Rapid shoot regeneration in industrial ‘high starch’ sweetpotato (<Emphasis Type="Italic">Ipomoea batatas</Emphasis> L.) genotypes

Sweetpotato (Ipomoea batatas L.) is an important crop in North Carolina with annual production of 0.33 million tons, accounting for 37% of total US supply (USDA, Louisiana Farm Reporter 8(12), August 2008). To target industrial use, novel high-starch industrial-type varieties that contain more than 30% dry matter were developed by conventional breeding methods. In vitro cultures from selected genotypes were established using meristem culture. To establish regeneration procedures that could be coupled with transformation experiments, conditions for the induction of rapid shoot-organogenesis in leaf explants were compared using varying concentrations of the auxins ‘NAA’, ‘IAA’, ‘2,4-D’, and ‘4-FA’ either alone or in combination with zeatin riboside. Regeneration efficiencies, defined as the number of explants developing shoots out of the total number tested, were as high as 57% for the best genotypes, with a significant genotype-dependent response observed in all the hormone regimes evaluated. In all treatments, shoot regeneration was observed within 2 months. Our results led to the establishment of optimized in vitro regeneration procedures for the novel high-starch sweetpotato (SP) genotypes ‘DM01-158’, ‘FTA94’, ‘FT489’, and ‘PDM P4’ that are rapid and reliable.     

Improved shoot organogenesis from hypocotyl segments of lingonberry (<Emphasis Type="Italic">Vaccinium vitis-idaea</Emphasis> L.)

Summary An improved protocol for shoot regeneration from hypocotyl segments of seedlings from open-pollinated seeds of lingonberry (Vaccinium vitis-idaea L.) cultivars, ‘Ida’, ‘Splendor’, and ‘Erntesegen’, and a native clone from Newfoundland was developed. The effect of thidiazuron (TDZ) on adventitious bud and shoot formation from apical, central, and basal segments of the hypocotyl was tested. Highly regenerative callus was obtained from hypocotyl segments on modified Murashige and Skoog (MMS) medium containing 5–10 μM TDZ. A maximum of 10 buds and 12 shoots per apical segment for seedlings of cultivar ‘Ida’ regenerated on MMS containing 10 μM TDZ. Callus and bud regeneration frequency, callus growth, and number of buds and shoots per regenerating explant depended not only on the specific segment of the hypocotyl, but also on parental genotype. Inhibition of shoot elongation by TDZ was overcome by transferring shoot cultures to a shoot proliferation medium containing 1–2 μM zeatin. The optimal concentration of sucrose for shoot elongation was 20 gl⁻¹. Shoots were rooted ex vitro on a 2 peat: 1 perlite (v/v) medium after dipping in 0.8% indole-3-butyric acid, and rooted plants acclimatized readily under greenhouse conditions.     

Effect of genotype and medium composition on linseed (<Emphasis Type="Italic">Linum usitatissimum</Emphasis>) ovary culture

Breeding linseed (Linum usitatissimum L.) using haploid techniques allows breeders to develop new cultivars in a shorter time period. Many research groups successfully created new linseed genotypes through anther culture; however ovary culture has been the subject of only a few earlier studies. In the present study, the effect of genotype and growth regulators combination on callus induction and shoots regeneration in ovary culture of nine commercially important linseed cultivars was investigated. Ovaries were cultured on modified MS medium supplemented with three different combinations of plant growth regulators. Variable callogenic responses were expressed by all of the genotypes tested on different induction media. The results suggested that specific combination of growth regulators for callus induction must be designed for each genotype. Shoot regeneration from ovary derived callus is a critical phase of the whole gynogenetic process. Differences in adventitious shoot formation frequency among genotypes were demonstrated and four responsive genotypes have been selected. Ovary derived callus from cultivar ‘Mikael’ manifested the highest adventitious shoot formation frequency with a high number of shoots per explant. The optimum ratio of growth regulators for shoot regeneration was shown to depend on the genotype. Cultivars ‘Linola’, ‘Mikael’ and ‘Szaphir’ showed the highest shoot regeneration frequency when callus had originated on induction medium supplemented with 2 mg L⁻¹ BAP and 2 mg L⁻¹ NAA, while combination of 1 mg L⁻¹ BAP and 2 mg L⁻¹ IAA promoted shoot formation in ovary-derived callus of ‘Barbara’. The highest rate of shoots per explant has been obtained in second subculture.     

Efficient in vitro regeneration systems for Vaccinium species

Efficient protocols for shoot regeneration from leaf explants suitable for micropropagation as well as for the development of transgenic plants were developed for blueberry (Vaccinium corymbosum) and lingonberry (Vaccinium vitis-idaea) cultivars. Nodal segments were used to initiate in vitro shoot cultures of lingonberry cultivar ‘Red Pearl’ and southern highbush blueberry cultivar ‘Ozarkblue’. In order to develop an optimized regeneration procedure, different types and concentrations of plant growth regulators were tested to induce adventitious shoot regeneration on excised leaves from micropropagated shoots of both cultivars. The effect on percentage regeneration and number of shoots per explant was investigated. Results indicated that zeatin was superior to TDZ and meta-topolin in promoting adventitious shoot formation. A concentration of 20 μM zeatin was most effective in promoting shoot regeneration in both cultivars, in case of ‘Red Pearl’ along with 1 μM NAA. Shoots were either allowed to root in vitro on medium containing IBA or NAA or ex vitro in a fog tunnel. IBA was superior to NAA for induction of root development in vitro in both Vaccinium cultivars. Ex vitro rooting under high humidity was tested with cuttings from mature field-grown plants, from acclimatized tissue culture derived plants and with unrooted in vitro proliferated shoots planted directly. It was found that in vitro shoots rooted better under fog than cuttings from the other plant sources and rooting was equivalent to that achieved in vitro.     

Micropropagation of mature <Emphasis Type="Italic">Cornus mas</Emphasis> ‘Macrocarpa’

Sprouting axillary buds sampled from a mature 27-year-old shrub of Cornus mas ‘Macrocarpa’ were used as starting material for in vitro culture establishment. Multiple shoot cultures, grown on basal woody plant medium with the pH adjusted to 5.6–5.7 and supplemented with 6-benzylaminopurine in combination with 1-naphthaleneacetic acid, were capable of continuous axillary and adventitious shoot proliferation up to 1 year. Later on, growth ceased, shoot tip necrosis appeared and shoot cultures died. Transfer of living shoots onto modified woody plant medium with the pH adjusted to 6.8–7.0 led to vigorous growth of multiple shoot cultures without any loss of multiplication rates or decreased vitality for several years. The use of 6-benzylaminopurine in combination with 1-naphthaleneacetic acid proved superior to the application of thidiazuron which induced a frequent formation of short and fasciated shoots. 1-naphthaleneacetic acid promoted in vitro adventitious rooting frequency up to 73.3%, whereas indole-3-butyric acid was not effective. Ex vitro acclimatized plants did not show any visually detectable morphological variation.     

Effect of nutrient media on axillary shoot proliferation and preconditioning for adventitious shoot regeneration of pears

The influence of the nutrient composition of plant tissue culture media on axillary shoot proliferation and their preconditioning effect on subsequent adventitious shoot regeneration from pear leaves was investigated. The goal was to improve both micropropagation and regeneration of ‘Bartlett’ and ‘Beurre Bosc’ pear cultivars. Driver–Kuniyuki walnut (DKW) and Quoirin and Lepoivre (QL) nutrient media were found to be superior to Murashige and Skoog (MS) and Woody Plant Medium (WPM) for axillary shoot proliferation. Shoots on WPM exhibited some chlorosis. Axillary shoot culture on DKW would be preferred to that on QL due to the production of excessively short thin shoots on the latter medium. DKW also was superior to QL and MS for production of young expanding leaves for use as explants in adventitious regeneration. Leaf explants derived from shoot proliferation cultures grown on DKW or QL media produced more adventitious shoots than leaf explants from MS.     

Efficient and simple plant regeneration via organogenesis from leaf segment cultures of persimmon (Diospyros kaki thunb.)

Summary An efficient and simple plant regeneration system via organogenesis from leaf segments of persimmon (Diospyros kaki Thunb.) cultivars ‘Fuyu’ and ‘Nishimurawase’ has been developed. The regeneration capacity was influenced by the culture vessels, gelling agents, plant growth regulators, and light conditions. Leaf explants taken from in vitro shoots were cultured on a modified Murashige and Skoog medium (MS1/2N), for 16 wk without transfer to fresh medium. Adventious shoots appeared after 4 and 8 wk in culture of ‘Nishimurawase’ and ‘Fuyu’ tissues, respectively. The culture of leaf explants in Erlenmeyer flasks with medium containing 4 g l⁻¹ agar enhanced shoot formation in comparison to media with increased agar concentrations. Optimal shoot regeneration was obtained with 5 mg l⁻¹ (22.8 μM) zeatin and 0.1 mg l⁻¹ (0.05 μM) indole-3-butyric acid (IBA) for ‘Nishimurawase’, and 10 mg l⁻¹ (45.6 μM) zeatin and 0.1 mg l⁻¹ (0.05 μM) IBA for ‘Fuyn’. Shoot regeneration frequencies in both cultivars were 100%, and shoot numbers per explant reached up to 9.2 for ‘Nishimurawase’ and 2.2 for ‘Fuyu’. Dark incubation during the first 4–5 wk was the most effective condition to successfully influence shoot regeneration in both cultivars. While dark incubation was essential for adventitious shoot formation by ‘Fuyu’, it was only slightly beneficial to ‘Nishimurawase’. More than 80% of the regenerated shoots rooted within 4 wk on hormone-free MS1/2N demium after having been dipped for 30 s in 250 mg l⁻¹ (1.1. mM) IBA solution.     

Shoot apical meristem: In vitro regeneration and morphogenesis in wheat (Triticum aestivum L.)

Summary We report a less genotype-dependent in vitro regeneration system capable of producing multiple shoot clumps and whole plants in four different wheat genotypes. Shool apical meristems from 7-d-old-seedlings produced axillary and adventitious shoots and somatic embryos on media containing N⁶-benzyladenine (BA) and 2,4-dichlorophenoxyacetic acid (2,4-D). All four genotypes responded positively to shoot multiplication depending upon media composition. Scanning electron microscopies of cultures showed a proliferating budding state that gave rise to adventitious shoots and somatic embryos on further multiplication. The percentage of relative shoot apical meristem multiplication was 80–90%, and the average number of shoot meristems per multiplied shoot was 40–50 in all genotypes. Among different concentrations of phytohormones, 2 and 4 mgl⁻¹ BA (8.8 and 17.7 μM) in combination with 0.5 mg l⁻¹ 2,4-D (2.26 μM) gave the best results. Actively multiplying shoot clumps were recovered with high frequency among 3-mo.-old cultures. These shoot clumps regenerated normally and produced fertile plants containing viable seeds. This in vitro system might prove useful for the production of transgenic plants of wheat in a relatively genotype-independent manner.     

Factors influencing efficiency of shoot regeneration in <Emphasis Type="Italic">Ziziphus jujuba</Emphasis> Mill. ‘Huizao’

Several factors affecting the frequency of leaf regeneration of Ziziphus jujuba ‘Huizao’ were investigated in this study, including basal medium, plant growth regulators, leaf maturity, explant orientation, and additive chemicals. The results showed that the highest shoot regeneration frequency (82.25%) was obtained on woody plant medium supplemented with 2.27 μM thidiazuron, 1.07 μM α-naphthalene-acetic acid (NAA) and 2.94 μM silver nitrate after a 10 days incubation in darkness. This study also suggested an increased regeneration frequency of expanded young leaves which were taken from the mid-stem position, as well as from the explant abaxial surface contacting with the medium. In addition, hyperhydric of adventitious buds could be effectively reduced by adding 40 g l⁻¹ sucrose to the medium. A 95.56% rooting rate could be produced from shoots cultured on half-strength Murashige and Skoog (in Physiol Plant 15:473–497, 1962) medium plus 2.69 μM NAA.     

Adventitious shoot regeneration from leaf explants of southern highbush blueberry cultivars

Protocols were developed to optimize adventitious shoot regeneration from four southern highbush blueberry cultivars. Leaf explants from 6 week-old shoots of the four cultivars were excised and cultured on woody plant medium each containing thidiazuron (4.54 or 9.08 μM), zeatin (18.2 μM), or zeatin riboside (5.7 or 11.4 μM) either separately or in combination with α-naphthaleneacetic acid at 2.69 μM. Optimum medium for shoot regeneration was genotype-dependent. Efficient regeneration was obtained at frequencies of 88.9% for ‘Jewel’, 87.8% for ‘Emerald’, 53.3% for ‘Jubilee’ and 87.8% for ‘Biloxi’. Leaf explants of newly developed shoots from the cultures having undergone five subcultures had higher regeneration frequencies than those having undergone two subcultures. Regenerated shoots, 80–100% for each cultivar, rooted in 8 weeks after transplantation to soil. The regeneration systems described have potential use in genetic transformation of southern highbush blueberry cultivars.     

An improved micropropagation of <Emphasis Type="Italic">Spilanthes acmella</Emphasis> L. through transverse thin cell layer culture

An efficient and improved in vitro propagation system for Spilanthes acmella L. using transverse thin cell layer (tTCL) culture system was established. The frequency of shoot regeneration from tTCL nodal segments was affected by concentrations of plant growth regulators and orientation of the explant. MS (Murashige and Skoog in Physiol Plant 15:473–497, 1962) medium with 5.0 mg dm⁻³ BAP was optimal for shoot regeneration. Upon this medium, the explant inoculated in the upright orientation exhibited a high frequency of shoot regeneration (about 97%), and the highest number of shoots (31.5) per explant. The intact node (1.0–1.5 cm) cultured on the same medium had significantly lower shoot multiplication ability with only 4.5 shoots per responsive explant. As compared to BAP alone, the combination of BAP and Kin or NAA did not have positive effects on shoot multiplication from tTCL nodal segments. Rooting of shoots was achieved on growth regulator free full-strength MS medium. Plantlets were transplanted into soil with 90–100% survival rate.     

Strawberry sepal: Another explant for thidiazuron-induced adventitious shoot regeneration

Summary An efficient system to regenerate shoots on excised sepals (calyx) of greenhouse-grown ‘Bounty’ strawberry (Fragaria x ananassa Duch.) was developed in vitro. Sepal cultures produced multiple buds and shoots without an intermediary callus phase on 2–4 μM 1-phenyl-3-(1,2,3-thiadiazol-5-yl) urea (thidiazuron, TDZ)-containing shoot induction medium within 4–5 wk of culture initiation. Young expanding sepals with the adaxial side touching the culture medium and maintained for 14 d in darkness produced the best results. In a second experiment, sepals proved more effective than the leaf discs and petiole segments for regenerating shoots. A third experiment compared the effects of six concentrations of two cytokinins (TDZ at 0, 0.5, 2, and 4 μM and zeatin at 2 and 4 μM) for elongation of sepal-derived adventitious shoots. The media containing TDZ generally promoted more callus formation and suppressed shoot elongation. TDZ-initiated cultures transferred into the medium containing 2–4 μM zeatin, produced usable shoots after one additional subculture. Shoots were rooted in vitro in the same medium used for shoot regeneration, but without any growth regulators. When transferred to potting medium, 85–90% of in vitro plantlets survived.     

Manipulation of ploidy for kiwifruit breeding: in vitro chromosome doubling in diploid <Emphasis Type="Italic">Actinidia chinensis</Emphasis> Planch.

Tetraploid plants were induced by colchicine treatment of in vitro leaf petiole segment cultures of five diploid Actinidia chinensis Planch. genotypes, including the commercially important, yellow-fleshed cultivar ‘Hort16A’, three female selections with red-fleshed fruit and one male pollinizer. Petiole segments were incubated on a shoot regeneration medium for a period of 4 weeks, and subsequently microshoots were treated with 0.05 or 0.1% colchicine. About one-third of the regenerated shoots were tetraploid following 0.05% colchicine treatment, more than with 0.1% colchicine treatment. Similar rates of tetraploid induction were achieved with all the genotypes tested. The efficiency of induction of polyploidy depended on the interaction between the types of in vitro culture chosen and the concentration of colchicine used. There are no previous reports of colchicine being used so successfully to induce polyploidy in Actinidia.     

Use of lysozyme for treatment of bacterial contamination in <Emphasis Type="Italic">in vitro</Emphasis> shoot cultures of fruit plants

Summary Use of lysozyme was tested for treatment of bacterial contaminations in in vitro shoot cultures of quince (Cydonia oblonga) ‘BA 29’ and the hybrid (Prunus persica × P. amygdalus) rootstock ‘GF 677’. Shoots which had been contaminated for about 1 yr by Bacillus circulans and Sphingomonas paucimobilis were treated in liquid culture, at pH 4.5, with 9–36 mg ml⁻¹ egg white lysozyme (EWL), and compared to each other and to untreated cultures for their growth, proliferation, and number of bacterial colony-forming units in the tissues. EWL did not negatively affect shoot growth up to 18 mg ml⁻¹; furthermore, the proliferation rates of EWL-treated shoots were sometimes higher than those of controls. In contrast, the concentration of 36 mg ml⁻¹ had some deleterious effect on the regrowth capacity and shoot production of ‘GF 677’ at the first subculture to solid medium after EWL, treatments. EWL had a simple bacteriostatic effect against Sphingomonas paucimobilis; in contrast, it was effective at 18 mg ml⁻¹ in eliminating Bacillus circulans in both ‘BA 29’ and ‘GF 677’ cultures, after optimal treatment duration.     

Indirect regeneration of the Cancer bush (<Emphasis Type="Italic">Sutherlandia frutescens</Emphasis> L.) and detection of <Emphasis Type="SmallCaps">l</Emphasis>-canavanine in <Emphasis Type="Italic">in vitro</Emphasis> plantlets using NMR

The present study reports a simple protocol for indirect shoot organogenesis and plant regeneration of Sutherlandia using rachis and stem segments. Different concentrations (0.0–68.08 μmol l⁻¹) of thidiazuron (TDZ) were used for callus induction and shoot organogenesis. The highest percentage of callus formation (97.5%) and the highest percentage of explants forming shoots (88.8%) were obtained from rachis explants cultured onto Murashige and Skoog (MS) medium (Murashige and Skoog, Physiol. Plant. 15:473–495, 1962) supplemented with 45.41 μmol l⁻¹ TDZ. Scanning electron microscopy demonstrated the early development of adventitious shoots derived from callus cultures. Shoot clusters were further developed and grown in MS hormone-free medium. The presence of l-canavanine was determined by thin-layer chromatography and confirmed after column fractionation using silica gel and nuclear magnetic resonance spectroscopy. Individual shoots were rooted on different concentrations and combinations of MS salt strength and IBA. Half-strength MS salt medium supplemented with 24.6 μmol l⁻¹ IBA was optimal for root induction in which 78% of shoots were rooted. The in vitro plants were successfully acclimatized in a growth chamber with a 90% survival rate.     

Plant regeneration from in vitro leaf tissues of <Emphasis Type="Italic">Viburnum dentatum</Emphasis> L

Shoots were regenerated from in vitro leaf tissues of two genotypes of Viburnum dentatum, a popular shrub species for landscape use. Adventitious shoots were induced when leaf tissues were cultured on woody plant medium (WPM) supplemented with either benzyladenine (BA) or thidiazuron (TDZ). Effects of cytokinin concentration, indole-3-butyric acid (IBA), and dark treatment on shoot regeneration were investigated. Dark treatment for the first 4 weeks of leaf explants cultured in the regeneration medium significantly increased the frequency of regeneration. The highest frequency of shoot regeneration (70%) for ‘Synnesvedt’ was obtained when leaf tissues were cultured in the medium with 40 μM BA or 8 μM TDZ with 4 weeks dark treatment. The highest frequency of shoot regeneration (90%) for ‘MN34’ was found in the 4 μM TDZ medium with 4 weeks dark treatment. Addition of IBA significantly enhanced shoot regeneration. Ethyl methanesulfonate (EMS) treatment inhibited callus proliferation, particularly in the early stage of callus recovery; however, no significant difference in shoot regeneration among different treatments was observed, indicating that the inhibitory effect of EMS was minimal after calluses re-acquired their capacity to grow and regenerate in the regular medium. Regenerated shoots (>1.5 cm) were rooted in the half-strength MS medium containing 5-10 μM IBA or naphthalene acetic acid (NAA). Rooted plants were transferred to the potting medium and grown in the greenhouse.     

Regeneration of <Emphasis Type="Italic">Pelargonium × hederaefolium</Emphasis> ‘Bonete’ from petiole explants

The adventitious shoot regeneration from petiole explants of Pelargonium × hederaefolium ‘Bonete’ was achieved via a mixed pathway i.e. organogenesis and somatic embryogenesis. The histological study of regenerated structures revealed the presence of both shoot primordia and embryo-like structures. The initial growth in petiole explants occurred on media with BAP + auxin or TDZ alone. However, the most effective regeneration (24 structures/explant) was noted in the presence of TDZ (2 mg l⁻¹) and IBA (0.1 or 0.2 mg l⁻¹). Moreover, the application of TDZ in the induction phase reduced the time needed for the formation of adventitious structures and positively influenced the further shoot development on the medium containing m-topolin and IBA.     

Induction of adventitious shoot regeneration in chrysanthemum as affected by the season

The subject of investigation was Chrysanthemum x grandiflorum (Ramat.) Kitam., ‘Satinbleu’. Leaf explants and internodes were excised from the middle part of the donor sterile plant. Two methods of explant inoculation were applied: explants were placed polarly and horizontally. Modified MS medium (Murashige and Skoog 1962), supplemented with 11.4 μM indoleacetic acid and 2.7 μM 6-benzylaminopurine, were prepared to induce adventitious bud formation. Four dates of explant inoculation on the medium were tested: January 15, April 15, July 15, and October 15. Thus, regeneration occurred in winter, spring, summer, and autumn. In the present study, a more intensive regeneration in ‘Satinbleu’ chrysanthemum was observed in summer and autumn than in spring and winter, irrespective of the kind of explant and the inoculation method.     

Comparison of genetic transformation in <Emphasis Type="Italic">Morus alba</Emphasis> L. via different regeneration systems

Three different regeneration systems, viz. direct regeneration of adventitious shoot buds from explant, regeneration through callus cultures and somatic embryos were compared to see their effect on transfer of neomycin phosphotransferase (nptII) and β-glucuronidase (GUS) reporter gene (gus) to Morus alba clone M5, through Agrobacterium tumefaciens mediated transformation. Pre-conditioning and co-cultivation durations had a marked effect on transformation frequency. The highest transformation frequency of 18.6% was obtained using direct induction of adventitious shoot buds. Expression and presence of transgene were assayed histochemically and through polymerase chain reaction. Southern analysis of GUS and PCR positive transformants confirmed stable integration of transgenes with two to four copy numbers. The selected transformants showed normal phenotype under in vitro and field conditions.     

An efficient in vitro shoot propagation of cranberry (Vaccinium macrocarpon ait.) by axillary bud proliferation

Summary Cultures of two eranberry (Vaccinium macrocarpon Ait.) cultivars, ‘Ben Lear’ and ‘Pilgrim’, and three eranberry clones from natural stands in Newfoundland were established in a nutrient medium containing N⁶[2-isopentenyl]adenine (2iP) from nodal and/or shoot-tip explants obtained under aseptic conditions. The cultivars differed in shoot regeneration in terms of shoot number per explant with various concentrations of 2iP over two culture periods. Best total shoot production was obtained when nodal segments were cultured in the medium supplemented with 2.5–5.0 mg 2iP l⁻¹ (12.3–24.6 μM). With higher 2iP levels, shoots did not expand and had a high mortality rate. Nodal explants of the three clones cultured in the same nutrient medium supplemented with 2.5 mg 2iP l⁻¹ (12.3 μM) produced three to five healthy axillary shoots per explant. In another experiment, nodal explants were more productive than shoot tips. In all experiments with subculture, there was an increase in shoot multiplication rate for all genotypes. Shoots were rooted in vitro in the same media used for shoot proliferation, but without any growth regulators. After their transfer to potting medium, almost all of the rooted plants survived. Cranberry genotypes can be efficiently propagated and maintained through nodal culture in a nutrient medium without auxin that contains 2.5–5 mg 2iP l⁻¹ (12–25 μM).