Effect of plant growth regulators on growth and biosynthesis of phenolic compounds in genetically transformed hairy roots of<Emphasis Type="Italic">Panax ginseng</Emphasis> C. A. Meyer

In this study, morphological alterations, biomass growth, and secondary metabolite production of genetically transformed hairy roots ofPanax ginseng C. A. Meyer, were evaluated after administration of plant growth regulators. The addition of benzylamino purine and kinetin to the culture media increased biomass formation and phenolic compound biosynthesis in the hairy roots. α-Naphthaleneacetic acid and indole-3-butyric acid inhibited hairy root growth, however, low concentrations of indole-3-acetic acid slightly increased hairy root growth. Low concentrations of 2,4-Dichlorophenoxyacetic acid profoundly inhibited growth of hairy roots. The addition of plant growth regulators, such as auxin, did not increase total phenolic compounds in hairy roots that did not contain gibberellic acid and cytokinins. Callus formation was induced in cultures suspended in liquid medium amended with benzylamino purine and kinetin. Hairy roots regenerated from these calluses exhibited an active growth pattern with extensive lateral branching in non-amended medium, similar to the growth pattern of the original hairy roots.     

Hairy root cultures: A suitable biological system for studying secondary metabolic pathways in plants

Hairy roots, a plant disease caused by Agrobacterium rhizogenes, show distinctive features such as high growth rate, unlimited branching, and biochemical and genetic stability. Hairy roots resemble normal roots in terms of differentiated morphology and biosynthetic machinery, producing similar secondary metabolites compared to wild‐type roots. As a result, hairy roots have been a topic of intense research for the past three decades, fueling innumerable attempts to develop in vitro hairy root cultures for a large number of plants for the commercial‐scale production of secondary metabolites. The same characteristics have now led to further applications, such as using hairy root cultures as experimental systems for secondary metabolic pathway elucidation studies. Although the trend is relatively new, it has already gained momentum. This review summarizes these developments. The following discussion focuses on the rationale and advantages of using hairy root cultures for secondary metabolic pathway elucidation studies, the methods used, and the results that have been obtained so far.     

Agravitropic behaviour of roots of rapeseed (Brassica napus L.) transformed by Agrobacterium rhizogenes

Transgenic hairy roots of Brassica napus (cv. Omega) have been developed, using Agrobacterium rhizogenes strain AR 25, for use as a model system in the investigation of physiological and morphological differences between transgenic and normal roots. The basic parameters of growth and normal or altered gravitropical behaviour of hairy roots are for the first time presented in this paper together with an ultrastructural and morphological analysis of the root statocytes. The results obtained also represented the basis for the TRANSF0RM-experiment on the IML-2 mission performed onboard the Space Shuttle Columbia. Typical hairy root traits such as hormone-autonomous growth high growth rate, lateral branching, and changed/absence of gravitropism were detected. The transformed nature of the roots was confirmed by Southern blot analyses. The gravitropical behaviour of apices from hairy root cultures of this clone has been compared with root tips from normal seedlings. While the wild type roots curved progressively with increasing stimulation angles, the transformed roots showed no curvature when stimulated at 45 degrees, 90 degrees or 135 degrees on the ground. The morphology and ultrastructure of the root tip regions were examined by light microscopy and transmission electron microscopy. At the ultrastructural level no major differences could be detected between the roots studied. There was, however, a slight reduction in the starch content of most of the amyloplasts of the transgenic root tips, and the root cap was more V-shaped in the transgenic roots than in the wild type. Preliminary results from the Shuttle experiment TRANSFORM show a random distribution of amyloplasts in the root cells of both transformed and wild type root caps after 14 h on a 1xg centrifuge followed by 37 h in microgravity.     

Hairy root culture of <Emphasis Type="Italic">Picrorhiza kurroa</Emphasis> Royle ex Benth.: a promising approach for the production of picrotin and picrotoxinin

Picrorhiza kurroa Royle ex Benth. is an endangered plant producing various compounds of medicinal importance. Hairy roots of P. kurroa were obtained following cocultivation of shoot tip explants with Agrobacterium rhizogenes strains A 4 and PAT 405. Bacterial strain A 4 appeared to be better than the strain PAT 405 in terms of both growth of respective hairy root cultures and secondary metabolite production. The optimal growth of both the hairy root cultures occurred on half-strength semisolid medium with 3% sucrose. Picrotin and picrotoxinin from the roots of wild type field grown plants were compared with 8-week-old hairy root cultures induced by the A 4 and PAT 405 strains of A. rhizogenes. Picrotin and picrotoxinin content were evaluated in hairy root cultures as well as roots of field grown plant of P. kurroa. In terms of the production of picrotin and picrotoxinin, the A 4 induced hairy roots appeared to be a better performer than the PAT 405 induced hairy root cultures. The picrotin and picrotoxinin content was highest in 8-week-old A 4 induced hairy roots (8.8 μg/g DW and 47.1 μg/g DW, respectively). Rapid growth of the hairy roots of P. kurroa with in vitro secondary metabolite production potential may offer an attractive alternative to the exploitation of this endangered plant species.     

Indole alkaloid production by hairy root cultures ofCatharanthus roseus: Growth kinetics and fermentation

Summary Growth kinetics and indole alkaloid production ofCatharanthus roseus hairy root cultures were studied in shake flasks and in a small scale fermenter. A logistic growth model commonly used for microbes described well the growth of hairy roots. Of the several parameters analyzed during the cultivation of hairy roots, a linear relationship between sucrose consumption and dry weight increase was obtained. This suggests the validity of sugar analysis as a means in monitoring the growth of hairy roots in fermenters.     

A flow cell reactor for the study of growth kinetics of single hairy roots

Summary A flow cell reactor designed for the study of growth and branching of individual roots under defined fluid flow conditions is described and preliminary results with the hairy root clone Tagetes erecta T3 are presented. Observations of root growth in this reactor may help to formulate and verify mathematical models root growth kinetics.     

Performance of hairy root cultures of Cichorium intybus L. In bioreactors of different configurations

Summary A transformed root culture of Cichorium intybus L. cv. Lucknow Local grown in different configurations of bioreactors was examined. The roots grown in an acoustic mist bioreactor showed the best performance in terms of increased specific growth rate (0.072d⁻¹) and esculin content (18.5gl⁻¹), the latter of which was comparable to that of shake flask data. C. intybus hairy root cultures grown in an acoustic mist bioreactor produced nearly twice as much esculin as compared to roots grown in bubble column and nutrient sprinkle bioreactors. Studies relating to on-line estimation of conductivity and osmolarity to predict the growth of hairy root cultures are also discussed. The results demonstrate the efficacy and the advantages of an acoustic mist bioreactor for the cultivation of hairy root cultures, especially with reference to C. intybus hairy roots.     

Agrobacterium rhizogenes-mediated transformation of Taraxacum platycarpum and changes of morphological characters

Transformed hairy roots were efficiently induced from seedlings of Taraxacum platycarpum by infection with Agrobacterium rhizogenes 15834. Root explants produced transformed roots at a higher frequency (76.5±3.5%) as compared to stem (32.7±4.8%) or cotyledon (16.2±5.7%). Hairy roots exhibited active elongation with high branching of roots on growth regulator-free medium. The competence of plant regeneration from non-transformed adventitious roots and transformed hairy roots was compared. The frequency of adventitious shoot formation from transformed roots was much higher (88.5±9.8%) than that of non-transformed roots (31.7 ±9.5%) on hormone-free medium. Rooting of hairy root-derived adventitious shoots occurred easily on growth regulator-free medium but no rooting was observed on non-transformed shoots. The stable introduction of rol genes into Taraxacum plants was confirmed by PCR and Southern hybridization. Transgenic plantlets showed considerable differences in their morphology when compared to the corresponding wild-type (non-transgenic) plants. Plantlets formed from transformed roots had numerous fibrous roots with abundant lateral branches instead of the thickened taproots in non-transformed plants. The differences observed may reflect the modification of morphological root characters by introduction of rol genes.Communicated by M.R. Davey     

美洲商陆毛状根诱导及其离体培养的影响因素

为了探讨利用美洲商陆毛状根生产其药用成分的可能性,研究了美洲商陆毛状根诱导及其离体培养的影响因素。结果表明,美洲商陆叶片外植体被发根农杆菌ATCC 15834感染约18 d后,从其叶片外植体形态学下端叶脉切口处产生毛状根,其中以预培养1 d,农杆菌感染20 min,共培养4 d时的毛状根诱导率最高,达到70%。PCR扩增和硅胶薄层层析结果显示,发根农杆菌Ri质粒的rol C基因以及冠瘿碱合成酶基因已在美洲商陆毛状根基因组中整合和表达。所获得的美洲商陆毛状根系都能在无外源激素的MS固体培养基上快速自主生长;其中以毛状根根系2的生长速度最快、分生侧根能力最强和根表面的根毛密度最高;毛状根根表面呈紫红色或呈白色。在供试的MS、1/2MS、B5和6,7-V液体培养基中,以无外源激素的MS培养基最适合美洲商陆毛状根根系生长。与无外源激素的MS培养基相比,6,7-V培养基更有利于毛状根中商陆皂苷甲的合成与积累。本文所建立的美洲商陆毛状根诱导及其离体培养的适宜条件为今后利用其毛状根株系的规模培养来生产其药用有效成分商陆皂苷甲奠定了实验和技术基础。     

The effect of phytohormones on growth and artemisinin production in <Emphasis Type="Italic">Artemisia annua</Emphasis> hairy roots

Summary Few studies have focused on the effect of a broad range of phytohormones on growth and secondary metabolism of a single hairy root species. We measured growth, development, and production of the antimalarial drug, artemisinin, in Artemisia annua hairy roots in response to the five main hormones: auxins, cytokinins, ethylene, gibberellins (GA), and abscisic acid (ABA). Single roots grown in six-well plates in medium B5 with 0.01 mgl⁻¹ (0.029 μM) GA₃ produced the highest values overall in terms of the number of lateral roots, length of the primary root, lateral root tip density, total lateral root length, and total root length. When the total root lengths are compared, the best conditions for stimulating elongation appear to be: GA 0.01 mgl⁻¹ (0.029μM)> ABA 1.0 mgl⁻¹ (3.78μM)=GA 0.02 mgl⁻¹ (0.058μM). Bulk yields of biomass were inversely proportional to the concentration of each hormone tested. All cultures provided with ABA yielded the highest amount of biomass. Both 6-benzylaminopurine and 2-isopentenyladenine inhibited root growth, however, only 2-isopentenyladenine stimulated artemisinin production, more than twice that of the B5 controls, and more than any other hormone studied. These results will prove useful in increasing hairy root growth and artemisinin production.     

A novel morphological response of maize (Zea mays) adult roots to heterogeneous nitrate supply revealed by a split‐root experiment

Approximately 35–55% of total nitrogen (N) in maize plants is taken up by the root at the reproductive stage. Little is known about how the root of an adult plant responds to heterogeneous nutrient supply. In this study, root morphological and physiological adaptations to nitrate‐rich and nitrate‐poor patches and corresponding gene expression of ZmNrt2.1 and ZmNrt2.2 of maize seedlings and adult plants were characterized. Local high nitrate (LoHN) supply increased both lateral root length (LRL) and density of the treated nodal roots of adult maize plants, but only increased LRL of the treated primary roots of seedlings. LoHN also increased plant total N acquisition but not N influx rate of the treated roots, when expressed as per unit of root length. Furthermore, LoHN markedly increased specific root length (m g^?1) of the treated roots but significantly inhibited the growth of the lateral roots outside of the nitrate‐rich patches, suggesting a systemic carbon saving strategy within a whole root system. Surprisingly, local low nitrate (LoLN) supply stimulated nodal root growth of adult plants although LoLN inhibited growth of primary roots of seedlings. LoLN inhibited the N influx rate of the treated roots and did not change plant total N content. The gene expression of ZmNrt2.1 and ZmNrt2.2 of the treated roots of seedlings and adult plants was inhibited by LoHN but enhanced by LoLN. In conclusion, maize adult roots responded to nitrate‐rich and nitrate‐poor patches by adaptive morphological alterations and displayed carbon saving strategies in response to heterogeneous nitrate supply.     

Effects of Agrobacterium rhizogenes strains and other parameters on production of isoflavonoids in hairy roots of Pueraria candollei Grah. ex Benth. var. candollei

Using several explants of Pueraria candollei Grah. ex Benth. var. candollei and two strains of Agrobacterium rhizogenes (ATCC 15834 and 43057), hairy root cultures were established. Including 100???M acetosyringone in the culture medium enhanced frequency of hairy root induction by up to 58?%. Subsequently, effects of inoculum size (IS) and temperature on growth and production of isoflavonoids in hairy roots were determined. Conditions of 1?%?IS and 32?°C promoted the highest accumulation of total isoflavonoid content, up to 31.0?±?22.6?mg/g dry weight (DW), in hairy roots. Moreover, culture of hairy roots at 32?°C decreased browning of hairy roots. Furthermore, this temperature promoted accumulation of the secondary metabolite daidzein; whereas, hairy root cultures at the stationary phase accumulated higher amounts of the isoflavonoid puerarin rather than daidzein.     

Eugenol from normal and transformed root cultures of Coluria geoides

Transformed root cultures of Coluria geoides Ledeb. were established with the use of Agrobacterium rhizogenes LBA 9402. Both normal and transformed root cultures were investigated for their growth and yield of eugenol. Normal roots were grown in B5 medium-supplemented with 0.2 mg l^-1 of kinetin and 0.2 mg l^-1 of 1-naphthaleneacetic acid (NAA). Hairy roots grew well in hormone-free B5 medium. Both hairy roots and normal roots produced glycosidic bound eugenol. as with the roots of intact plants, eugenol was the main component of the total essential oils obtained from hairy root and normal root cultures. The yield of eugenol from normal roots was 0.1–0.25% of the dry wt. and depended on the development stage of the culture. Yield of eugenol from hairy roots was 0.08–0.1% of the dry wt. NAA modified the hairy root morphology and influenced the yield of eugenol.Abbreviations NAA 1-naphthaleneacetic acid     

Ginsenoside production in different phenotypes of Panax ginseng transformed roots

Transformed roots were obtained after the inoculation of sterile root discs of Panax ginseng C.A. Meyer with Agrobacterium rhizogenes A4. The established hairy root lines displayed three morphological phenotypes when cultured on hormone-free liquid Schenk and Hildebrandt medium. Most of the cultures showed the characteristic traits of hairy roots (HR-M), while others were either callus-like (C-M) or thin (T-M) without branching. The growth rate of the transformed root lines was always higher than that of untransformed roots, showing that the genetic changes caused by the A. rhizogenes transformation conditioned a higher biomass formation. When considering the different transformed root phenotypes, we can observe that the highest ginsenoside production was achieved by HR-M root lines, closely followed by C-M ones, whereas the lowest yield was reached by T-M root phenotype. The study of the integration of the TL-DNA and TR-DNA fragments of the pRiA4 in the root genome showed that the aux1 gene was always detected in HR-M and C-M root phenotypes which presented the highest biomass and ginsenoside productions. This fact suggests a significant role of aux genes in the morphology of Panax ginseng transformed roots. The ginsenoside pattern of transformed roots varied according to their morphology, although the ginsenoside contents of the Rg group was always higher than that of the Rb group. From our results, we can infer the potential of some root phenotypes of Panax ginseng hairy root cultures for an improved ginsenoside production.     

Statistical design of the effect of inoculum conditions on growth of hairy root cultures of Catharanthus roseus

Summary The factors in the inoculum conditions that influence the growth rate of hairy roots of Catharanthus roseus in liquid culture were investigated in a randomized two-level, three-factor statistical design. The three variables were the number of root tips, the length of root tips, and the initial volume of media. The experiments and analysis demonstrated the effect of inoculum conditions on hairy root growth, with the length of hairy root tips being the dominant variable without any clonal variability. The best growth rates (doubling times) were obtained with an inoculum of 5 hairy root tips, each 35–40 mm long in 50 mL media: 3.7 and 3.1 days for C. roseus hairy root clones LBE-6-1 and LBE-4-2, respectively.     

人参发根的诱导及其适宜培养条件的研究

利用发根农杆菌A₄菌株在人参根外植体上直接诱导产生发根。在1/2MS固体培养基上建立起发根离体培养系,经连续多代的培养,发根仍保持旺盛生长状态。PCR扩增结果表明,发根农杆菌R_I质粒的rolC基因已在人参发根基因组中整合并得到表达。液体培养基中发根生长速度约为固体培养的2倍。经对发根中人参皂苷含量及比生长速率的测定,筛选出高产发根系R9923。利用HPLC法测定了R9923发根系中单体皂苷Rg1、Re、Rf、Rb1、Rc、Rb2和Rd的含量,人参总皂苷含量达15.2mg/g。确定1/2MS培养液（30g/L蔗糖）、摇床转速110r/min、每２周更换一次培养液、继代培养时间4周,为人参发根生长适宜条件。探讨了培养容积、发根初始接种量以及分级放大培养工艺对发根大规模生产过程中生物产量和皂苷含量的影响。     

Molecular and chemical characterization of plants regenerated from Ri-mediated hairy root cultures of Rauwolfia serpentina

Hairy root lines were induced from leaf explants of Rauwolfia serpentina known to contain high levels of reserpine (0.0882 % DW) content. Out of five high yielding hairy root lines, three (R1, R14 and R15) exhibited spontaneous regeneration of shoots after 6–8 weeks in liquid B5 medium. Excised regenerated shoots underwent robust shoot proliferation when cultured on Murashige and Skoog (MS) medium supplemented with 0.1 mg/l naphthanleneacetic acid (NAA) and 1.0 mg/l 6-benzyladenine. When shoots were transferred to a root induction medium, consisting of MS basal medium and 1.0 mg/l NAA, all rooted within 2–3 weeks. Of a total of 45 plants developed from three different hairy root lines, 30 were successfully acclimatized and transferred to the green house. Almost 90 % of these plants grown in the green house showed no observed phenotypic differences, while 10 % were stunted and grew poorly, in comparison to non-transformed plants. Phenotypic assessment of regenerated plants for plant length, number of nodes and intermodal lengths, number of leaves per node, leaf color, leaf size, number of flowering shoots, flower size, fruit size, lateral root branching and root biomass was conducted. Polymerase chain reaction and Southern blot hybridization revealed that all plants derived from hairy roots carried the Ri T_L-DNA fragment. Moreover for plants derived from transgenic hairy root line R14, presence of more than a single transgene copy number was observed, and this might have contributed to observed abnormal phenotypes. Analysis of reserpine content revealed that roots of regenerated plants had similar levels (0.0889 % DW) to those of their corresponding hairy roots.     

Still stable after 11 years: A Catharanthus roseus Hairy root line maintains inducible expression of anthranilate synthase

Hairy root cultures generated using Agrobacterium rhizogenes are an extensively investigated system for the overproduction of various secondary metabolite based pharmaceuticals and chemicals. This study demonstrated a transgenic Catharanthus roseus hairy root line carrying a feedback‐insensitive anthranilate synthase (AS) maintained chemical and genetic stability for 11 years. The AS gene was originally inserted in the hairy root genome under the control of a glucocorticoid inducible promoter. After 11 years continuous maintenance of this hairy root line, genomic PCR of the ASA gene showed the presence of ASA gene in the genome. The mRNA level of AS was induced to 52‐fold after feeding the inducer as compared to the uninduced control. The AS enzyme activity was 18.4 nmol/(min*mg) in the induced roots as compared to 2.1 nmol/(min*mg) in the control. In addition, the changes in terpenoid indole alkaloid concentrations after overexpressing AS were tracked over 11 years. The major alkaloid levels in induced and control roots at 11 years are comparable with the metabolite levels at 5 years. This study demonstrates the long term genetic and biochemical stability of hairy root lines, which has important implications for industrial scale applications. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:66–69, 2017