Host-tissue differences in transformation of pumpkin (Cucurbita pepo L.) by Agrobacterium rhizogenes

Agrobacterium rhizogenes (wild-type strains 8196 and 15834) transformation of pumpkin (Cucurbita pepo L.) intact seedlings grown in vivo, and 6–8-day-old excised cotyledons cultured in axenic conditions was investigated. Transformed (hairy) roots were successfully induced only on the excised cotyledons with the strain 8196, while intact seedlings failed to form hairy roots with either of the two different bacterial strains. Axenic hairy-root cultures established on MS medium without hormones grew vigorously. Mannopine was detected in all transgenic root clones examined. The peroxidase activity in transformed roots was higher compared with normal roots. Electrophoretic analyses of soluble proteins and isoperoxidases showed substantial differences between transformed and normal pumpkin roots.     

Genetic transformation ofAjuga multiflora bunge withAgrobacterium rhizogenes and 20-hydroxyecdysone production in hairy roots

An efficient transformation system forAjuga multiflora Bunge was established by usingAgrobacterium rhizogenes strain A4. After inoculation with the bacteria, we obtained a number of hairy-root clones from micro-calli of the explant petioles. One fast-growing line showed the highest production of 20-hydroxyecdysone (20-HE). PCR amplification of rooting locus (rol) genes revealed that the left hand-transferred DNA of the root-inducing plasmid was inserted into the genome of our transformedAjuga hairy roots. This integration was further confirmed by DNA-DNA hybridization. The 20-HE content in hairy roots was 10 times higher than that measured in the wild type.     

<Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>: recent developments and promising applications

Agrobacterium rhizogenes is the etiological agent for hairy-root disease (also known as root-mat disease). This bacterium induces the neoplastic growth of plant cells that differentiate to form “hairy roots.” Morphologically, A. rhizogenes-induced hairy roots are very similar in structure to wild-type roots with a few notable exceptions: Root hairs are longer, more numerous, and root systems are more branched and exhibit an agravitropic phenotype. Hairy roots are induced by the incorporation of a bacterial-derived segment of DNA transferred (T-DNA) into the chromosome of the plant cell. The expression of genes encoded within the T-DNA promotes the development and production of roots at the site of infection on most dicotyledonous plants. A key characteristic of hairy roots is their ability to grow quickly in the absence of exogenous plant growth regulators. As a result, hairy roots are widely used as a transgenic tool for the production of metabolites and for the study of gene function in plants. Researchers have utilized this tool to study root development and root–biotic interactions, to overexpress proteins and secondary metabolites, to detoxify environmental pollutants, and to increase drought tolerance. In this review, we provide an up-to-date overview of the current knowledge of how A. rhizogenes induces root formation, on the new uses for A. rhizogenes in tissue culture and composite plant production (wild-type shoots with transgenic roots), and the recent development of a disarmed version of A. rhizogenes for stable transgenic plant production.     

Hairy root induction of<Emphasis Type="Italic"> Papaver somniferum</Emphasis> var.<Emphasis Type="Italic"> album</Emphasis>, a difficult-to-transform plant,by<Emphasis Type="Italic"> A. rhizogenes</Emphasis> LBA 9402

Two strains of Agrobacterium rhizogenes (15834, LBA 9402) and one Agrobacterium tumefaciens strain [GV 3101 (PMP90RK, p35SGUS-2)] and four culture media were tested and compared for their ability to induce hairy root formation on wounded Papaver somniferum L. hypocotyls. Five weeks after the infection with A. rhizogenes LBA 9402, hairy roots appeared on 80% of the hypocotyls maintained in the hormone-free liquid medium. Six hairy-root cultures were established. Transformation was confirmed by polymerase chain reaction analysis. One clone was analysed for its alkaloid production. The total alkaloid content was higher in the transformed roots (0.46±0.06% DW) than in the untransformed roots (0.32±0.05% DW). The transformed roots accumulated three times more codeine (0.18±0.02% DW) than intact roots (0.05±0% DW). Moreover, morphine (0.255±0.03% DW) and sanguinarine (0.014±0% DW) were found in the liquid culture medium.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - LS Linsmaier and Skoog     

Recovery of phenotypically normal transgenic plants of Brassica oleracea upon Agrobacterium rhizogenes-mediated co-transformation and selection of transformed hairy roots by GUS assay

In this paper we describe the production of transgenic broccoli and cauliflower with normal phenotype using an Agrobacterium rhizogenes-mediated transformation system with efficient selection for transgenic hairy-roots. Hypocotyls were inoculated with Agrobacterium strain A4T harbouring the bacterial plasmid pRiA4 and a binary vector pMaspro::GUS whose T-DNA region carried the gus reporter gene. pRiA4 transfers T_L sequences carrying the rol genes that induce hairy root formation. Transgenic hairy-root production was increased in a difficult-to-transform cultivar by inclusion of 2,4-D in the medium used to resuspend the Agrobacterium prior to inoculation. Transgenic hairy roots could be selected from inoculated explants by screening root sections for GUS activity; this method eliminated the use of antibiotic resistance marker genes for selection. Transgenic hairy roots were produced from two cauliflower and four broccoli culivars. Shoots were regenerated from transgenic hairy root cultures of all four cultivars tested and successfully acclimatized to glasshouse conditions, although some plants had higher than diploid ploidy levels. Southern analysis confirmed the transgenic nature of these plants. T₀ plants from seven transgenic lines were crossed or selfed to produce viable seed. Genetic analysis of T₁ progeny confirmed the transmission of traits and revealed both independent and co-segregation of Ri T_L-DNA and vector T-DNA. GUS-positive phenotypically normal progeny free of T_L-DNA were identified in three transgenic lines out of the six tested representing all the cultivars regenerated including both cauliflower and broccoli.     

Genetic modification of potato development using Ri T-DNA

Summary Forty-two potato plants were regenerated from a hairy-root line obtained after infection of a shoot of Solanum tuberosum cv Desiree with Agrobacterium rhizogenes strain LBA 9402 (pRil855). Transformed plants were uniform and had a distinct phenotype and development compared with untransformed controls. Their growth was vigorous, especially early in their development, their roots were abundant and showed reduced geotropism, their leaves were slightly crinkled and glossy and they produced longer tubers with more frequent, prominent eyes. Cytological examination showed that ten of the forty-two transformed plants had either 47 or 49 chromosomes instead of the normal 48. In two of these aneuploids structural changes were observed.     

DNA from Agrobacterium rhizogenes in transferred to and expressed in axenic hairy root plant tissues

Summary Axenic root tissue cultures were established from primary hairy roots induced on carrot and potato by Agrobacterium rhizogenes strain 15834. cDNA made towards poly-A⁺ RNA isolated from these tissues, hybridized with a limited number of well-defined fragments of the plasmid DNA present in the inciting A. rhizogenes strain. These data therefore demonstrate that at least part of the rootinducing (Ri) plasmid of Agrobacterium rhizogenes is transferred, stably maintained and expressed in hairy-root plant tissues and confirm that hairy roots are a special type of crown gall. The T-DNA in hairy-root cells appears to have several regions which are related in terms of sequence homology and probably also function to the T-DNA in octopine and nopaline crown gall tumours.     

影响毛状根生长及其次生代谢产物合成因素的研究进展

利用发根农杆菌转化药用植物,并对毛状根进行离体培养,大量提取重要成分,是药用资源植物可持续发展的有效途径之一。讨论了毛状根的诱导、影响毛状根生长及次生代谢产物形成的因素、利用毛状根培养技术生产植物次生代谢物的最新研究进展。     

Camptothecin and 10-hydroxycamptothecin from<Emphasis Type="Italic"> Camptotheca acuminata</Emphasis> hairy roots

Camptothecin (CPT) is an anticancer and antiviral alkaloid produced by the Chinese tree Camptotheca acuminata (Nyssaceae) and some other species belonging to the families Apocynaceae, Olacaceae, and Rubiaceae. Bark and seeds are currently used as sources for the drug. Several attempts have been made to produce CPT from cell suspensions; however, the low yields obtained limit this approach. Cultures of differentiated cell types may be an alternative source of alkaloid production. Hairy root cultures of C. acuminata were established from tissue transformed with Agrobacterium rhizogenes strains ATCC 15834 and R-1000. Integration of the genes responsible for the hairy-root phenotype (rol genes) into the plant genome was verified by DNA gel blot analysis. The hairy roots produce and secrete CPT as well as the more potent and less toxic natural derivative, 10-hydroxycamptothecin (HCPT), into the medium. Remarkably, the cultures were able to synthesize the alkaloids at levels equal to, and sometimes greater than, the roots in planta, i.e., 1.0 and 0.15 mg/g dry weight for CPT and the HCPT, respectively.Abbreviations CPT Camptothecin - DR Dry weight - FW Fresh weight - HCPT 10-Hydroxycamptothecin - HPLC High-performance liquid chromatography - kb Kilobases - NAA 1-Napththalenacetic acid - TLC Thin-layer chromatographyCommunicated by K.K. Kamo     

Use of morphometric analysis for characterization of tobacco root growth in relation to infection byPhytophthora parasitica var.nicotianae

Development of tobacco root systems was characterized under controlled environmental conditions by use of morphometric root analysis. According to the classification scheme of this system, roots terminating in apical meristems are defined as first-order roots. Elements of second-order roots begin where two first-order roots merge, and so forth. Growth of root systems was similar for susceptible and resistant tobacco cultivars in nonautoclaved and autoclaved soils. During 15 days of growth subsequent to transplanting of 2-week-old plants, relative multiplication and extension rates of first-order and second-order roots were constant. Apparent unit extension rates of first-order and second-order root elements increased through 15 days of root system growth. Classification of tobacco root systems by the morphometric scheme provided a useful means of partitioning susceptibility of tissues to infection byPhytophthora parasitica var.nicotianae. Zoospores applied at the tips of first-order roots were most successful in causing infections; 73.3% of the roots inoculated with 16 zoospores per root tip became infected. Percentages of infections after inoculation of first-order root tissues 2 cm behind root tips or after inoculation of second-order roots were 10 and 4.3%, respectively.Florida Agricultural Experiment Station, Journal Series Paper 8106.     

Production of hairy roots in Aconitum heterophyllum wall. using Agrobacterium rhizogenes

Summary A method for the production of hairy roots of Aconitum heterophyllum wall. is reported for the first time. Embryogenic callus cultures were successfully transformed using Agrobacterium rhizogenes strains viz. LBA 9402, LBA 9360, and A4 for the induction of hairy roots. The transgenic nature of hairy roots was confirmed by mannopine assay using paper electrophoresis. Best growth of transformed roots was obtained on 1/4 MS (Murashige and Skoog, 1962) medium with 3% sucrose. Total alkaloid (aconites) content of transformed roots was 2.96%, which was 3.75 times higher compared to 0.79% in the nontransformed (control) roots. Thin layer chromatography (TLC) analysis of the components of aconites in the transformed roots revealed the presence of heteratisine, atisine, and hetidine.     

Agrobacterium tumefaciens-mediated hairy root production from seedlings of Chinese cabbage

Cruciferous hairy roots are often used for improving drought adaptability, peroxidase production, andin vitro subculturing ofPlasmodiophora brassicae. For metabolic engineering,Agrobacterium tumefaciens-mediated systems have previously been developed for hairy root production in other plant species. Here, we used therolABC gene binary construct inA. tumefaciens strain GV3101 to establish cultures of Chinese cabbage hairy roots. On both solid and liquid media, therolABC hairy root lines exhibited a wild-type hairy root syndrome in terms of their growth and morphology. This demonstrates that those three genes are sufficient to induce high-quality hairy roots in Chinese cabbage. Such a system could be useful for the stable production of secondary metabolites in that species.     

The relationships between static and dynamic variables in the description of root growth. Consequences for field interpretation of rooting variability

Field root investigations are often limited by the static nature of classical observations, resulting in the need to develop alternative methodologies that allow dynamic interpretation of root architecture variability on the basis of static measurements. The objectives of this work were (i) to evaluate the use of selected morphological indicators, namely root apical diameter (Da) and the length of the apical unbranched zone (LAUZ), in predicting primary and lateral root growth patterns in banana trees, (ii) to propose a field methodology for the assessment of root dynamics based on static measurements. Banana trees (Musa acuminata cv `Grande Naine') were grown in 5 rhizotrons as well as in field conditions, respectively on pouzzolane and Mollic Andosols. In rhizotrons, root growth analysis was carried out by reporting root elongation, Da and LAUZ, three times a week. In field conditions, 4 series of excavations were made at three-week intervals. Apart from root growth rate, measurements were the same as those in the rhizotrons. LAUZ was confirmed as a stable and good predictor of root growth rate for the different types of roots. In the rhizotrons, the root growth of lateral roots was found to be well correlated to the product of Da and the growth rate of the bearing root. Evaluation in field conditions from static observations attested consistent relationships between measured and predicted root length for lateral roots (slopes close to 1:1). The apical diameter can be considered as a good indicator of root growth potential, while actual lateral root growth depends on the bearing root elongation rate. Morphological static indicators calibrated from growth dynamics in rhizotrons are of major interest in explaining growth variability in field conditions. Especially the `growth rate-LAUZ' relationship can be considered a useful tool in interpreting field patterns of growing roots in relation to various soil conditions.     

Coculture of Pachyrhizus erosus (L.) hairy roots with Rhizobium spp.

Summary We have established an in vitro system for the induction and study of nodulation in Pachyrhizus erosus (jicama) via a hairy root-Rhizobium coculture. In vitro-grown P. erosus plantlets were infected with Agrobacterium rhizogenes (ATCC No. 15834) and two hairy root lines were established. Hairy roots were grown in a split-plate system in which compartment I (CI) contained MS medium with nitrogen and different sucrose levels (0–6%), while CII held MS medium without nitrogen and sucrose. Nodule-like structures developed in transformed roots grown in CI with 2–3% surcose, inoculated with Rhizobium sp. and transferred to CII. Nodule-like structures that developed from hairy roots lacked the rigid protective cover observed in nodules from plants grown in soil. Western blot analysis of nodules from hairy roots and untransformed roots (of greenhouse-grown jicama) showed expression of glutamine synthetase leghemoglobin and nodulins. Leghemoglobin was expressed at low levels in hairy root nodules.     

An interchangeable system of hairy root and cell suspension cultures ofCatharanthus roseus for indole alkaloid production

Hairy roots ofCatharanthus roseus obtained by co-cultivation of hypocotyl segments withAgrobacterium rhizogenes, and cultured in SH (Schenk and Hildebrandt) basal medium, formed two types of calli when subcultured in SH medium with 1 mg/1 -naphthaleneacetic acid and 0.1 mg/l kinetin. One of them, a compact callus, when re-subcultured in SH basal medium gave rise to hairy roots again. A rhizogenic cell suspension culture was established from this type of callus. When cultured in SH medium with growth regulators, the rhizogenic callus produced catharanthine at a level of 41% of the level in the initial hairy roots. Upon transfer to SH basal medium, regenerated hairy roots produced this alkaloid at the original level of 1.5 mg/g dry wt. Using this cell/hairy root interchange system a new management system for hairy root culture in bioreactors has been devised and examined involving production of biomass in the form of a cell suspension in medium supplemented with growth regulators, and catharanthine production by hairy roots regenerated from these cells in medium without growth regulators.Abbreviations NAA -naphthaleneacetic acid - SH Schenk and Hildebrandt - SHNK SH medium + 1 mg 1^–1 NAA + 0.1 mg 1^–1 kinetin     

Transgenic Medicago truncatula plants obtained from Agrobacterium tumefaciens -transformed roots and Agrobacterium rhizogenes-transformed hairy roots

Medicago truncatula, barrel medic, is a forage crop that has been developed into a model legume. The development of new transformation methods is important for functional genomic studies in this species. Based on Agrobacterium tumefaciens-mediated transformation of root explants, we developed an effective system for producing M. truncatula (genotype R108) transgenic plants. Among the four A. tumefaciens strains (AGL1, C58C1, EHA105 and LBA4404) tested, EHA105 and AGL1 were most effective in regenerating transgenics. Callus induction frequency from root explants was 69.8%, and plantlet/shoot regeneration frequency was 41.3% when EHA105 was used. Transgenic nature of the regenerated plants was confirmed by PCR and Southern hybridization analyses. Progeny analysis revealed stable Mendelian meiotic transmission of transgenes. Because M. truncatula is particularly useful for the study of root endosymbiotic associations, we further developed a plant regeneration system from A. rhizogenes-transformed hairy roots of M. truncatula. Fertile true transgenic plants were regenerated from the hairy roots, thus allowing the assessment of gene functions at the whole plant level. Segregation analysis revealed that the hairy root genes could be segregated out in the progenies. By coupling A. rhizogenes-mediated hairy root transformation and the regeneration system reported here, once potential genes of interest are identified, the transformed hairy roots carrying such genes could be directly regenerated into plants for more detailed characterization of the genes.     

伊犁河谷苦豆子C、N、P含量变化及化学计量特征

研究苦豆子不同器官中碳、氮、磷元素的化学计量特征的季节变化有助于深入了解该植物蔓延的生态学机制。系统分析了伊犁河谷苦豆子根、茎、叶的碳(C)、氮(N)、磷(P)化学计量特征及其季节动态变化。结果表明∶苦豆子C、N、P含量均值分别为391.40、13.17、1.51mg/g,C∶N、N∶P、C∶P均值分别为45.61、8.52、326.38。苦豆子根、茎、叶在整个生长季内C、N、P均值含量变化一致,为叶茎根。在生态化学计量特征的分析中规律则不同,C含量随着生长时期的增加而增加,N和P的含量则随着生长时期的增加而减少;苦豆子根系中的C、N、P含量有随着深度变化而递减的趋势;器官间的差异性说明植物在不同生长时期,各器官对C、N、P的吸收利用具有特异性。植物叶片中C、N、P含量和N∶P普遍较低,苦豆子生长受N、P的共同限制,更容易受到N元素的限制。     

Growth and Enzyme Activity in Roots and Calli of Resistant and Susceptible Allium Lines as Influenced by Sterile Culture Filtrates of Phoma terrestris

Growth and activities of peroxidases, chitinases and glucanases were studied in order to evaluate the response of calli and roots of pink root-susceptible Allium cepa cvs. Valcatorce and T-412 and resistant A. fistulosum cv. Nogiwa Negi, to sterile culture filtrates of Phoma terrestris. Untreated calli and roots of A. fistulosum exhibited higher activity of peroxidases and glucanases than that of Valcatorce and T-412. Enzyme activities and growth of roots and calli were not affected in filtrate-treated A. fistulosum. The growth of calli and roots of A. cepa cultivars decreased significantly after exposure to P. terrestris filtrates while the peroxidase and glucanase activities increased. Peroxidase and glucanase activities were also enhanced in roots of Valcatorce bulbs grown in P. terrestris-inoculated soil as compared to healthy control plants. We conclude that a high constitutive activity of glucanases and perhaps chitinases might account for the resistance of A. fistulosum. The differential reaction (with respect to root growth) of pink root-susceptible and resistant materials to culture filtrates indicates that this in vitro-system might be useful for the screening of onion breeding lines.     

Genetic transformation ofCatharanthus roseus G. Don byAgrobacterium rhizogenes

Catharanthus roseus plantlets were inoculated with differentAgrobacterium rhizogenes strains. This plant species is known to produce secondary metabolites and axenic hairy-root cultures are an alternative to extraction of plant tissue for the compounds which are synthesized in roots. Hairy root lines were established from inoculations with the agropine strain 15834 and transformed plants were obtained after spontaneous regeneration. Phenotypic alterations of both the root system and the aerial parts were observed in transformed plants. All the tissues analyzed contained agropine and mannopine. T-DNA analysis confirmed the presence of TL- and TR-DNAs either as distinct inserts, or as a single and continuous insert including the region between TL and TR on pRi 15834.