Effect of cooling rate,cryoprotectant and holding time at different transfer temperatures on the survival of cryopreserved cell suspension culture (Puccinellia distans (L.) Parl.)

Reflexed saltmarsh-grass suspension cultures produced by seed callus were frozen to the liquid nitrogen temperature. Cooling rates, cryoprotectants and holding times were taken as a function of transfer temperatures. The highest survival of cells (45%) was found at a freezing rate of 1°C min^-1, without cryoprotectant treatments. The cryoprotectants (proline, dimethyl sulphoxide, glycerol), used at different concentrations and transfer temperatures, increased the survival rate. The maximum value was 78% at 12.5% (w/v) of proline with –30°C transfer temperature. Considerable improvement of viability (from 0% to 95%) among the 12.5 and 15.0% (v/v) dimethyl sulphoxide cryopreserved cells was achieved by holding them at – 20°C for 10–30 min before plunging into the liquid nitrogen. A 20 min holding time at 15.0% (v/v) glycerol level and – 30°C transfer temperature significantly enhanced the viability of the explants from 42% to 92%. Plants were successfully regenerated from cells cryopreserved with proline (w/v) and dimethyl sulfoxide (v/v) levels of 12.5 and 15.0%, respectively.     

Plant regeneration from indica rice (Oryza sativa L.) protoplasts

Rice (Oryza sativa L.) plants of the indica cultivar IR54 were regenerated from protoplasts. Conditions were developed for isolating and purifying protoplasts from suspension cultures with protoplast yields ranging from 1·10⁶ to 15·10⁶ viable protoplasts/1 g fresh weight. Protoplast viability after purification was generally over 90%. Protoplasts were cultured in a slightly modified Kao medium in a Petri plate by placing them onto a Millipore filter positioned on top of a feeder (nurse) culture containing cells from a suspension culture of the japonica rice, Calrose 76. Plating efficiencies of protoplasts ranged from 0.5 to 3.0%; it was zero in the absence of the nurse culture. Protoplast preparations usually contained no contaminating cells, and when present, the number of cells never exceeded 0.1% of the protoplasts. After three weeks the Millipore filter with callus colonies were transferred off feeder cells and onto a Linsmaier and Skoog-type medium for an additional three weeks. Selected callus colonies that had embryo-like structures were then transferred to regeneration medium containing cytokinins, and regeneration frequencies up to 80% were obtained. Small shoots emerged and were transferred to jars for root development prior to transferring to pots of soil and growing the plants to maturity in growth chambers. Of the cytokinins evaluated, N⁶-benzylaminopurine was the most effective in promoting shoot formation; however, kinetin was also somewhat effective. Regeneration medium could be either an N₆ or Murashige and Skoog basal medium. Of 76 plants grown to maturity, 62 were fertile, and the plant heights averaged about three-fourths the height of seed-grown plants.Two other suspension cultures of IR54, one developed from the protoplast callus of the initial IR54 line, and the other developed from callus produced by mature seeds, have yielded protoplasts capable of regenerating plants when using cells of the Calrose 76 suspension as a nurse culture. In addition, protoplasts obtained from three-week-old primary callus of immature embryos of IR54 were capable of regenerating plants when using the same culture conditions.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - pcy packed cell volume - BAP N⁶-benzylaminopurine - FDA fluorescein diacetate - FW fresh weight - IAA indole-3-acetic acid Media AA Muller and Grafe (1978) - CPW Frearson et al. (1973) - Kao^* Kao (1977) - LS Linsmaier and Skoog (1965) - MS Murashige and Skoog (1962) - N₆ Chu et al. (1975) - PCM Ludwig et al. (1985)     

Plant regeneration from protoplasts isolated from callus ofGentiana crassicaulis

Fast growing calli induced from hypocotyl segments ofGentiana crassicaulis were used for preparation of protoplasts. High yields of viable protoplasts were produced in an enzyme solution containing 1–2% cellulase, I% pecfinase, and 0.5% Hemicellulase. Protoplasts were cultured in KM8P medium containing 1 mg/l 2,4-D, 0.5 mg/l 6BA, 500 mg/l LH, 0.5 M glucose and 0.1 M mannitol by the solid-liquid dual layer culture method. First division occurred within 4–5 days of culture at a frequency of 17.8%. Sustained divisions led to callus formation. Periodically diluting the cultures with freshly prepared liquid medium containing 1% glucose was critical for colony formation. Protocolonies about 2 mm in size were transferred onto MS medium supplemented with 3 mg/l ZT, 2 mg/l 6BA, 1 mg/l GA₃, 1 mg/l NAA and 6% sucrose to obtain embryogenic calli. Plantlets were regenerated via somatic embryogenesis at high frequency on hormone-free MS Medium.Abbreviations 6BA 6-benzylaminopurine - NAA naphthaleneacetic acid - 2,4-D 2,4 - dichlorophenoxyacetic acid - ZT zeatin - GA₃ gibberellic acid - LH lactalbumin hydrolysate - MES 2-(N-morpholino)-ethane sulfonic acid - MS Murashige & Skoog's medium(1962)     

Plant regeneration from protoplasts of wild barley (Hordeum murinum L.)

Summary We have produced a large number of plants regenerated from protoplasts originally isolated from embryo-derived cell suspensions of wild barley, Hordeum murinum L.. Suspensions initially allowed protoplast isolation and culture 5.5 to 9 months from the date of callus initiation. Colony formation efficiencies ranged from 1.5 to 3.0 % and from 0.1 to 1.4 % for protoplast cultures with and without nurse cells, respectively. Both nurse and non-nurse techniques allowed efficient embryogenesis and plant regeneration. More than 400 shoots/plantlets have been obtained from 6 independent experiments. Over 150 plants have been transferred to the greenhouse. Protoplasts isolated from the youngest suspensions (5.5 months old) gave rise to the largest number of plants. Protoplasts isolated from suspensions as old as 15 months were also regenerable.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - NAA naphthaleneacetic acid - L1, L2 medium according to Lazzeri et al. 1991 - L3 medium medium according to Jähne et al. 1991a     

High capacity of plant regeneration from callus of interspecific hybrids with cultivated barley (Hordeum vulgare L.)

Callus was induced from hybrids between cultivated barley (Hordeum vulgare L. ssp. vulgare) and ten species of wild barley (Hordeum L.) as well as from one backcross line ((H. lechleri x H. vulgare) x H. vulgare). Successful callus induction and regeneration of plants were achieved from explants of young spikes on the barley medium J 25–8. The capacity for plant regeneration was dependent on the wild parental species. In particular, combinations with four related wild species, viz. H. jubatum, H. roshevitzii, H. lechleri, and H. procerum, regenerated high numbers of plants from calli.     

Plant regeneration from callus and protoplast cultures of Helianthus giganteus L.

Summary Methods of plant regeneration from callus and protoplasts of Helianthus giganteus L. are described. Embryogenic callus was obtained from leaf explants and plants were regenerated from these calli on MS media with different combinations of benzyladenine and naphtaleneacetic acid. Leaf protoplasts isolated from in vitro grown plants formed somatic embryos when cultured in agarose solidified droplets of V-KM medium containing benzyladenine and naphtaleneacetic acid. Embryos developed into plantlets on media with reduced auxin contents. Regenerated plants were successfully planted in soil.Abbreviations BA benzyladenine - IAA indoleacetic acid - MS Murashige and Skoog medium - NAA naphtaleneacetic acid - V-KM protoplast culture medium of Binding and Nehls     

Plant regeneration from callus culture of a Paphiopedilum hybrid

Totipotent calli of a Paphiopedilum hybrid (Paphiopedilum callosum ‘Oakhi’ × Paph. lawrenceanum ‘Tradition’) were induced from seed-derived protocorms on a 1/2 strength Murashige–Skoog medium plus 1–10 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D) and 0.1–1 mg l⁻¹ 1-phenyl-3-(1.2.3-thiadiazol-5-yl)urea (TDZ). These calli grew well when subcultured on the same medium, but proliferated more on 1/2 MS medium plus 5 mg l⁻¹ 2,4-D and 1 mg l⁻¹ TDZ. Calli developed further along a route of production of protocorm-like bodies and eventually formed plantlets that could be transplanted to pots and grew well. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration from callus and protoplasts in Medicago polymorpha

Seventeen ecotypes of the wild species Medicago polymorpha adapted to a Sardinian (Italy) environment have been evaluated for their response to tissue culture. The accession Samughero-Albi was the more respondent for callus induction and, together with Usassai, showed the highest regeneration capacity on media containing 1 mg l^-1 2iP and 0.1 mg l^-1 IAA. The morphogenetic response was also affected by the explant source. The hypocotyl-derived-calli were the best regenerating tissues. Regenerated plantlets were difficult to root and it was possible to obtain plants with a well developed root system only after 5–7 weeks of culture on media containing 2iP and IAA both at 0.2 mg l^-1. Mesophyll cells were the best protoplast yielding source but only those isolated from roots were able to divide and to regenerate plants. Results are discussed in relation to the genotype specificity for the morphogenetic response and the feasibility of using M. polymorpha in the somatic hybridization with M. sativa.Abbreviations NAA -naphthaleneacetic acid - 6-BAP 6-benzylaminopurine - 2,4-d 2,4-dichlorophenoxyacetic acid - 2iP N⁶-²-isopentenyl-adenine - IAA indole-3-acetic acid - GA₃ gibberellic acid - GFMS growth regulator free MS medium - Prol proline - Malt maltose     

Plant regeneration fromBrassicanigra (L.) Koch stem protoplasts

Summary Protoplasts ofBrassica nigra (L.) Koch were isolated from stem peels of bolting racemes and cultured in 1.5 ml of VN1 liquid medium. The protoplasts in the liquid medium were plated on top of half strength MS medium supplemented with 400 mg/liter glutamine, 15 mg/liter glutathione, 50 mg/literl-serine, 0.25 mg/liter 6-benzylaminopurine, 0.5 mg/liter 2,4-dichlorophenoxyacetic acid, 1.5% sucrose, and 5% mannitol, pH, 5.7, solidified with 0.3% agarose. Ten percent of calli obtained from the protoplasts developed into plantlets within 4 wk after transfer onto 2N regeneration medium which contains MS salts plus 200 mg/liter casein hydrolysate, 0.625 mg/liter 6-benzylaminopurine, 0.625 mg/liter kinetin, 0.625 mg/liter 6-(γ,γ-dimethylallylamino)-purine, 0.625 mg/liter zeatin, 0.5 mg/liter 1-naphthaleneacetic acid, 1.5% sucrose, and 0.4% agarose. THis is the first report of plant regeneration fromB. nigra protoplasts.     

Plant regeneration from callus and protoplasts of Brassica nigra (IC 257) through somatic embryogenesis

A method to obtain plants from embryogenic callus of Brassica nigra and protoplasts of hypocotyl expiants is described. Callus was initiated on Murashige and Skoog medium containing kinetin (kn) and 2,4-dichlorophenoxy acetic acid (2,4-D). Lowering of auxin induced embryo formation. Supplementation with gibberellic acid (GA₃) enhanced embryogenic response tenfold. Passage through liquid medium devoid of growth regulators was essential for the growth of embryos. Secondary embryos were produced on transfer to solid basal medium. Embryogenic callus retained its morphogenic ability even after 12 subcultures. Both primary and secondary embryos produced fertile plants. Hypocotyl-derived protoplasts were also regenerated to plants following the same protocol. The survival of plants on transfer to soil was about 80%. The seeds from plants derived from callus and protoplasts were viable.Abbreviations 2,4-D 2,4-dichlorophenoxy acetic acid - NAA naphthalene acetic acid - IAA indole acetic acid - kn kinetin - GA₃ gibberellic acid     

Efficient plant regeneration through somatic embryogenesis from callus induced on mature rice embryos (Oryza sativa L.)

To obtain a reproducible efficient procedure for regeneration of rice plants through somatic embryogenesis from callus four published methods of callus induction and regeneration were compared. Callus was initiated from mature embryos of the Japonica cultivar Taipei 309 of rice (Oryza sativa L.). The number, mass and morphology of the callus formed on the scutellum were dependent on the medium used. A limited humidity and an optimal aeration of the culture vessels enhanced the frequency of embryogenesis and plant regeneration. A method described by Poonsapaya et al. (1989) was found to be the most efficient and was slightly modified. As a result 98% of the T309 embryos formed callus, of which 63% regenerated into plants. Each callus yielded an average of 6 plants. Plant morphology, fertility and seed set of the regenerants were found to be normal.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - IAA 3-indole-acetic acid - BA 6-benzyladeninepurine - S.E.M. standard error of mean     

Plant regeneration from callus and protoplast cultures of Lotus pedunculatus Cav.

Plant regeneration from leaf- and cotyledon-derived calli and from protoplast-derived tissue has been obtained in Lotus pedunculatus. Callus induction was achieved with 2,4-D and plant regeneration required the following two media sequences: bud formation was stimulated by IAA and BA and shoot growth by kinetin. Root formation occurred in the presence of IAA. Cotyledon protoplasts showed a low plating efficiency and plant regeneration was achieved via an intervening callus phase.Abbreviations BA 6-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - 2iP N^6--2-isopentenyl-adenine - NAA -naphthaleneacetic acid     

Characterization of factors affecting plantlet regeneration from rice (Oryza sativa L.) callus

Various components of culture media were tested to characterize factors affecting plantlet regeneration from rice (Oryza sativa L.) callus. It was found that plantlet regeneration from rice callus was affected by concentrations of gelling agents, osmoticum, and the combination of hormones in the regeneration medium. High concentrations (4–6 g/l gellan gum, 10–16 g/l agar) of gelling agents promoted regeneration frequency. However, the total number of plantlets decreased with gellan gum concentrations above 4 g/l. Addition of sorbitol (15–75 g/l) promoted plantlet regeneration. However, the addition of mannitol was inhibitory and no regeneration was observed at concentrations above 30 g/l. This difference in the effects on regeneration suggests that sorbitol had another function besides as a osmoticum. High regeneration frequency was obtained with combinations of NAA (0.05–0.5 g/l) and kinetin (0.5–2 mg/l). However, higher concentrations (2 mg/l) of NAA are preferred to increase the total number of regenerated plantlets.     

Plant regeneration from transformed embryogenic callus of an elite indica rice via Agrobacterium

The present study describes a simple and efficient protocol for plant regeneration from scutellar-derived embryogenic calli of an elite basmati indica rice (Oryza sativa L., cv Pusa Basmati 1) transformed with Agrobacterium. A supervirulent plasmid pTOK233 as well as a non-supervirulent plasmid pJB90GI containing -glucuronidase (gus) and hygromycin phosphotransferase (hpt) chimeric genes were used to assess transformation and regeneration efficiency. The effects of some factors like the bacterial density and inclusion of sorbitol in the medium on the co-culture and transformation have been evaluated; the procedure for selection and regeneration from transformed calli was found to be critical. Furthermore, co-culture and selection on regeneration medium was found to be better than callus medium and led to minimal media manipulations. Regeneration medium supplemented with 3% maltose was found to be better for regeneration as compared to 3% sucrose. The transformed calli were subjected to three cycles of regeneration, thus converting a higher number of transformation events into regenerants. The selected calli as well as leaf sections and roots of the transformants were GUS positive. The stable integration of the transgene was confirmed by polymerase chain reaction and Southern blot analysis of the transformants. Interestingly, the presence of three additional vir genes in supervirulent plasmid pTOK233 was not required for transformation as transformation was successful with non-supervirulent plasmid pJB90GI, although the transformation and regeneration frequency was higher with the former. This effective protocol for regeneration from transformed calli resulted in a relatively high transformation frequency.     

Plant regeneration from callus and explants of Sesbania spp.

Root, hypocotyl and cotyledon explants of Sesbania bispinosa, Sesbania cannabina, Sesbania formosa, and Sesbania sesban were cultured on Murashige and Skoog medium with benzyladenine (BA; 2.22, 4.44, 8.88 M) in combination with 2,4-dichlorophenoxyacetic acid (2,4-d; 2.26, 4.52, 9.05 M), indolebutyric acid (IBA; 0.25, 0.49, 4.92 M) or naphthaleneacetic acid (NAA; 2.69, 5.37, 10.74 M). Although all explant types developed some callus, callus occurred earliest and continued to grow fastest with hypocotyls. Media including 2.4-d or NAA gave the fastest growing callus. Callus was subcultured up to 10 times at 20-day intervals and retained a rapid growth rate. Shoots regenerated readily from both hypocotyls or cotyledons but not from roots. Shoot organogenesis was most frequent with IBA (0.25–4.92 M) in combination with BA (4.44–8.88 M) and did not occur with 2,4-d. With each species at least one medium induced shoot differentiation from more than 50 percent of the callus pieces. With one exception, media containing IBA that induced shoot organogenesis on explants also did so in callus, but media containing NAA, even when effective with explants, did not cause differentiation of callus. Shoots that differentiated were excised and cultured on MS medium without growth regulators or with IBA (2.46, 4.92, 9.84 M). Roots developed after 3–8 days on an appropriate rooting medium, often without IBA. Rooted plantlets were transplanted to pots in a greenhouse and developed into normal plants. Suitable media and protocols for initiating and subculturing callus and regenerating whole plants in vitro from callus and explants have thus been established for four species of Sesbania.     

Simple dehydration treatment promotes plantlet regeneration of rice (Oryza sativa L.) callus

Summary To increase plantlet regeneration frequency, rice callus was dehydrated in a Petri dish with a single layer of filter paper prior to transfer to the regeneration medium. With a 24 h dehydration treatment, the regeneration frequency was increased to 47 %, while the regeneration frequency of the untreated control was less than 5 %. This relatively simple method provides an alternative method for improving the regeneration frequency of rice callus.     

Plant regeneration from callus cultures derived from mature zygotic embryos in white pine (Pinus strobus L.)

Plant regeneration via adventitious shoot organogenesis from callus cultures initiated from mature embryos in white pine (Pinus strobus L.) was achieved in this study. Callus cultures were induced from mature embryos cultured on PS medium supplemented with 2,4-dichlorophenoxyacetic acid, -naphthaleneacetic acid, or indole-3-acetic acid. Adventitious shoot regeneration from callus cultures was induced on medium containing 2 M indole-3-butyric acid (IBA) and 3–12 M N₆-benzylaminopurine, thidiazuron (TDZ), or 6-(,-dimethylallylamino) purine. Sucrose was the most suitable sugar for adventitious shoot organogenesis in white pine. Shoot organogenesis was improved by treatment at 4°C for 6 weeks. The frequency of adventitious shoot formation increased when 0.1 mM putrescine was added to basal medium supplemented with 6 M TDZ and 2 M IBA. Putrescine improved adventitious shoot organogenesis by decreasing lipid peroxidation. These findings provide useful information on adventitious shoot organogenesis and may be valuable to genetic transformation in white pine.     

Plant regeneration from callus cultures of several soybean genotypes via embryogenesis and organogenesis

Using callus derived from immature embryos, regeneration of viable plants was obtained in soybean (Glycine max (L.) Merr.). Depending on the composition of the medium, regeneration occurred via embryogenesis or via organogenesis. Embryogenesis resulted when embryos were plated on Murashige and Skoog (MS) medium containing 43 M -naphthaleneacetic acid. In work with the cultivar Williams 82, the addition of 5.0 M thiamine HCl increased embryogenesis from 33% to 58% of the embryos plated. Addition of 30 M nicotinic acid to the MS medium enhanced embryogenesis further to 76%. Organogenesis was obtained when medium containing 13.3 M 6-benzylaminopurine, 0.2 M and -naphthaleneacetic acid and four times the normal concentration of MS minor salts was used. Histological studies of these cultures confirmed the organogenic and embryogenic nature of the cultures, by demonstrating the formation of shoot buds and somatic embryos, respectively. Similar responses were obtained in all 54 genotypes tested in this manner. The cultures retained the ability to regenerate complete plants for at least 12 months and 12–15 subcultures. Seeds have been obtained from several regenerated plants and when grown in the field these produced normal-appearing fertile plants.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetio acid - GA₃ gibberellic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Shoog (1962) medium - NAA -naphthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Plant regeneration in Kentucky bluegrass (Poa pratensis L.) via coleoptile tissue cultures

Summary Plant regeneration in Kentucky bluegrass (Poa pratensis L. cv. Touchdown) via culture of seedling tissues was investigated. When coleoptile, leaf, and stem sections of dark-germinated seedlings were cultured on Murashige and Skoog (MS) medium, different types of callus were produced, depending on the expiant source and growth regulator combinations. Only compact-friable callus (type 3) and moderately compact, friable callus (type 2) produced shoots upon subculture. The nonstructured watery callus (type 4) produced roots without shoots. Shoot differentiation from callus tissues was highest when the culture medium contained 0.2 mgL^–1 picloram + 0.01 mgL^–1 -naphthaleneacetic acid (NAA). Calli grown from coleoptiles had higher shoot regeneration frequency (32%) than that obtained from either stem sections (12%) or young leaf tissues (2%) of the same seedlings. Some organogenic callus lines produced exclusively green plants, while others produced albino shoots or a mixture of green and albino shoots. The green plants were multiplied in a medium containing 0.1 mgL^–1 BAP plus either 0.2 mgL^–1 picloram or 0.1 mgL^–1 indole-3-acetic acid (IAA). Over 90% of the cultures in the shoot proliferation medium produced roots in 4 weeks. The rooted plants were successfully established in soil medium and grown in the greenhouse.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - MS Murashige and Skoog (1962) medium - NAA -naphthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid - TDZ thidiazuron     

Plant regeneration from shoot apical meristems of Melia azedarach L. (Meliaceae)

A protocol was developed for plant regeneration of Melia azedarach L. by in vitro culture of apical meristem (0.5 mm in length). The influence of six clones was investigated. The culture procedure comprised two sequential steps: 1) Induction of shoots by in vitro culture of axillary buds from adult trees (10–15 years old) by culture on Murashige and Skoog (1962) medium (MS) supplemented with 0.5 mg·dm⁻³ BAP (6-benzylaminopurine), 0.1 mg·dm⁻³ IBA (indolebutyric acid), and 0.1 mg·dm⁻³ GA₃ (gibberellic acid). The Multiplication of the regenerated shoots was achieved in MS + 0.5 mg·dm⁻³ BAP + 0.1 mg·dm⁻³ GA₃. 2) In vitro culture of the apical meristems from the regenerated shoots in MS medium (0.7 %) supplemented with various combinations of BAP and IBA. Maximum shoot proliferation was obtained on MS medium supplemented with 0.5 mg·dm⁻³ BAP and 0.1 mg·dm⁻³ IBA. Regenerated shoots were rooted on MS + 3.5 mg·dm⁻³ IBA (4 days) followed by subculture on MS lacking growth regulators (30 days). Complete plants were transferred to soil.