Stigmasterol-driven enhancement of the in vitro multiplication rate for the marubakaido apple rootstock

The treatment of in vitro-grown shoots of the marubakaido apple rootstock with 0.5 μg stigmasterol, an end-pathway sterol of the bifurcated sterol biosynthetic pathway, in 5 μL acetone per shoot led to a significant (p ≤ 0.05) enhancement of the multiplication rate (MR) from 5.1 (shoots treated with 5 μL acetone only) to 10.3. This increase in the MR was due to a significant enhancement of the number of newly formed main shoots suitable for micropropagation purposes (measuring at least 15 mm in length) from 2.6 to 3.3 per explant, and of the number of newly formed primary lateral shoots from 2.2 to 5.0 per explant as well. Shoots treated with stigmasterol at 0.5 and 2.5 μg per shoot presented primary and secondary lateral shoots with significantly (p ≤ 0.05) longer length compared to shoots treated with acetone only. These results provide an insight into the morphological responses of the marubakaido rootstock shoots to the treatment with an end-pathway sterol. To the best of my knowledge, this is the first report on the successful use of stigmasterol for the improvement of a micropropagation system. These results also demonstrate that stigmasterol-induced shoot proliferation is a low-cost and effective way to enhance the in vitro MR for the apple rootstock.     

Thidiazuron: a potent cytokinin for woody plant tissue culture

Thidizuron (TDZ) is among the most active cytokinin-like substances for woody plant tissue culture. It facilitates efficient micropropagation of many recalcitrant woody species. Low concentrations (<1 µM) can induce greater axillary proliferation than many other cytokinins; however, TDZ may inhibit shoot elongation. In some cases it is necessary to transfer shoots to an elongation medium containing a lower level of TDZ and/or a less active cytokinin. At concentrations higher than 1 µM, TDZ can stimulate the formation of callus, adventitious shoots or somatic embryos. Subsequent rooting of microshoots may be unaffected or slightly inhibited by prior exposure to TDZ. The main undesirable side effect of TDZ is that cultures of some species occasionally form fasciated shoots. The high cytokinin activity and positive response of woody species to TDZ have established it as among the most active cytokinins forin vitro manipulation of many woody species.     

Micropropagation of ornamental <Emphasis Type="Italic">Prunus</Emphasis> spp. and GF305 peach,a <Emphasis Type="Italic">Prunus</Emphasis> viral indicator

A micropropagation approach was developed for nine ornamental Prunus species, P. americana, P. cistena, P. glandulosa, P. serrulata ‘Kwanzan’, P. laurocerasus, P. sargentii, P. tomentosa, P. triloba, P. virginiana ‘Schubert’, commercially important in North America, and GF305 peach, commonly used for Prunus virus indexing. The micropropagation cycle based on proliferation of vegetative tissues includes establishment of tissue culture through introduction of shoot meristems in vitro, shoot proliferation, root induction and plant acclimatization steps and can be completed in 5 months. A meristem sterilization protocol minimized bacterial and fungal contamination. Multiple shoot formation in ornamental Prunus was obtained through the use of 1 mg l⁻¹ 6-benzyladenine. For GF305 peach, alteration in the sugar composition, fructose instead of sucrose, and addition of 1 mg l⁻¹ ferulic acid had a significant impact on the shoot proliferation rate and maintenance of long-term in vitro culture. Rooting and plant acclimatization conditions were improved using a two-step protocol with a 4-day root induction in indole-3-butiric acid (IBA)-containing media with consequent 3-week root elongation in IBA-free media. One-month incubation of rooted shoots in a vermiculite-based medium resulted in additional shoot and root growth and provided better acclimatization and plant recovery. The micropropagation approach can be used for maintenance of the clonal properties for Prunus spp. as well as a protocol to support meristem therapy against viral infection.     

Shooting Control in Eucalyptus Grandis × E. urophylla Hybrid: Comparative Effects of 28-Homocastasterone and a 5α-Monofluoro Derivative

28-Homocastasterone (28-HCTS), a brassinosteroid, was used to treat in vitro-grown shoots of a hybrid between Eucalyptus grandis and E. urophylla. Treated shoots showed enhanced elongation and formation of new main shoots (the shoots originating directly from the initial explant) at low doses. Coincidently, there was reduced elongation and formation of primary lateral shoots (shoots originating from the main shoot). However, a 5α-monofluoro derivative of 28-HCTS (5F-HCTS) was unable to either stimulate elongation or formation of new main shoots, although it did stimulate elongation of primary lateral shoots. In conclusion, it is quite apparent that exogenously supplied brassinosteroids are able to change shooting patterns in Eucalyptus. These findings have practical biotechnological applications, for example on the improvement of micropropagation techniques for clonal propagation of woody angiosperms.     

Shoot inversion-induced ethylene production: a general phenomenon?

Shoot inversion induction of ethylene production was found in inverted shoots of corn, peas, soybean, sunflower, tomato, andPharbitis nil. The increases in ethylene production were found to range from two- to threefold in soybean to eightfold in corn and sunflower. The occurrence of peaks of ethylene production ranged from 16 h following shoot inversion in corn to 72 h inPharbitis. That the enhanced ethylene production was due to activation of 1-aminocyclopropane-1-carboxylic acid (ACC) synthase is supported by the finding of increased ACC content in inverted shoots of all species tested. Shoot inversion inhibition of elongation was found in inverted shoots of pea, soybean, sunflower, tomato, andPharbitis nil. This inhibition is thought to be mediated via increased ethylene production in the inverted shoots. That shoot inversion induction of ethylene is not a persistent effect is supported by the finding that ethylene synthesis could be terminated by reorientation of shoots to the upright position and could be reinitiated by the subsequent inversion of the shoots. The effects of shoot inversion on the enhancement of ethylene production and on the inhibition of elongation of the inverted shoot appear to be general phenomena.     

In vitro propagation of Centaurea spachii from inflorescence stems

Procedures for micropropagation of Centaureaspachii (Compositae), an endangered rosulate plantendemic from the mediterranean Spain area, have beendeveloped using inflorescence nodal segments asexplants for in vitro establishment. Only 15%of explants remained contaminated using this materialto start the in vitro axenic cultures. Higherproliferation of shoots and multiplication coefficientwas obtained on Murashige and Skoog (MS) mineralmedium supplemented with 1.0 mg l^{minus 1}6-benzyladenine. However, shoot elongation decreasedwith the addition of this cytokinin.Rooting of shoots with only one auxin was very lowafter 6 weeks on the majority of rooting media tested.The best rooting result (60%) was obtained on MSmedium with a combination of 2 mg l^{minus 1}indole-3-acetic acid plus 2 mgl^{minus 1} indole-3-butyric acid. Moreover, in thisculture medium 50% of shoots rooted during the thirdweek of culture. High survival, over 80%, wasobtained when the plantlets were transferred togreenhouse conditions. The endangered Centaureaspachii can be successfully micropropagatedbeginning with a single inflorescence stem and withoutsignificant damage to the mother plant.     

<Emphasis Type="Italic">In vitro</Emphasis> micropropagation of four lupin species

The complete protocols for long-term micropropagation of some cultivars of four lupin species: Lupinus luteus, L. albus, L. angustifolius and L. mutabilis were elaborated. The shoots were regenerated in vitro via induction of axillary buds development. Plantlets were multiplicated on lowered salts MS-derived media containing BAP in diverse and generally low concentrations. Significant differences in regeneration capacity between species and cultivars were observed. The highest multiplication ratio revealed L. mutabilis and L. luteus. Regenerated shoots were rooted in vitro on low-salts MS-derived media with B5 vitamins. Media were supplemented with different auxins that affected roots formation of particular species and cultivars. Rooting ability of regenerated shoots decreased rapidly through in vitro culture. For that reason, grafting was applied as an alternative method of transfer of shoots to in vivo conditions. This method turned out to be successful for the majority of studied species and cultivars. Complete rooted or grafted plantlets were cultivated in pots with perlit in greenhouse. An erratum to this article is available at .     

Micropropagation of Centella asiatica (L.), a valuable medicinal herb

A protocol is described for rapid and large-scale in vitro clonal propagation of the valuable medicinal herb Centella asiatica (L.) by enhanced axillary bud proliferation in nodal segments isolated from mature plants. Although bud break was dependent on BA supply, the synergistic combination of 22.2 μM BA and 2.68 μM NAA induced the optimum frequency (91%) of shoot formation as well as shoot number (4 to 5 shoots per node). Subculturing of nodal segments harvested from the in vitro derived axenic shoots on the multiplication medium enabled continuous production of healthy shoots with similar frequency. MS medium supplemented with 6.7 μM BA and 2.88 μM IAA was found most suitable for shoot elongation. Rooting was highest (90%) on full-strength MS medium containing 2.46 μM IBA. Micropropagated plants established in garden soil were uniform and identical to the donor plant with respect to growth characteristics. This micropropagation procedure could be useful for raising a stock of genetically homogenous plant material for field cultivation. This revised version was published online in August 2006 with corrections to the Cover Date.     

Multiple adventitious shoot formation in Spanish Red Cedar (<Emphasis Type="Italic">Cedrela odorata</Emphasis> L.) cultured <Emphasis Type="Italic">in vitro</Emphasis> using juvenile and mature tissues: an improved micropropagation protocol for a highly valuable tropical tree species

Cedrela odorata L. is a valuable tropical tree widely appreciated for its wood. This species confronts serious problems due to both overexploitation of its natural populations and its susceptibility to the Meliaceae borer Hypsipyla grandella, which destroys the apical meristems and produces structural deformations. The rapid introduction of new varieties through clonal forestry has been demonstrated to be the most effective way to improve the production of perennial plantation species. In this work, we report both a protocol for the rejuvenation of elite mature trees of C. odorata and the optimization of an in vitro culture system to scale up micropropagation. Several media formulations and the use of temporary immersion culture in bioreactors were evaluated. The addition of 20% coconut water to TY17 medium increased the number of adventitious shoots from hypocotyl segments to an average number of 4.68 shoots per explant. To replace coconut water and to define the culture medium, several cytokinins were tested at various concentrations; however, none of them produced the effect of coconut water. Rejuvenation of elite mature individuals was investigated by ex vitro grafting of mature tree twigs onto 3-mo-old juvenile trees. Although the grafting had a positive effect on the micropropagation of mature material, the multiplication rate of 1.5 new shoots per explant did not compare to the organogenic capacity of younger materials. Shoot and root elongation as well as acclimatization to ex vitro conditions were carried out in a temporary immersion culture of juvenile material using BioMINT® bioreactors. A 3.5-fold increase in shoot elongation and a 4-fold increase in root elongation were achieved compared to material cultured on semisolid media. Furthermore, this culture system allowed for 98% effectiveness in the soil adaptation of the in vitro-grown plants. The scaled-up multiplication capacity over a period of 6 mo calculated for the system is above 16,000 plants per mother plant with young materials but is only 125 with mature materials.     

Rapid in vitro adventitious shoot propagation of <Emphasis Type="Italic">Scopolia parviflora</Emphasis> through rhizome cultures for enhanced production of tropane alkaloids

A rapid micropropagation system for Scopolia parviflora Nakai (Solanaceae), a rare medicinal plant native to Korea, was established using rhizome cultures. Shoots that originated from adventitious shoots of the rhizome were multiplied when the rhizomes were cultured on half-strength B5 liquid medium supplemented with various growth regulators. Optimum shoot multiplication was observed in half-strength B5 medium containing 3% (w/v) sucrose and 5.77 M gibberellic acid (GA₃). Each rhizome gave rise to an average of 12 shoots. Shoot elongation and root induction from multiple shoots occurred on growth regulator-free half-strength B5 solid medium. Healthy plantlets were transferred to a peat moss:vermiculite mixture for acclimatization, which was successful. The concentrations of tropane alkaloids, hyoscyamine and scopolamine were determined in different tissues of native growing plants, in vitro-propagated plants and acclimatized plants by high-performance liquid chromatography. The analysis revealed that the levels of hyoscyamine and scopolamine were higher in in vitro-propagated plants than in the native growing plants. When the rhizome was cut into segments and transferred to optimal culture conditions for multiple shoot propagation, only 12 weeks were required to produce a mature plant. We conclude that in vitro propagation techniques through rhizome cultures provide an efficient and rapid method for shoot propagation of S. parviflora.Abbreviations BA Benzyladenine - 2,4-D 2,4-Dichlorophenoxyacetic acid - GA₃ Gibberellic acid - HPLC High-performance liquid chromatography - IBA Indole-3-butyric acid - NAA -Naphthaleneacetic acid     

Thidiazuron Induced Multiple Shoot Induction and Plant Regeneration from Cotyledonary Explants of Mulberry

A rapid micropropagation protocol through induced multiple shoots from the cotyledonary explant of mulberry (Morus alba L) is described. The highest number of shoots (20.3) was obtained when explants from 14-d-old embryos were cultured on Murashige and Skoog (MS) medium supplemented with 7 μM thidiazuron for 45 d. Of the three cultivars used, cv. S-36 was the best followed by cv. K-2 and S-1. The shoots were transferred to MS medium supplemented with 5 μM 6-benzylaminopurine for elongation. The elongated shoots were rooted on half strength MS medium containing 1 – 7 μM indole 3-butyric acid or 1-naphthalene acetic acid. The rooted plants were transplanted to soil with 90 % success. The emerged shoot primordia probably initiated from the pre-existing meristems since the shoot bud show definite vascular connection to the major vascular tissue. This revised version was published online in July 2006 with corrections to the Cover Date.     

Effects of ethylene and abscisic acid upon heterophylly in<Emphasis Type="Italic"> Ludwigia arcuata</Emphasis> (Onagraceae)

In this study, we examined the effects of ethylene and abscisic acid (ABA) upon heterophyllous leaf formation of Ludwigia arcuata Walt. Treatment with ethylene gas resulted in the formation of submerged-type leaves on terrestrial shoots of L. arcuata, while treatments with ABA induced the formation of terrestrial-type leaves on submerged shoots. Measurement of the endogenous ethylene concentration of submerged shoots showed that it was higher than that of terrestrial ones. In contrast, the endogenous ABA concentration of terrestrial shoots was higher than that of submerged ones. To clarify interactions of ethylene and ABA, simultaneous additions of these two plant hormones were examined. When L. arcuata plants were treated with these two plant hormones, the effects of ABA dominated that of ethylene, resulting in the formation of terrestrial-type leaves. This suggests that ABA may be located downstream of ethylene in signal transduction chains for forming heterophyllous changes. Further, ethylene treatment induced the reduction of endogenous levels of ABA in tissues of L. arcuata, resulting in the formation of submerged-type leaves. Thus the effects of ethylene and ABA upon heterophyllous leaf formation are discussed in relationship to the cross-talk between signaling pathways of ethylene and ABA.Abbreviations ABA abscisic acid - ACC 1-aminocyclopropane-1-carboxylic acid - L/W ratio ratio of leaf length to width - LN leaf number - GAs gibberellins     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of Indian Kino (<Emphasis Type="Italic">Pterocarpus marsupium</Emphasis> Roxb.) using Thidiazuron

An efficient protocol was developed for micropropagation of an economically important timber-yielding multipurpose tree, Pterocarpus marsupium Roxb. Multiple shoots were induced from cotyledonary nodes (CNs) derived from 18-d-old axenic seedlings on Murashige and Skoog (MS) medium supplemented with thidiazuron (TDZ) (0.1–10 μM). The highest shoot regeneration frequency (90%) and maximum number (15.2 ± 0.20) of shoots per explant was recorded on MS medium amended with 0.4 μM TDZ. Continuous presence of TDZ inhibited shoot elongation. In the primary medium, TDZ-initiated cultures were transferred to the secondary medium supplemented with another cytokinin, 6-benzyladenine (BA), for shoot growth and elongation. Maximum (90%) shoot elongation with an average shoot length of 5.4 ± 0.06 cm was observed at 5 μM BA. To further enhance the number of shoots per explant, mother tissue was repeatedly subcultured on fresh shoot induction medium after each harvest of newly formed shoots. Thus, by adopting this strategy, an average of 44 shoots per explant could be obtained. About 65% of in vitro regenerated shoots produced a maximum number (4.4 ± 0.2) of roots per shoot by a two-step culture procedure employing pulse treatment and subsequent transfer of treated shoots to a low concentration of 0.2 μM indole-3-butyric acid along with phloroglucinol (3.96 μM). The in vitro-raised plantlets were successfully acclimatized first under culture room conditions, then to greenhouse with 70% survival rate.     

Micropropagation and β-ecdysone content of the Brazilian ginsengs <Emphasis Type="Italic">Pfaffia glomerata</Emphasis> and <Emphasis Type="Italic">Pfaffia tuberosa</Emphasis>

The aim of this study was to investigate both a mass in vitro propagation system and the β-ecdysone content in roots and aerial parts of Pfaffia glomerata and Pfaffia tuberosa. Nodal segments of two genotypes (BRA and JB-UFSM) of P. glomerata, originated from aseptically grown plants, were cultivated on hormone-free Murashige and Skoog medium. For the proliferation of P. tuberosa shoots, nodal segments, originated from aseptically grown plants, were either cultivated on hormone-free Murashige and Skoog (MS) medium or were supplemented with 1.0 μM thidiazuron (TDZ); the elongation and rooting of these plants were carried out on MS medium without TDZ. Plantlets of both species were acclimatized and transferred to field conditions. The β-ecdysone content in the plants was determined by high performance liquid chromatography. The BRA genotype showed a greater in vitro proliferation rate and β-ecdysone content than that of the JB-UFSM genotype. The culture of nodal segments of P. tuberosa on medium with 1.0 μM TDZ with subsequent subcultivation of shoots on hormone-free medium was shown to be a suitable method for micropropagation due to the high multiplication rate and good plant development. Both species showed good adaptation to ex vitro conditions. The β-ecdysone content in micropropagated P. tuberosa was similar to that found in field-grown plants. For both species, the aerial parts accumulated higher β-ecdysone content than roots. These results reveal that micropropagation is a successful, alternative method for rapid plant multiplication of both species of Brazilian ginseng. Furthermore, this study demonstrates that these two species have a potential for cultivation that is associated with high β-ecdysone production.     

In vitro propagation of an endangered medicinal plant Saussurea involucrata Kar. et Kir.

An efficient micropropagation system for Saussurea involucrata Kar. et Kir., an endangered Chinese medicinal plant, has been developed. Shoot organogenesis occurred from S. involucrata leaf explants inoculated on medium with appropriate supplements of plant growth regulators. 66.0% of shoot regeneration frequency and 5.2 shoots per leaf explant were achieved when cultured on a medium containing 10 μM 6-benzylaminopurine (BAP) and 2.5 μM 1-naphthaleneacetic acid (NAA). Shoot organogenesis was improved further when the leaf explants were pre-incubated at low temperature, and 80.6% of shoot regeneration frequency was recorded with 9.3 shoots per leaf explant at 4°C by 5-day pretreatment period. Up to 87.0% of the regenerated shoots formed complete plantlets on a medium containing 2.5 μM indole-3-acetic acid (IAA) within 28 days, and 85.2% of the regenerated plantlets survived and grew vigorously in greenhouse condition. The phytochemical profile of the micropropagated plants was similar to that of wild plants. The regeneration protocol developed in this study provides a basis for germplasm conservation and for further investigation of medicinally active constituents of the elite medicinal plant.     

An improved micropropagation of <Emphasis Type="Italic">Eclipta alba</Emphasis> by in vitro priming with chlorocholine chloride

An efficient method of micropropagation for Eclipta alba from young nodal axils of shoot tip explants has been developed by giving special attention to ‘priming’ in vitro plantlets in view of increasing their hardening ability after transplantation ex vitro. Among 3 cytokinins—BAP, kinetin and TDZ, BAP was found most effective in inducing and proliferating adventitious shoots. The highest frequency of responding explants (100%) and maximum number of shoots (23.0) per explant were obtained after 60 days culture on MS medium containing 8.8 μM BAP. Cent percent shoots developed roots directly from shoot base when transferred to growth regulator-free MS medium. For priming E. alba microshoots, 6.3 μM of chlorocholine chloride (CCC) was found most effective. The major changes observed in 30 days old treated shoots were, production of increased number of root, elevation of chlorophyll level in leaves and increase in plant biomass. Furthermore, arrested undesirable shoot elongation made the plants sturdier and more suitable for acclimatization. The primed micropropagated E. alba plants were healthy and survived by higher frequency (100%) in soil in comparison to the non-treated plants (84% survival).     

Effect of inhibitors of ethylene biosynthesis and signal transduction pathway on the multiplication of in vitro-grown Hancornia speciosa

Initiation and elongation of lateral buds is stimulated in in vitro-grown shoots of Hancornia speciosa(a tropical fruit tree) by high temperature (35 °C), which is associated with the plant's reduced ability to release ethylene. However, no increase in either lateral shoot elongation or multiplication rate of H. speciosa shoots growing in vitro at non-shoot inducing temperature (31 °C) was associated with the presence of inhibitors of ethylene biosynthesis, such as α-amino isobutyric acid and cobalt ions or (aminooxy) acetic acid. Likewise, no increase in the multiplication rate was associated with aminoethoxyvinylglycine (AVG), another inhibitor of ethylene biosynthesis. In addition, stimulation of lateral shoot elongation in H. speciosa shoots grown at non shoot-inducing temperature was achieved when two inhibitors of the ethylene signal transduction pathway, silver thiosulphate (5–10 μM Ag⁺⁺) and 1-methylcyclopropene (90 nl l⁻¹) were present in the culture medium or in the culture vessel-headspace, respectively. However, increased multiplication only occurred with the 1-methylcyclopropene-treated shoots. Thus, lateral bud development with 1-methylcyclopropene could be used to enhance H. speciosa multiplication in vitro. This revised version was published online in June 2006 with corrections to the Cover Date.     

Efficient micropropagation of Robinia ambigua var. idahoensis (Idaho Locust) and detection of genomic variation by ISSR markers

Robinia ambigua var. idahoensis, presumably originated from interspecific hybridization of R. pseudoacacia L. and R. hispida L., is a multipurpose tree. Several reports have showed that in vitro micropropagation is a feasible method to produce large quantities of ‘clonal’ plants from R. pseudoacacia, however, no information is available on micropropagation of R. ambigua or the other assumed parental species, R. hispida. Here, we report on a tissue culture system for efficient micropropagation of R. ambigua plants by enhanced branching of axillary buds taken from a single branch of a donor tree. The culture system consists of sequential use of three media, namely, the bud-induction medium (MS medium supplemented with 0.8–1.4 mg l⁻¹ 6-BA, 0.05–0.08 mg l⁻¹ NAA and 0.07–0.1 mg l⁻¹ GA), elongation medium (MS medium added with 0.35–0.5 mg l⁻¹ 6-BA, 0.05–0.08 mg l⁻¹ NAA and 0.07–0.1 mg l⁻¹ GA) and root-induction medium (1/4 MS medium fortified with 1.7–2.5 mg l⁻¹ IAA and 0.1–0.5 mg l⁻¹ IBA). In addition, we investigated the genetic stability (relative to the donor plant) of a sample of 41 morphologically normal plants randomly taken from ca. 13,000 micropropagated plants, by using the inter-simple sequence repeat (ISSR) marker with 32 selected primers. We found that of the 226 reproducible bands scored, 24 were polymorphic (10.62%), thus pointing to the occurrence, though at a relatively low level compared with an earlier study on R. pseudoacacia, of genomic variation in these micropropagated plants. Further sequencing on seven loci underlying the variations showed that two had significant homology to known or predicted plant genes.     

Development of a temporary immersion system (RITA®) for mass production of sugarcane (<Emphasis Type="Italic">Saccharum</Emphasis> spp. interspecific hybrids)

Commercial micropropagation of sugarcane is largely determined by the clonal fidelity and the cost of plants produced. Rapid production of plants in vitro reduces the frequency of offtypes in many species. By exploiting the concept of transverse thin cell layer culture, we have developed a rapid, high frequency direct plant regeneration system, called SmartSett®, for commercial sugarcane cultivars grown in Australia. Similar to conventional micropropagation, labour remains the major cost of this plant production system. Hence, to reduce the labour component, we have integrated the SmartSett® system with the RITA® temporary immersion bioreactor. Thin transverse leaf sections or fragmented leaves cultured on agar-based SmartSett® shoot induction medium were used as the starting material for RITA®. Shoot initiation on semi-solid medium prior to transferring to RITA®, culture immersion frequency, explant size and genotype determined the productivity (number of plants produced per unit culture) of the system. Results obtained with cultivar Q165 indicate that explants cultured for 45 d on SmartSett® shoot induction medium were the most prolific, producing on average 275 shoots per vessel after 45 d of culture in RITA with 1 min immersion every 12 or 24 h. Using the fragmented tissue, 14-d-old explants and 3-mm leaf tissue fragments were the most productive. Experiments with three cultivars (Q117, Q165 and Q205) showed that RITA® culture conditions need to be optimised for each cultivar for maximum plant production.     

Effects of ethylene on the tuberization of potato (Solanum tuberosum) cuttings

Ethylene, applied as ethephon, inhibited the elongation of etiolated, axillary potato shoots cultured in vitro and it stimulated radial growth along the whole length of these shoots. The same phenomena were observed when ACC, the precursor of ethylene, was added to the medium, whereas silver ions reversed these effects. However, tuber formation in vitro was suppressed by ethephon. This indicates a dual role of ethylene in the induction of tuber formation in potatoes: it had a positive effect by blocking the elongation of stolons and it suppressed tuber initiation.