Effects of photoperiod,mineral medium strength,inorganic ammonium,sucrose and cytokinin on root,shoot and microtuber development in shoot cultures of Dioscorea alata L. and D. bulbifera L. yams

The effects of photoperiod (8, 12 or 16 h), mineral medium strength (dilutions of a tuberization medium, the T medium), sucrose (0, 2, 4, 8% w/v) and kinetin (0, 2.5μM) on the development of roots, shoots and microtubers in shoot cultures of Dioscorea alata L. and D. bulbifera L. yams were evaluated. All of the factors were found to have substantial effects on microtuber induction in these two species. The effects of high and low inorganic ammonium containing media on microtuberization of yam shoot cultures indicated that ammonium ions inhibited microtuber induction in D. alata but not in D. bulbifera. Microtubers of D. alata were only formed on shoot cultures if these were held under 8-h days. D. bulbifera cultures on the other hand produced microtubers under this photoperiod treatment as well as under 16-h photoperiods provided that kinetin was present in media at 2.5μM. Most microtuberization in D. alata shoot cultures occurred on full-strength T medium supplemented with 2% sucrose, 2.5μM kinetin held under 8-h photoperiod at 25°C, whereas most microtuberization in D. bulbifera shoot cultures occurred on full-strength MS medium supplemented with 4% sucrose, 2.5μM kinetin held under 8-h photoperiods at 25°C. Under these two sets of conditions, yam shoot cultures consistently produced microtubers with individual weights in excess of 100 mg which were large enough to be capable of direct planting and subsequent growth in unsterilized soils.     

Relative importance of maltose and sucrose supplied during a 2-step potato microtuberization process

A 2-stage in vitro tuberization process comprising first micropropagation via nodal explants and then tuber induction in the resultant in vitro plantlets was studied using 2 cultivars of potato, Iwa and Daeji. In particular, the effects on both plantlet growth and subsequent in vitro tuberization of Murashige and Skoog (1962) basal medium containing either sucrose or maltose, each at 3 % (w/v), used for micropropagation were investigated. Sucrose and maltose were found to be equally effective in supporting development of vigorous plantlets from the nodal explants of both potato cultivars. Upon transfer to a medium with an optimised level of sucrose (i.e. 8 %, w/v) for in vitro tuberization, only the plantlets previously grown in the sucrose-containing medium were capable of forming more microtubers of the larger size category (greater than 0.5 g). The relative importance of sucrose supply at the mircropropagation stage was further confirmed when the resultant plantlets grown in the 3 % sucrose-containing medium were transferred to an in vitro tuberization medium containing either sucrose or maltose, each at 8 % (w/v). In this experiment, maltose and sucrose had indistingushable effects on in vitro tuberization.     

Effect of salinity on physiological characteristics,yield and quality of microtubers <Emphasis Type="Italic">in vitro</Emphasis> in potato

In vitro microtuberization provides an adequate experimental model for the physiological and metabolic studies of tuberization and the preliminary screenings of potential potato genotypes. The effects of saline stress at 0–80 mmol concentration on in vitro tuberization of two potato cultivars were investigated in this study. With an increase in the salt concentration, the microtuberization of potato was either delayed by 5–10 days (20 and 40 mmol NaCl) or inhibited completely (80 mmol NaCl) in addition to the reduction in microtuber yields. The two potato genotypes studied showed different trends in total soluble sugars, sucrose and starch contents of microtubers under NaCl stress, while glucose and fructose levels remained unchanged. The vitamin C content in microtubers of two potato genotypes was reduced by salt stress. Salinity applied from 20 to 60 mmol progressively increased proline and malondialdehyde (MDA) levels in microtubers of both the potato cultivars. In genotype Zihuabai, NaCl at a low concentration (20 mmol) led to a significant increase in peroxidase (POD) and polyphenoloxiadase (PPO) activities, while in Jingshi-2, the PPO activity decreased progressively with an increase in NaCl concentrations. Genotype Zihuabai exhibited higher tolerance to salt stress than Jingshi-2 under in vitro conditions. These results could be used for preliminary selections of salt tolerance in potato breeding programmes.     

Jasmonate effects on in vitro tuberization and tuber bulking in two potato cultivars (Solanum tuberosum L.) under different media and photoperiod conditions

Summary Jasmonic acid (JA) effects on in vitro tuberization of potato nodal explants cvs. Sangre and Russet Burbank were tested under liquid and solid media conditions and 0,8, and 16h photoperiod. Explants taken from stock plants grown on 2.5μM JA-supplemented medium tuberized first, particularly in darkness. The most pronounced benefits of the JA pretreatment were recorded under 16h photoperiod, which is known to inhibit tuberization. Cultivar Sangre benefited from the JA preconditioning of stock plants more than Russet Burbank. Russet Burbank required the JA supplement in tuberization media to reach the same degree of stimulation. Overall, microtubers produced either from JA preconditioned stock plants or on the JA-containing tuberization media were more uniform and larger than from other treatments. Eight hours photoperiod was by far the best treatment for the production of high-quality uniform microtubers. JA conditioning of stock plants prior to taking explants for tuberization is being proposed as a treatment enhancing the quality of microtubers.     

In vitro plant regeneration of Ilex paraguariensis (aquifoliaceae)

Summary Nodal segments as well as shoot tips and apical meristems of 2-yr-old “maté” plants (Ilex paraguariensis St. Hil.) were cultured in vitro to establish micropropagation systems. Maximum shoot regeneration was achieved when nodal segments were cultured with 1/4 Murashige and Skoog (MS) medium with 3% sucrose. We induced roots to differentiate by transferring the regenerated shoots onto the same medium, solidified with 2.5 g Phytagel per 1 and supplemented with indole-3-butyric acid (7.4 μM) and finally transferring shoots to 1/4 MS medium with 3% sucrose and lacking growth regulators. Plants were successfully established in soil.     

Cost reduction in the micropropagation of banana by using tubular skylights as source for natural lighting

Summary Daylight instead of artificial light was exploited for the in vitro culture of banana. Tubular skylights rediverted natural light into an interior enelosed room whereby each skylight, available for ca. US$600, could sufficiently illuminate an area of 3–5 m². The maintenance-free system allowed only a minimum of heat transfer and no cooling was necessary. The culture room required no electricity supply and under our conditions savings on costs for electricity of US$6 m⁻² wk⁻¹ were achieved, as compared to a standard growth room equipped with artificial lighting and controlled photoperiod and temperature regimes. Under natural light conditions, micropropagated plantlets were well developed at mean photosynthetic photon flux densities (PPFD) of 5–13 μmol m⁻² s⁻¹ and photoperiods of 9–14 h. Micropropagation rates were either the same or significantly higher than under artificial lighting. Single shoots on rooting medium showed some symptoms of etiolation, yet acclimatization rates averaged 95%. A step-like culture rack. rather than a vertical one, permitted uniform plant growth on all levels. This paper describes an established micropropagation system of low cost and simplicity.     

<Emphasis Type="Italic">In vitro</Emphasis> germination and axillary shoot propagation of <Emphasis Type="Italic">Centaurea zeybekii</Emphasis>

In vitro culture is an important aid for ex situ conservation of rare, endemic or threatened plants. In this work, we establish an efficient method for the seed germination, seedling development, and axillary shoot propagation of Centaurea zeybekii Wagenitz. The seeds, collected from a wild population, were surface sterilised and cultured on various in vitro germination media. The effects of photoperiod and temperature on seed germination were also investigated. Germinations were obtained after 6 weeks in culture and the radicle emergence was evaluated as a main indicator. A high frequency of germination was obtained on distilled water supplemented with vitamines and 1 mg/L GA₃. Although the seed germination frequencies were not affected by photoperiod, the highest germination frequency was obtained at 24 ± 2°C. A high frequency of axillary shoot proliferation was produced on MS medium supplemented with 1 mg/L BA. Then, the axillary shoots were separated and transferred to MS medium with or without plant growth regulators for rooting. Rhizogenezis was promoted after 6 weeks only in MS and 1/2 MS media containing 0.5 mg/L IBA. The rooting process was very slow and the percentage of shoot rooting was also very low (15%). The present study not only enables reinforcement of wild plant populations using ex situ growth of individuals, but it also helps to large number of aseptic seedling to use it in clonaly micropropagation studies.     

QTL analysis of potato tuberization

Quantitative trait loci (QTLs) affecting tuberization were detected in reciprocal backcrosses between Solanum tuberosum and S. berthaultii. Linkage analyses were performed between traits and RFLP alleles segregating from both the hybrid and the recurrent parent using a set of framework markers from the potato map. Eleven distinct loci on seven chromosomes were associated with variation in tuberization. Most of the loci had small effects, but a QTL explaining 27% of the variance was found on chromosome 5. More QTLs were detected while following alleles segregating from the recurrent S. tuberosum parent used to make the backcross than were detected by following alleles segregating from the hybrid parent. More than half of the alleles favoring tuberization were at least partly dominant. Tuberization was favored by an allele from S. berthaultii at 3 of the 5 QTLs detected by segregation from the hybrid parent. The additive effects of the QTLs for tuberization explained up to 53% of the phenotypic variance, and inclusion of epistatic effects increased this figure to 60%. The most common form of epistasis was that in which presence of an allele at each of 2 loci favoring tuberization was no more effective than the presence of a favorable allele at 1 of the 2 loci. The QTLs detected for tuberization traits are discussed in relationship to those previously detected for trichome-mediated insect resistance derived from the unadapted wild species.Paper number 54 of the Department of Fruit and Vegetable Science, Cornell University     

In vitro regeneration of long spur barrenwort (Epimedium grandiflorum Morr.) from rachis explants

Summary A system for micropropagation of Epimedium grandiflorum Morr. from rachis explants was developed. Explants were cultured onto Murashige and Skoog (MS) basal salts medium supplemented with (per L) 100 mg myo-inositol, 2 mg pyridoxine-HCl, 2 mg nicotinic acid, 0.40 mg thiamine-HCl, 30 g sucrose, and 2 g Phytagel. The medium also contained 2,4-dichlorophenoxyacetic acid (2,4-D) at 0.1, 0.2, or 0.25 mg/L (0.5, 0.9, or 1.1 μM) combined with either N⁶-benzyladenine (BA) or 2-isopentenyl adenine (2ip) at 2.5, 5, or 10 mg/L (11.1, 22.2, or 44.4 μM BA or 12.3, 24.6, or 49.2 μM 2iP). Cultures were maintained at a 16-h photoperiod (40 μmol/m²/s) and 23±2° C. Callogenesis preceded shoot regeneration. Callus formation increased with higher 2,4-D concentrations. The highest percent regeneration, 83% of explants, was obtained on 10 mg BA per L (44.4 μM) combined with 0.25 mg 2,4-D per L (1.1 μM). The maximum number of shoots, 15 per explant, was obtained from explants cultured on a medium containing 0.1 mg 2,4-D per L (0.45 μM) combined with 2.5 mg BA per L (11.1 μM). Maximum shoot length, 0.4 cm, was obtained on 5 mg BA per L (22.2 μM) combined with 0.2 mg 2,4-D per L (0.9 μM). To produce whole plants, shoots were separated and rooted on hormone-free medium containing 1 g activated charcoal per L. Rachises provided an excellent source of explants for Epimedium micropropagation and proved suitable for callus production.     

Low-cost alternatives for the micropropagation of banana

A 90% resource cost reduction in tissue culture of banana was achieved by replacing tissue culture grade sucrose and Gelrite in the medium with locally available commercial sugar and a starch/Gelrite mixture and by using sun light instead of artificial light. The micropropagation of Musa `Grande Naine' by shoot tip culture was used as model. Thirteen commercial sugars from different countries were tested. Best results were achieved using white and light brown sugars with low electrical conductivity. Sugars of cane or sugar beet origin were suitable. Starches of corn or potato could partially substitute for Gelrite and agar. In all experiments, micropropagation rates under natural light conditions were equal to or higher than under the controlled conditions of a growth room with PPFD of 65 μmol m⁻² s⁻¹ and a 16-h photoperiod. Plants were exposed to average PPFD levels of 58–96 μmol m⁻² s⁻¹ and photoperiods ranged from 8–16 hours. This revised version was published online in June 2006 with corrections to the Cover Date.     

Photoperiod affects the growth and development of yam plantlets obtained by in vitro propagation

The effects of photoperiod on the development of in vitro grown plantlets of yam (Dioscorea alata L.), were investigated. Plantlets were transplanted into pots, acclimatizated until they reached vegetative stages V₁ (3 leaves) or V₂ (8 leaves), and then grown under 12-h or 16-h photoperiod. The formation and development of underground tubers was only induced under 12-h photoperiod. Tuber initiation was not related to the initial vegetative stage of plants, and the tubers were visible at about 18 – 24 d. On the contrary, a 16-h photoperiod inhibited tuber formation and stimulated vine and leaf growth. The total dry matter production and the number of leaves per plant of V₁ stage plants were 50 and 30 % lower respectively, after 44 d under 12-h compared to 16-h photoperiod. These parameters were not influenced by photoperiod in V₂ stage plants. Consequently, the effect of 12-h photoperiod on dry matter of V₁ plants was attributed to a source limitation related to the early initiation of tuberization. The transfer of plants grown under 12-h to 16-h photoperiod stopped tuber growth and starch accumulation. On the other hand, it stimulated the shoots and the roots to grow.Abbreviations

In vitro tuberization of potato clones from different maturity groups

Summary In vitro tuberization on shoot cultures of early, mid-season, late and very late potatoes was compared. Shoots were grown at 12, 16, or 20 h photoperiods; tuberization was then induced at 0, 8 or 16 h light. In the dark, shoots from early plants initially grown at 16 h consistently set tubers earlier than the other types, whereas the very late line tuberized later and produced significantly fewer tubers. Tuber setting of mid-season plants could not be distinguished from the late type. Tuberization of the very late line was significantly hastened by shortening the photoperiod from 20 h to 12 h during the shoot growth period. Light during tuber induction delayed tuberization. This system may be useful to screen callus-derived plants for maturity, and may also be suitable for in vitro study of the photoperiodic control of tuberization.     

Physiology of Tuberization in Solanum tuberosum L: cis-Zeatin Riboside in the Potato Plant: Its Identification and Changes in Endogenous Levels as Influenced by Temperature and Photoperiod

Using high pressure liquid chromatography, the cucumber cotyledon bioassay, and mass spectrometry a cytokinin isolated from Solanum tuberosum L. cv. Katahdin plant tissues has been identified as cis-zeatin riboside. Zeatin riboside (ZR) levels in plants grown under inducing conditions (28 C day and 13 C night with a 10-hour photoperiod) were significantly higher than those in plants grown under noninducing conditions (30 C day and 28 C night with an 18-hour photoperiod). The highest level of ZR was noted in below-ground tissue after 4 days exposure to inducing conditions, with tuber initiation observed after 8 days. A companion study conducted to determine the effect of ZR on in vitro tuberization of noninduced rhizomes revealed that after 1 month in culture, controls exhibited 0% tuberization, while ZR treatments of 0.3 and 3.0 milligrams per liter showed 39 and 75% tuberization, respectively.     

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.     

Different sealing materials for petri dishes strongly affect shoot regeneration and development from leaf explants of quince ‘BA 29’

Summary The effect of different sealing materials [i.e., polyvinyl chloride (PVC) transparent film, and Parafilm (PARA) for Petri dishes was investigated on shoot regeneration from quince (Cydonia oblonga L.) ‘BA 29’ leaf explants. Leaves were excised from proliferating shoot cultures, transversally scored, and placed with the abaxial side down in 60-mm Petri dishes containing 10 ml of Murashige and Skoog modified medium, with 5.4 μM α-naphthaleneacetic acid, 4.5 μM thidiazuron, 200 mg l⁻¹ cefotaxime, and 0.25% (w/v) Phytagel (IM medium) for shoot bud induction, and cultured in darkness at 22±2°C for 28 d. Then the explants were transferred to standard conditions (16-h photoperiod at 30 μmol m⁻² s⁻¹ photosynthetically active radiation) on a medium similar to IM, except for lack of NAA, and with 0.65% (w/v) agar instead of Phytagel, for an additional 15–28 d. The sealing combinations PARA-PARA, PARA-PVC, PVC-PARA, and PVC-PVC (in the induction-expression phases) were compared during regeneration and for their carry-over effect on shoot development after transfer of explants to an elongation medium (0.9 μM 6-benzyladenine). Carbon dioxide accumulated at 27.2 mmol mol⁻¹ at the end of induction, and gradually decreased from 35.4 mmol mol⁻¹ on day 9 to 22.5 mmol mol⁻¹ on day 28 of the expression phase in PARA-sealed Petri dishes, being always much higher than after sealing with PVC (1–2 mmol mol⁻¹). Ethylene concentration was 0.1 and 0.04 μmol mol⁻¹ in the first part of the induction and expression phase, respectively, in PARA-sealed Petri dishes, and slightly decreased with duration of exposure to light during expression; while it was absent in most PVC-sealed dishes. The PARA-PARA and PVC-PVC (induction-expression) combinations gave, respectively, the worst and best results of regeneration and successive shoot development.     

Superoxide anion regulates plant growth and tuber development of potato

A higher concentration of H₂O₂ was detected in the sense transgenic potato plant (SS4) with the lily chCu,ZnSOD sequence, whereas higher levels of O₂⁻ was detected in the antisense transgenic plant (SA1) than the WT plant. The elongation growth in SA1 was significantly inhibited by treatment with diphenyleneiodonium, an inhibitor of O₂⁻ generation, and promoted in the SS4 on treatment with herbicide methyl viologen, a generator of apoplastic O₂⁻. Higher concentrations of GAs were detected during plant growth and the early stage of tuberization in SA1. Complete recovery of the above elongation growth and microtuberization pattern in transgenic plants following treatment of GA₃ or an inhibitor of gibberellin synthesis, paclobutrazol, indicate that these changes were mainly caused by active GA levels. In conclusion, a specific ROS (O₂⁻ ) acts as a signal transducer via GA biosynthetic pathways for the regulation of plant growth and tuber development of potato.     

Carboxylic acids affect induction,development and quality of potato (<Emphasis Type="Italic">Solanum tuberosum</Emphasis> L.) microtubers grown <Emphasis Type="Italic">in vitro</Emphasis> from single-node explants

The role of three carboxylic acids with increasing alkyl-chain length, viz., formic, acetic and propionic acids in microtuberization was investigated in three potato (Solanum tuberosum L.) genotypes in vitro. Different concentrations of these carboxylic acids (0.0, 1.5, 3.0, 4.5 and 6.0 mM) were supplemented in microtuber induction medium, which was based on MS medium containing 8% sucrose, and their efficacy for induction, development and quality of microtubers was studied using single-node explants under continuous darkness at 20 °C. The carboxylic acids exhibited a strong stolon- and root-inhibiting effect on single-node explants with their increasing concentrations as well as alkyl-chain length (i.e., formic < acetic < propionic acids), and their mode of action was synonymous with antigibberellin substances. However, they did not have any significant inductive effect on microtuberization as compared to that under 8% sucrose medium. Rather they did show a detrimental effect on microtuber development in terms of average microtuber fresh weight with increasing concentrations as well as alkyl-chain length; both acetic and propionic acids at 6.0 mM induced the smallest microtubers in vitro. The carboxylic acids could, however, significantly increase the harvest indices suggesting their possible role in the regulation of source-sink co-ordination during microtuberization from single-node explants. But the most favourable effect of carboxylic acids on microtubers was apparent in terms of dry matter concomitant with higher starch synthesis and enhanced accumulation of reducing and total sugars. Acetic acid was the most effective in increasing the percentage of microtuber dry matter. The higher percentage of dry matter with higher carbohydrate reserves in microtubers induced by the carboxylic acids could be assumed to affect the quality of microtubers for subsequent storage, dormancy release and sprout growth.