco plants growing in vitro DFMO and P_35S-rolA were associated with reduced shoot height, which was partially restored by GA₃ treatment; however, GA₃ also stimulated shoot height in the controls. GA₃ did not lessen the leaf wrinkling associated with P_35S-rolA. P_35S-rolA increased root number in young seedlings in vitro, and increased root system length in seedlings grown in soil. As in excised roots, the developmental changes linked to DFMO and P_35S-rolA were accompanied by reductions in putrescine titers. GA₃ treatment stimulated putrescine accumulation in stems and leaves, and partially reversed the negative effects of DFMO and P_35S-rolA on putrescine accumulation in roots, stems and leaves. Again, the restoration of putrescine pools appeared to be through a stimulation of the ADC pathway, since agmatine accumulated in plants exposed to GA₃. In general, the effects of DFMO and P_35S-rolA on phenotype and polyamine metabolism were coordinated, and in many cases these effects were similarly modulated by GA₃, reinforcing the previous conclusion that the phenotypic effects of rolA in roots and shoots occur through interference with polyamine metabolism and that the putrescine conjugates are particularly important in regulating root system growth and architecture. We were unable, however, to discem consistent evidence for a direct role for GA₃ in establishing the RolA phenotype.     

Promotion of flowering and morphological alterations in Atropa belladonna transformed with a CaMV 35S-rolC chimeric gene of the Ri plasmid

Summary Kanamycin-resistant plants of belladonna (Atropa belladonna) were obtained after Agrobacterium mediated transformation. When a rolC gene, which is one of the loci located on Ri plasmid of Agrobacterium rhizogenes, was co-introduced with a kanamycin resistant (NPT II) gene under control of a cauliflower mosaic virus 35S promoter, the rolC gene was expressed strongly in leaves, flowers, stems and roots. The transformed plants exhibited dramatic promotion of flowering, reduced apical dominance, pale and lanceolated leaves and smaller flowers. On the other hand, when native rolC gene was co-introduced with NPT II, the transgenic plants obtained did not exhibit the altered phenotypes observed in 35S-rolC transformants, and the expression level of the rolC gene was much lower than in 35S-rolC transformants. These results suggest that the morphological changes in transgenic Atropa belladonna were related to the degree of expression of the rolC gene.Abbreviations native rolC rolC gene under control of its own promoter - 35S-rolC rolC gene under control of a cauliflower mosaic viras 35S promoter     

Effects of Ri TL-DNA from Agrobacterium rhizogenes and the inhibitors of polyamine synthesis on growth, floral development, sexual organogenesis and polyamine metabolism in tobacco

Our recent work associated the phenotypic alterations caused by the Ri TL-DNA (root-inducing, left-hand, transferred DNA) from Agrobacterium rhizogenes with a general decrease in the accumulation of polyamines and their derivatives and showed that irreversible and specific inhibition of putrescine biosynthesis causes a phenotype similar to that attributed to the Ri TL-DNA. In this review we report recent data supporting a correlation between the degree of expression of the transformed phenotype due to the root-inducing, left-hand, transferred DNA and inhibition of polyamine accumulation, strongly suggesting that genes carried by the root-inducing, transferred DNA may act through interference with polyamine production via the ornithine pathway.     

Stable expression of a single-copy rolA gene in transgenic Arabidopsis thaliana plants allows an exhaustive mutagenic analysis of the transgene-associated phenotype

Several publications have documented the instability of transgene expression in plants. Previous genetic approaches to the study of transgene-associated phenotypes in plants were limited by this phenomenon. Here we show that a transgene can be expressed in plants with sufficient stability to allow an exhaustive mutagenic analysis of the resulting phenotype. We have expressed the morphogenic rolA gene from the TL-DNA of Agrobacterium rhizogenes Ri plasmid in transgenic Arabidopsis thaliana plants. The resulting pleiotropic RolA phenotype allows a visual screen for reversion to detect germinal as well as somatic instability of transgene expression. However no spontaneous reversions of the RolA phenotype were observed in 65 000 progeny of two independent transgenic A. thaliana lines, each carrying a single homozygous rolA locus. In contrast, 12 revertants of the RolA phenotype were isolated from 360000 ethyl methane sulphonate (EMS)-mutagenized M2 progeny. All revertants were shown genetically to carry stable recessive mutations in the rolA locus, thus establishing a series of loss-of-function alleles. Molecular characterization revealed that the loss-of-function alleles were structurally intact and expressed in all rolA mutants. A wild-type rolA locus and two loss-of-function alleles were reisolated and sequenced; base pair substitutions were found in each loss-of-function allele leading to single amino acid substitutions in the rolA open reading frame. Therefore no instability of expression of the rolA locus was detected in any of the 425 000 individuals studied in this analysis. Furthermore even under conditions of saturation mutagenesis, no extragenic suppressor locus was detected.     

Expression of <Emphasis Type="Italic">rol</Emphasis> genes in transgenic soybean (<Emphasis Type="Italic">Glycine max</Emphasis> L.) leads to changes in plant phenotype,leaf morphology,and flowering time

Soybean (Glycine max L.) cultivar NARC-4 was transformed with constructs carrying rolA, rolB, or rolC genes, each under the control of the Cauliflower Mosaic Virus 70S promoter. Cotyledonary nodes of soybean seeds were infected with Agrobacterium tumefaciens strain LBA4404 carrying one of the three rol genes, along with nptII in the plasmid pLBR. The efficiency of the transformation varied slightly among the three constructs, with frequencies of 6, 7, and 5% for the rolA, rolB, and rolC genes, respectively, being observed. Southern blot analysis confirmed the integration of rol genes in the soybean genome with varying numbers of copies of the transgene. All transformed plants showed enhanced rooting, but the number of adventitious roots was higher for transformants carrying the rolB transgene. rolA and rolC transformants showed dwarf phenotypes, clustered branching, and variations in leaf morphology. Furthermore, these plants flowered within a short period of time and produced lower numbers of flowers. rolB transformants showed variations in phenotype, including dwarf to semi-dwarf and shrubby growth, abnormal stem growth, short internodes, variations in leaf morphology, and greenish to yellowish-green colored leaves. These plants also flowered early, but dwarf plants produced low numbers of flowers, while shrubby plants produced high numbers of flowers, but these were mostly infertile.     

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.     

Stable expression of a single-copy rolA gene in transgenic Arabidopsis thaliana plants allows an exhaustive mutagenic analysis of the transgene-associated phenotype

Several publications have documented the instability of transgene expression in plants. Previous genetic approaches to the study of transgene-associated phenotypes in plants were limited by this phenomenon. Here we show that a transgene can be expressed in plants with sufficient stability to allow an exhaustive mutagenic analysis of the resulting phenotype. We have expressed the morphogenic rolA gene from the TL-DNA of Agrobacterium rhizogenes Ri plasmid in transgenic Arabidopsis thaliana plants. The resulting pleiotropic RolA phenotype allows a visual screen for reversion to detect germinal as well as somatic instability of transgene expression. However no spontaneous reversions of the RolA phenotype were observed in 65 000 progeny of two independent transgenic A. thaliana lines, each carrying a single homozygous rolA locus. In contrast, 12 revertants of the RolA phenotype were isolated from 360000 ethyl methane sulphonate (EMS)-mutagenized M2 progeny. All revertants were shown genetically to carry stable recessive mutations in the rolA locus, thus establishing a series of loss-of-function alleles. Molecular characterization revealed that the loss-of-function alleles were structurally intact and expressed in all rolA mutants. A wild-type rolA locus and two loss-of-function alleles were reisolated and sequenced; base pair substitutions were found in each loss-of-function allele leading to single amino acid substitutions in the rolA open reading frame. Therefore no instability of expression of the rolA locus was detected in any of the 425 000 individuals studied in this analysis. Furthermore even under conditions of saturation mutagenesis, no extragenic suppressor locus was detected.     

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     

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.     

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.     

Characterization of ornamental Datura plants transformed by Agrobacterium rhizogenes

Summary Datura arborea and D. sanguinea hairy roots were produced by cocultivation of leaf fragments with Agrobacterium rhizogenes strain NCPP 1855. Adventitious buds emerged spontaneously, without exogenous growth regulators, from seven hairy root clones of D. arborea and from one hairy root clone of D. sanguinea. Regenerated plants were successfully acclimatized in the greenhouse. The integration of the bacterial TL-DNA into the genome of the putative transformed plants was confirmed by Southern blot analysis. Transgenic plants displayed increased ability to root in vivo. Morphological traits with relevant ornamental value like plant height, leaf number, size and shape, internode number, and internode length were also affected. Transformation by wild-type Ri TL-DNA provided the chance to study plant growth and differentiation and to select improved genotypes.     

Effect of the rol genes from Agrobacterium Rhizogenes on the content and structure of pectic substances and glycanase activity in Rubia Cordifolia transgenic cell cultures

The expression of the rolB gene was found to increase the pectic yield in Rubia cordifolia cells, while the rolC gene inhibited the pectin production, which correlated with its expression level. The expression of the rolA, rolB, and rolC genes led to an increase in the content of arabinogalactan (AG) in cells. The increase in the expression of the rolB and rolC genes resulted in a more significant reduction in the content of arabinose residues in pectin, which was accompanied by an increased activity of α-L-arabinofuranosidase in cells. Moreover, the amount of galactose residues in pectin increased with the enhancement of the rolB expression due to a decrease in the activity of β-galactosidase in cells. The content of galacturonic acid residues in pectin from transgenic cultures decreased in the following order: rolC > rolB > rolA. The amount of arabinose residues in AG decreased independently of the gene type. The amount of arabinose residues in AG was found to be considerably reduced when the rolB expression level was increased.