Efficient transformation of potato (Solanum tuberosum L.) using a binary vector in Agrobacterium rhizogenes

Summary We transformed three potato (Solanum tuberosum L.) genotypes by using A. rhizogenes or a mixture of A. rhizogenes and A. tumefaciens. Inoculations of potato stem segments were performed with Agrobacterium rhizogenes AM8703 containing two independent plasmids: the wild-type Ri-plasmid, pRI1855, and the binary vector plasmid, pBI121. In mixed inoculation experiments, Agrobacterium rhizogenes LBA1334 (pRI1855) and Agrobacterium tumefaciens AM8706 containing the disarmed Ti-plasmid (pAL4404) and the binary vector plasmid (pBI121) were mixed in a 11 ratio. The T-DNA of the binary vector plasmid pBI121 contained two marker genes encoding neomycin phosphotransferase, which confers resistance to kanamycin, and -glucuronidase. Both transformation procedures gave rise to hairy roots on potato stem segments within 2 weeks. With both procedures it was possible to obtain transformed hairy roots, able to grow on kanamycin and possessing -glucuronidase activity, without selection pressure. The efficiency of the A. rhizogenes AM8703 transformation, however, was much higher than that of the mixed transformation. Up to 60% of the hairy roots resulting from the former transformation method were kanamycin resistant and possessed -glucuronidase activity. There was no correlation between the height of the kanamycin resistance and that of the -glucuronidase activity in a root clone. Hairy roots obtained from a diploid potato genotype turned out to be diploid in 80% of the cases. Transformed potato plants were recovered from Agrobacterium rhizogenes AM8703-induced hairy roots.     

Agrobacterium rhizogenes-mediated transformation of Rubia peregrina L.: in vitro accumulation of anthraquinones

An Agrobacterium rhizogenes-mediated transformation system for Rubia peregrina L. has been established by co-cultivation of callus cultures or by direct infection of explants with A. rhizogenes LBA 9402 harbouring the binary vector pMON 9703 containing gus and npt-II genes as markers. The putative transformed roots were selected on medium containing kanamycin (25 mg l^-1). Antibiotic resistant root clones were subjected to histochemical analysis for the localisation of -glucuronidase activity. Polymerase chain reaction was used to confirm the presence of gus, npt-II and T _L border sequences in the transformed root clones. Spontaneous regeneration of shoots was observed from 30 day-old transgenic roots. Total anthraquinone and alizarin contents of transgenic root cultures were measured by spectrophotometry and by high performance liquid chromatography. The accumulation of total anthraquinones in transformed roots was found to be approximately 2-fold higher than that found in one year-old field grown roots (2.12±0.12 and 1.23±0.12 mg g^-1 dry weight, respectively). Alizarin was found to be the major anthraquinone in transformed root cultures and was found to be approximately 3-fold higher than in field grown roots.Abbreviations BA 6-benzyladenine - B5 Gamborg B5 medium - gus -glucuronidase gene - GUS -glucuronidase - HPLC high performance liquid chromatography - MS Murashige and Skoog medium - NAA -naphthalene acetic acid - npt-II neomycin phosphotransferase II gene - OD₆₀₀ optical density at 600 nm - PCR polymerase chain reaction - T _L left border sequence of T-DNA - vir D1 virulence D1 gene - YMB yeast mannitol broth     

Transformation of cultivated tomato by a binary vector in Agrobacterium rhizogenes: transgenic plants with normal phenotypes harbor binary vector T-DNA,but no Ri-plasmid T-DNA

Summary Cultivated tomato was genetically transformed using two procedures. In the first procedure, punctured cotyledons were infected with disarmed Agrobacterium tumefaciens strain LBA4404 or with A. rhizogenes strain A4, each containing the binary vector pARC8. The chimeric neomycin phosphotransferase (NPT II) gene on pARC8 conferred on transformed plant cells the ability to grow on medium containing kanamycin. Transformation reproducible yielded kanamycin-resistant transformants in different tomato genotypes. NPT II activity was detected in transformed calli and in transgenic plants. All of these plants were phenotypically normal, fertile and set seeds. Using the second procedure, inverted cotyledons, we recovered transformed tomato plants from A. rhizogenes-induced hairy roots. In this case, all of the transgenic plants exhibited phenotypes similar to hairy root-derived plants reported for other species. Southern blot analysis on these plants revealed that the plant DNA hybridized with both probes representing pARC8-T-DNA, and the T-DNAs of the A4 Ri-plasmid. However, southern analysis on those phenotypically normal transgenic plants from the first procedure revealed that only the pARC8-T-DNA was present in the plant genome, thus indicating that the pARC8-T-DNA integrated into the plant genome independently of the pRi A4-T-DNA. Genetic analysis of these phenotypically normal transgenic plants for the kanamycin-resistance trait showed Mendelian ratios, 31 and 11, for selfed (R1) and in crossed progeny, respectively.     

Assessment of the efficiency of cotransformation of the T-DNA of disarmed binary vectors derived from Agrobacterium tumefaciens and the T-DNA of A. rhizogenes

Co-transfer of Agrobacterium rhizogenes T-DNA and T-DNA from the A. tumefaciens binary vector pBin19 (Bevan, 1984) was studied in detail using Nicotiana rustica. High frequencies of co-transfer of T-DNA's were observed, even when no selection pressure was exerted. Increased levels of pBin19 T-DNA were found in hairy root cultures with selection at higher levels of kanamycin sulphate (50–200 g ml^–1). Several other species were also transformed by A. rhizogenes carrying pBin19 and A. rhizogenes harbouring a different binary factor, pAGS125 (Van den Elzen et al., 1985), was used to transform N. rustica hairy roots to confer hygromycin B resistance.     

Factors influencing Agrobacterium tumefaciens-mediated transformation and regeneration of the safflower cultivar ‘centennial’

The effects of co-cultivation conditions on transformation efficiency and direct shoot regeneration from seedling explants of safflower cv. Centennial were examined. Agrobacterium tumefaciens strain EHA105/p35SGUSInt was more infective than LBA4404/pBI121 as determined by numbers of sectors expressing -glucuronidase activity. Compared to nontransformed controls, efficiency of direct shoot regeneration was markedly decreased by co-cultivation with EHA105 and the decrease exacerbated by addition of acetosyringone, indicating that a hypersensitive response to bacterial infection may reduce organogenetic potential. Likewise exposure of co-cultivated explants to kanamycin or geneticin in selective media reduced regeneration efficiency. Addition of 500 mg l^-1 carbenicillin slightly increased numbers of regenerating shoots. Tranfformed shoots were obtained only when kanamycin selection was initiated 1 or 2 days after co-cultivation. Presence of transgenes in geneticin-resistant shoots was confirmed using polymerase chain reaction and Southern hybridization assays.Abbreviations AS acetosyringone - GUS -glucuronidase - MS Murashige and Skoog (1962) - NAA naphthaleneacetic acid - NPTII neomycin phosphotransferase II - PCR polymerase chain reaction - TDZ thidiazuron     

Genetic transformation of the apple scion cultivar ‘Delicious’ viaAgrobacterium tumefaciens

Transformed shoots of the major apple scion cultivar Delicious (Malus × domestica Borkh.) were obtained by cocultivation withAgrobacterium tumefaciens carrying disarmed plasmids. The transformation efficiency was influenced by the type of plasmid and by the inoculation temperature. Initial selection involved a callus stage followed by shoot regeneration. Shoot regeneration occurred only in the dark. Shoots grew in the light and were rooted in the presence of 100 mg l^–1 kanamycin. Of the range of plasmids tested, the cointegrates pGV 3850::1103neo and pGV 3850::1103gus gave a higher frequency of transformation than the binary vector pGV 3111 × pKIWI. Elongation of transformed shoots was enhanced by culture in a mixture of the cytokinins 6(--dimethylallylamino)purine and 6-benzyladenine. Up to 60% of the elongated shoots rooted in 100 mg l^–1 kanamycin. Transformation was indicated by kanamycin resistance, -glucuronidase assay, nopaline synthesis, and by integration of the T-DNA as judged by Southern analysis.     

Transgenic plant production from leaf discs of Moricandia arvensis using Agrobacterium tumefaciens

Summary A high frequency shoot regeneration (80%) was developed from callus of leaf discs and stem internodes of Moricandia arvensis. Leaf discs were shown to be a preferable starting material for transformation experiments. Agrobacterium tumefaciens strain GV3101/pMP90 used in this study contained a binary vector with genes for kanamycin resistance, hygromycin resistance and -glucuronidase (GUS). Maximum transformation efficiency (10.3%) was achieved by using kanamycin at the rate of 200 mg/l as a selection agent. Presence of tobacco suspension culture during co-cultivation and a pre-selection period of seven days after co-cultivation was essential for successful transformation. Transgenic plants grew to maturity and exhibited flowering in a glasshouse. GUS activity was evident in all parts of leaf and the presence of GUS gene in plant gemone was confirmed by PCR analysis.Abbreviations GUS -glucuronidase     

Selection of transgenic flax plants is facilitated by spectinomycin

Regeneration of transformed flax shoots after inoculation withAgrobacterium tumefaciens carrying a binary vector with either a neomycin phosphotransferase (nptII) gene and a -glucuronidase (GUS) reporter gene or a spectinomycin resistance gene was examined. Hypocotyls from 4-day-old seedlings were inoculated with either of the twoA. tumefaciens strains. Selection and regeneration were achieved on a medium containing 0.1 M thidiazuron, 0.01 M napthalene acetic acid, 100 mgl^–1 kanamycin sulphate or spectinomycin sulphate and 300 mgl^–1 cefotaxime. Use of different neomycins for the selection of transformed tissues did select transformed calli but not transformed shoots either directly or via a callus phase. Selection based on spectinomycin resistance allowed the growth of transformed shoots. Transgenic shoots were rooted on a medium containing 100 mgl^–1 spectinomycin sulphate. Integration of the spectinomycin resistance gene into the flax genome was confirmed by Southern blot hybridizations and spectinomycin resistance was shown to be inherited as a dominant Mendeliant trait. Therefore, spectinomycin resistance is more suitable for genetic engineering of flax than aminoglycoside resistance.     

Hairy root transformation in alfalfa (Medicago sativa L.)

Summary The widely cultivated forage legume alfalfa (Medicago sativa L.) was transformed with the agropine type Agrobacterium rhizogenes NCPPB 1855. Sterile root and callus cultures were derived from tumorous hairy roots which were easily obtained independent of the plant variety or genotype. Plant regeneration, via somatic embryogenesis, was achieved only when a selected alfalfa line, characterized by high regenerative capability, was utilized. Genetic transformation was confirmed by the presence of agropine and T-DNA. Phenotypic alterations, mainly affecting the root system, were observed in transformed plants. The possibility that T-DNA-induced variations could be useful in the improvement of M. sativa is discussed.Research work was partially supported by Progetto Strategico Agrobiotecnologia C.N.R., Italy     

The Agrobacterium rhizogenes pRi TL-DNA segment as a gene vector system for transformation of plants

Summary A plant gene transfer system was developed from the Agrobacterium rhizogenes pRi15834 TL-DNA region. Intermediate integration vectors constructed from ColE1-derived plasmids served as cloning vectors in Escherichia coli and formed cointegrates into the TL-DNA after transfer to A. rhizogenes. An A. rhizogenes strain with pBR322 plasmid sequences replacing part of the TL-DNA was also constructed. Plasmids unable to replicate in Agrobacterium can integrate into this TL-DNA by homologous recombination through pBR322 sequences. No loss of pathogenicity was observed with the strains formed after integration of intermediate vectors or strains carrying pBR322 in the TL-DNA segment. Up to 15 kb of DNA have been transferred to plant cells with these systems. The T-DNA from a binary vector was cotransformed into hairy roots which developed after transfer of the wild-type pRi T-DNA. Tested on Lotus corniculatus the TL-derived vector system transformed 90% of the developed roots and the T-DNA from the binary vector was cotransformed into 60% of the roots. Minimum copy numbers of one to five were found. Both constitutive and organ-specific plant genes were faithfully expressed after transfer to the legume L. corniculatus.     

The effects of exogenous auxin and rol genes on root formation in Rosa hybrida L. ‘Moneyway’

The effect of indole-3-butyric acid (IBA) on the formation of non-transformed and rol gene transformed roots on stem slices of in vitro cultured shoots of Rosa hybrida L. Moneyway was examined. Formation of adventitious roots on this rootstock was dependent on the IBA dose; it was not affected by the presence of other root primordia on the same explant. Application of 0.32 to 1 M IBA during 5 days, followed by transfer to medium without hormones resulted in maximum root formation (90%) after three weeks. The formation of such untransformed roots was completely inhibited by transfer to medium with 5 mg 1^–1 kanamycin two days after excision. Ri roots were formed upon inoculation with A. rhizogenes LBA9402 harbouring two plasmids: pRi1855, comprising the rol genes and the binary plasmid p 35Sgusintron with the nptII gene for kanamycin resistance and the CaMV 35Sgusintron gene. The formation of these Ri roots on kanamycin-containing medium was independent of the presence of IBA. Stem slices inoculated with a disarmed A. tumefaciens GV3101, harbouring only the nptII gene, formed callus and subsequently roots in the presence of kanamycin exclusively on medium with high IBA concentrations (10 or 100 M). Root formation at 100 M IBA was considerably improved by transformation with the rolB gene under the influence of the strong CaMV 35S promoter. In addition, low IBA (0.1 and 1 M) stimulated the formation of roots only on stem slices transformed with A. tumefaciens harbouring the rolA+rolB+rolC genes; the rooting response at 10 M IBA was much improved. It was concluded that the 35SrolB gene and especially a combination of rolA, B and C genes promote the rooting response.Abbreviations BAP 6-benzylaminopurine - FeEDDHA ferric ethylenediamine di(o-hydroxyphenylacetate) - IBA indole-3-butyric acid - LSD least significant difference - RIM root induction medium - SE standard error - X-gluc 5-bromo-4-chloro-3-indolyl glucuronide     

Agrobacterium tumefaciens-mediated transformation of Campanula carpatica: factors affecting transformation and regeneration of transgenic shoots

An efficient transformation system for Campanula carpatica was developed using Agrobacterium tumefaciens strains LBA4404 (harbouring the plasmid pBI121), and AGL0 (harbouring the plasmid pBEO210). This is the first report on the transformation of C. carpatica. Various factors affecting the transformation efficiency and subsequent regeneration were identified. The age of seedlings from which the explants for transformation studies were taken, and the growth conditions under which the seedlings were grown had a significant influence on the production of transformed shoots. Hypocotyls taken from 12-day-old seedlings grown in the dark were the most productive, with up to 25% of hypocotyls producing transformed shoots. Explants taken from 5-week-old seedlings produced only transformed callus. The medium used for co-cultivation and incubation also had a significant influence on transformation frequency and shoot regeneration. The cultivar Blue Uniform was more responsive than White Uniform. Both bacterial strains and plasmids were equally effective in producing transformed tissue. Transformed shoots were selected on kanamycin medium, and the presence of the uidA and nptII genes in those selected shoots was confirmed by -glucuronidase and ELISA analyses, respectively.Abbreviations BAP 6-Benzylaminopurine - NAA -Naphthalene acetic acid - TDZ Thidiazuron - BU Blue Uniform - WU White Uniform     

Agrobacterium-mediated genetic transformation of oilseed Brassica campestris: Transformation frequency is strongly influenced by the mode of shoot regeneration

Summary Protocols were developed for efficient shoot regeneration from hypocotyl and cotyledon explants of oilseed Brassica campestris (brown sarson) cv. Pusa Kalyani. These were used for genetic transformation by an Agrobacterium based binary vector carrying neomycin phosphotransferase (npt) gene and -glucuronidase (gus)-intron gene for plant cell specific expression. Transformed plants were recovered from hypocotyl explants at a frequency of 7–13%. Addition of silver nitrate markedly enhanced shoot regeneration in hypocotyl explants under non-selection conditions and was found to be an absolute requirement under selection conditions. Cotyledon explants, inspite of being more regenerative, proved to be highly refractory to transformation. Only two chimeric transformed shoots were obtained from more than 10,000 cotyledons treated with Agrobacterium. In hypocotyl explants, shoot regeneration occurred from the vascular parenchyma both with and without the intervention of callus phase. Only the shoot buds differentiating from callus tissue were positive for GUS activity. In cotyledons, shoot buds originated only directly from the vascular parenchyma, generally at a distance of about 450–625 from the cut surface. Such shoots were negative for GUS activity.     

Highly efficient transformation and regeneration of aspen plants through shoot-bud formation in root culture

The natural capacity of aspen (Populus tremula L.) roots for direct shoot-bud regeneration was harnessed to establish a highly efficient transformation and regeneration procedure that does not require a pre-selection stage on antibiotics. Aspen stem segments were transformed using wildtype Agrobacterium rhizogenes (LBA9402) with the binary p35SGUSINT plasmid carrying the genes coding for -glucuronidase (GUS) and neomycin phosphotransferase II. High levels of transient GUS expression were found in the basal cut surface of 87% of the segments, and 98% of these formed well-developed adventitious roots. Proliferating root cultures were established in liquid culture, and GUS expression was found in 75% of the roots. Shoot-bud regeneration in root cultures was very high: 99% of the roots yielded shoot-buds (4.3 buds per root), of which 91% expressed GUS. Southern blot analysis and polymerase chain reaction confirmed the transgenic nature of the plants expressing GUS. Kanamycin resistance of transformants was tested with respect to callus growth and bud regeneration. Callus from transgenic plants exhibited a high growth rate in the presence of up to 100 g/l kanamycin, and bud regeneration from transformed roots occurred in the presence of up to 30 g/l kanamycin. Callus and buds from control (non-transformed) plants failed to proliferate or regenerate, respectively, in the presence of kanamycin at concentrations above 10 g/l. Ninety-four independent clones from different transformation events were established, of which 52 were phenotypically true-to-type.Abbreviations NAA -naphthaleneacetic acid - BA 6-benzylaminopurine - GUS -glucuronidase - NPTII neomycin phosphotransferase II - PCR polymerase chain reaction - EtOH ethanol - CTAB cetyltrimethylammonium bromide - SDS sodium dodecyl sulfate - NOS nopaline synthase - CaMV cauliflower mosaic virus     

Plant regeneration and genetic transformation of Lotus angustissimus

Culture conditions have been established for callus induction and growth from different explants in L. angustissimus L. Calli were obtained from hypocotyls, leaves, stems, cotyledons and roots cultured on media containing 2,4-dichlorophenoxyacetic acid or -naphthaleneacetic acid with kinetin, N⁶ – ² or benzyladenine in different combinations and concentrations. Only those calli induced in presence of -naphthaleneacetic acid with benzyladenine or kinetin produced shoots. Calli induced from hypocotyl explants were the most efficient in regeneration of shoots. Transformation with an Agrobacterium rhizogenes binary vector carrying the plasmid pBI 121.1 is reported. The percentage of cotransformation was estimated by testing GUS activity in hairy roots. The integration of Ri T-DNA and the NPTII gene in transformed plants was confirmed by molecular analyses and in vitro culture of transgenic tissues in the presence of kanamycin.Abbreviations BA benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - 1AA indole-3-acetic acid - NAA -naphthaleneacetic acid - 2iP N⁶ – ² - PA proanthocyanidins - NOS nopaline synthase - NI TII neomycin phosphotransferase - GUS -glucuronidase - CaMV cauliflower mosaic virus     

Fate of introduced genetic markers in transformed root clones and regenerated plants of monohaploid and diploid potato genotypes

Summary Agrobacterium transformation of stem internodes of four monohaploid (839-79, 849-7, 851-23, 855-1) and two diploid (M9 and HH260) potato genotypes using hairy root-inducing single (LBA 1020, LBA 9365, LBA 9402) and binary (LBA 1060KG) vectors is reported. Various media and successive culture steps were tested for plant regeneration from different transformed root clones. The fate of introduced genetic markers in root clones and regenerated plants (hairy root phenotype, hormone autotrophy, opine production, kanamycin resistance, -glucuronidase activity), the ploidy stability and protoplast yield were analysed. The transformation efficiency of stem internodes (hairy root production) and the regeneration capacity of the transformed root clones greatly differed within and between the various potato genotypes. The regenerated plants obtained after transformation with both types of vectors often showed the absence of one or more genetic markers. However, transformation with the binary Agrobacterium vector generally resulted in the stable presence of the opines in all transformed root clones and most regenerated plants. In HH260, transformation efficiency, plant regeneration of transformed root clones, protoplast yield and ploidy stability were the highest as compared to the other genotypes. The application of these transformed plants as marker lines in gene mapping and gene expression studies is indicated.     

Agrobacterium-mediated transformation and plant regeneration of buckwheat (Fagopyrum esculentum Moench.)

Genetic transformation of buckwheat (Fagopyrum esculentum Moench.) and regeneration of transgenic plants were obtained by using Agrobacterium tumefaciens strains as vectors. Buckwheat cotyledons were excised from imbibed seeds, co-cultivated with A. tumefaciens and subjected to previously reported protocols for callus and shoot regeneration. The transformation with oncogenic strains was confirmed by opine and DNA analyses of tumour tissue extracts. Plants were regenerated on cotyledon fragments incubated with strain A281, harboring pGA472, which carries the neomycin phosphotransferase II gene for kanamycin resistance. The transformation of resistant shoot clones was confirmed by NPTII enzyme assay and DNA hybridization. A large number of transformed shoots were rooted and fertile plantlets were raised in the greenhouse. Transgenic plants comprised pin and thrum clones, which were allowed to cross-pollinate. In about 180 R₂ seeds tested for kanamycin resistance, the ratio of resistant to sensitive seedlings was roughly 3:1.Abbreviations BAP 6-benzylaminopurine - 2,4-D dichloro-phenoxyacetic acid - 2iP 6-(, ,-dimethylallyl-amino)-purine - IBA indole-3-butyric acid - IAA indole-3-acetic acid - Km kanamycin - NPTII neomycin phosphotransferase II     

Isolation of the promoter of a root cap expressed pectinmethylesterase gene from Pisum sativum L. (rcpme1) and its use in the study of gene activity

A genomic clone of a pea pectinmethylesterase encoding gene, rcpme1, was isolated; the promoter region was found to include regions of homology to phenylalanine ammonia lyase (PAL) and nodulin gene promoters. Agrobacterium rhizogenes mediated hairy roots were used for rcpme1 expression and functional analysis in pea. Patterns of rcpme1 expression in cultured hairy roots, measured using uidA encoding -glucuronidase (GUS) as a reporter gene, were distinct from patterns which occur in normal pea roots. No reporter gene expression occurred in transgenic Arabidopsis thaliana, whose roots do not produce border cells. Border cell number from transgenic hairy roots expressing rcpme1 anti-sense mRNA under the control of its 2.75 kb 5 flanking sequence was reduced by > 50%. Nodulation genes of Rhizobium leguminosarum were used as a marker to document that roots with reduced production of border cells and other root cap exudates have a corresponding reduction in levels of biologically active signal molecules. Direct measurements were used to confirm that most of the exudate harvested from young, unwounded roots of normal pea plants is derived from the root tip region where rcpme1 is expressed. The potential application of the rcpme1 gene as a molecular marker for root exudate production is discussed.     

A quick and efficient system for antibiotic-free expression of heterologous genes in tobacco roots

Requirement for antibiotic-resistance selection markers and difficulty in identifying transgenes with the highest expression levels remain the major obstacles for rapid production of recombinant proteins in plants. An alternative approach to producing transgenic plants free of antibiotic-resistance markers is the phenotypic-based selection with root-proliferation genes (rol genes) of Agrobacterium rhizogenes. By using Agrobacterium tumefaciens harboring the pRYG transformation vector with a cluster of rol genes linked to a heterologous gene of interest, we have developed a rapid transformation tool using hairy root formation as a selection marker. The expression of -glucuronidase in newly induced transgenic tobacco roots could be detected as early as 12 days after inoculation. Higher levels of transgene expression in the roots correlated positively with the rates of root elongation on hormone-free medium and thus could be used for positive selection. When tobacco plants were transformed with pRYG harboring the expression cassette for secreted alkaline phosphatase (SEAP), the release of SEAP from roots of the fully regenerated transgenic plants could be quantified at rates as high as 28 g/g root dry weight per day.Abbreviations GUS: -Glucuronidase - SEAP: Secreted alkaline phosphatase - rolABC: Cluster of rolA, rolB, and rolC genesCommunicated by A. Altman     

<Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated DNA transfer to<Emphasis Type="Italic"> Aesculu</Emphasis>s<Emphasis Type="Italic"> hippocastanum</Emphasis> L. and the regeneration of transformed plants

Hairy roots were induced from androgenic embryos of horse chestnut (Aesculus hippocastanum L.) by infection with Agrobacterium rhizogenes strain A4GUS. Single roots were selected according to their morphology in the absence of antibiotic or herbicide resistance markers. Seventy-one putative transformed hairy root lines from independent transformation events were established. Regeneration was induced in MS liquid medium supplemented with 30 6-benzylaminopurine (BA), and the regenerants were multiplied on MS solid medium containing 10 M BA. Following elongation on MS medium supplemented with 1 M BA and 500 mg/l polyvinylpyrrolidone, the shoots were subjected to a root-inducing treatment. Stable integration of TL-DNA within the horse chestnut genome was confirmed by Southern hybridization. The copy number of transgenes was estimated to be from two to four.Communicated by E.D. Earle