Patterns of direct and indirect embryogenesis from mesophyll protoplasts of Medicago sativa

Clones of three cultivars of Medicago sativa (Rambler, Regen S and Rangelander) were used as sources of mesophyll protoplasts. Although all three clones readily produced protoplasts, the subsequent development patterns in culture varied greatly among genotypes, with protoplasts from Regen S and Rambler forming calli which could be induced to form embryos, and protoplasts from Rangelander undergoing direct embryogenesis. Protoplasts of Regen S exhibited high rates of division while those of Rangelander tended to aggregate with only a few cells per aggregate surviving. The surviving cells gave rise to proembryos within the aggregates; these proembryos developed into differentiated embryos after 5–7 weeks of culture. Based on the initial protoplast population, the efficiency of embryo formation averaged 0.13% and ranged from 0.001–0.4%. Observations during the early stages of culture indicated that cell aggregation was a prerequisite for direct embryogenesis.     

Plant regeneration from suspension culture and mesophyll protoplasts of Medicago sativa L.

A system was established for achieving plant regeneration from mesophyll protoplasts and cotyledon-derived cell suspension cultures of alfalfa, Medicago sativa L. Peeled leaflets or cells from 6-day-old cell suspensions were incubated in an enzyme mixture containing 1% Driselase, 1% Rhozyme, 0.1% Cellulase and 72 gl^-1 mannitol at pH 5.8 for 2–16 h to liberate protoplasts. A complex Kao medium supported cell division and colony formation, whereas a high auxin/low cytokinin treatment on Schenk and Hildebrandt medium followed by culture on growth regulator-free Blaydes or Linsmaier and Skoog medium resulted in somatic embryo formation. Of the three varieties tested. Citation, Answer and Regen S, the latter two produced embryos from which plants could be regenerated.     

Donor tissue and culture condition effects on mesophyll protoplasts of Medicago sativa

Mesophyll protoplasts were produced from clones of two cultivars of Medicago sativa, Rangelander and Regen S. Protoplasts from the Regen S clone generally gave rise to calli while those from the Rangelander clone would undergo direct embryogenesis. Effects of plant growth conditions, donor tissue pretreatment and protoplast culture conditions on mesophyll protoplast production and subsequent development patterns were investigated. The major factor determining whether or not mesophyll protoplasts would be produced from either of the clones was the pretreatment in water of shoots excised from the donor plants. Pretreatment in water containing growth regulators did not alter protoplast production or development in the Regen S clone. Pretreatment of the Rangelander clone shoots with abscisic acid or naphthaleneacetic acid was slightly beneficial to embryo production while pretreatment with benzylaminopurine was detrimental. Altered leaf morphology induced by growth condition changes did not affect mesophyll protoplast production or subsequent development patterns when shoots were pretreated in water. Culture of protoplasts in liquid droplets or solid agar medium increased low density protoplast survival and subsequent embryo production in the Rangelander clone.     

Direct embryogenesis from single mesophyll protoplasts in alfalfa (Medicago sativa L.)

Summary We used a tetraploid clone derived from an anther culture operation of Ladak alfalfa to study the pathway of direct embryogenesis from leaf-mesophyll protoplasts. About 72% of the protoplasts divided, and 7% of those produced proembryos. Approximately 38% of the proembryos developed into green embryos, and 33% initiated calluses. Other proembryos dedifferentiated into calluses which later redifferentiated embryos. Sixteen percent of the embryos developed directly into plants, whereas 81% produced plants indirectly via secondary embryos. The remaining 3% of the primary embryos failed to develop into plants. The lowest plating efficiency for direct embryogenesis was 0.3%. The high percentage of direct embryogenesis observed was related to the genetic nature of the clone, low density of liquid medium, low protoplast culture density, and the composition of culture media.Contribution no. 90-61-J from the Kansas Agricultural Experiment Station.     

Somatic embryogenesis from Lycopersicon peruvianum leaf mesophyll protoplasts

Summary One to five percent of Lycopersicon peruvianum (L.) Mill. leaf mesophyll protoplasts undergo cell division and concomitant organization to form embryogenic-like structures when cultured in Murashige and Skoog medium (1962) containing 3% sucrose, 9% mannitol, 1.0 mg/l kinetin (K) and 1.0 mg/l naphthalene acetic acid (NAA) at pH 5.6–5.8 (medium A). These embryogenic structures, after passing through developmental stages similar to those observed in zygotic embryogeny, are capable of forming shoots on hormone-free medium A. In medium B, wherein 0.5 mg/l of 2,4-dichlorophenoxyacetic (2,4-D) replaced the hormones (K and NAA), embryogenic structures did not develop. However, callus originating in medium B retained morphogenetic capacity as was evidenced by subsequent shoot regeneration when they were transferred to medium A with K and NAA replaced by 1.0 mg/l zeatin (Z). The potential value of incorporating this regeneration trait into Lycopersicon species and cultivated lines for use in tissue culture programs is discussed.Michigan Agricultural Experiment Station Journal No. 9676     

Endogenous hormone levels during direct somatic embryogenesis in Medicago falcata

Endogenous indole-3-acetic acid, abscisic acid and cytokinins (zeatin, zeatin riboside, N-isopentenyladenine and N-isopentenyladenosine) were evaluated in initial explants (leaves) of in vitro propagated plants of alfalfa ( Medicago falcata L.) lines varying in embryogenic capacity and during the somatic embryogenesis process. Fast embryo-genic induction was correlated with high IAA and low ABA levels in the initial explants. No significant differences were observed in the cytokinin contents. Our results suggest that a certain hormone balance is necessary to allow the expression of the embryogenic potential. The consistent stages of the direct somatic embryogenesis are also characterized by changes in hormonal levels.     

Rapid transformation and regeneration of alfalfa (Medicago falcata L.) via direct somatic embryogenesis

Two simple, rapid and efficient protocols for theregeneration of transformed tetraploid lines ofalfalfa (Medicago falcata L.) have beendeveloped and compared. Leaf explants fromembryogenic lines 47/1-150 and 47/1-5 were inoculatedwith Agrobacterium tumefaciens containingconstructs carrying the nptII selectable markergene and promoter:gusA gene fusions under thecontrol of the CaMV 35S or Arabidopsis cdc2a,CycB1 and CycA2 promoters. In the firstregeneration system (the MSH system), inoculated leafexplants were incubated on MS medium supplemented with2,4-D and kinetin and then subcultured onto plantgrowth regulator-free MS medium in order to inducedirect somatic embryogenesis. In the secondregeneration system (the B5h system), the inoculatedexplants were incubated on B5h medium to induceindirect production of somatic embryos viaembryogenic callus. In both systems, an effectivekanamycin selection regime was employed and wasmaintained when the embryos were subcultured onto arecovery medium (Boi2Y) to promote further embryodevelopment. The use of Boi2Y medium was particularlyimportant for shortening the regeneration time andpromoting a higher frequency of healthy plantletproduction from the somatic embryos. The maturesomatic embryos were finally transferred to plantgrowth regulator-free MS medium for plantletformation. Transgenic plantlets were produced within10–14 weeks in the MSH system and 12–16 weeks in theB5h system. The MSH system appears to be the fastesttransformation system reported for leguminous speciesto date. Confirmation of transformation was obtainedusing a re-callusing assay on kanamycin and subsequentSouthern blot hybridisation and PCR analysis. Theability to induce expression of GUS activity in leafexplants containing the cell division cycle genepromoter:gusA constructs by 2,4-D treatment alsoproved to be a reliable indicator of transformation.     

Role of genetic background in somatic embryogenesis in Medicago

Seventy-six cultivars of alfalfa (Medicago sativa L., M. falcata L. and M. varia Martyn) were tested in vitro for their capacity to produce callus and somatic embryos. A three-step media protocol was used to survey the response of the cotyledons and hypocotyl of each genotype while the epicotyl region was conserved in order to recover highly responding genotypes. The best regeneration response was observed in creepingrooted cultivars which contained a strong genetic contribution of two landrace germplasm sources, defined as M. falcata and Ladak, in their ancestry. The callus and embryogenesis responses showed a high degree of variation both between cultivars and among the plants of many of the 76 cultivars tested. A higher number of plants produced somatic embryos in the high regenerating cultivars compared to the low regenerating cultivars regardless of the media protocol or explant.     

A novel system for rapid high frequency somatic embryogenesis in Medicago sativa

A novel, genotype dependent system for rapid high frequency somatic embryogenesis in Medicago sativa L. was developed in which the first embryos are visible as early as 15 days after the explant (hypocotyl, petiole, leaf) is put into culture. The simplest method involves culture of the explants on a single Murashige and Skoog (MS) medium supplemented with 2 g l−¹ casein hydrolysate, 9 μ M 2,4-dichlorophenoxyacetic acid (2,4-D) and 1.2 μ M kinetin. An efficient two-step, two-medium system was developed to allow separation of the induction and differentiation phases. The explants are cultured on MS with 22.6 μ M 2,4-D and 4.7 μ M kinetin (induction medium) for 10 days and then on basal MS for 20 days. Embryo yields and embryo conversion to plantlets were strongly dependent on the 2,4-D and kinetin concentrations in the induction medium. Both petiole and leaf explants were highly embryogenic and very little callus proliferation occurred when this method was used. Selected clones from three ssp. falcata -based M. sativa cultivars showed a response very similar to the highly regenerable falcata clone F1.1, but it was not possible to produce large numbers of somatic embryos in tissue cultures of cv. Regen S, which is used in most M. sativa tissue culture research, with this procedure. These results suggest that there are two distinct developmental pathways for somatic embryogenesis in M. sativa , with Regen S cultures requiring extensive dedifferentiation during a prolonged callus phase, while the genotypes described in this report have no such requirement.     

Screening of diploid Medicago sativa germplasm for somatic embryogenesis

Nineteen accessions of diploid Medicago sativa L. belonging to the four subspecies sativa, caerula, falcata and xvaria were screened for their ability to produce somatic embryos on hypocotyl-derived callus. Two medium protocols were used in this study, a three-step sequence with exposure of the callus cultures to a high 2,4-D concentration and a two-step sequence without exposure to a high 2,4-D concentration. Considerable variation for callus proliferation was observed. In general, the diploid M. sativa accessions showed poor regenerability and it was not possible to correlate high regeneration frequencies with a particular germplasm source. It was, however, possible to identify regenerable genotypes in all four subspecies. One falcata accession produced somatic embryos on the callus induction media at high frequencies. This response was also obtained with a few genotypes from one xvaria accession. All regenerable plants were maintained as shoot cultures and were able to form somatic embryos on petiole-derived calli.Abbreviations BA 6-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - 2iP iso-pentyladenine - NAA -naphthaleneacetic acid Contribution No. 772 Ottawa Research Station     

Morphogenesis in callus tissue ofMedicago sativa: The role of ammonium ion in somatic embryogenesis

Exogenously supplied ammonium ion is critical to alfalfa morphogenesis in vitro. In alfalfa, the ability to induce the formation of either roots or somatic embryos provided an opportunity to examine the effects of ammonium ion on each pattern of morphogenesis. Somatic embryo formation required a minimum of 12.5 mM NH ₄ ⁺ in regeneration medium for optimal expression. Root formation was inhibited by NH ₄ ⁺ levels of 50 mM and above, and occurred in the absence of exogenous NH₄ ⁺. At high levels of NH ₄ ⁺ somatic embryos were formed from cells exposed to the root-inducing combination of hormones. This observation suggests that the growth regulators and exogenously supplied ammonium ion comprise an interactive system controlling the in vitro pattern of alfalfa morphogenesis.     

Plant regeneration through direct somatic embryogenesis from protoplasts of banana (Musa spp.)

Summary We report the isolation and regeneration of protoplasts from an embryogenic banana (Musa spp.) cell suspension culture initiated from in vitro proliferating meristems. A high yielding isolation method (up to 6×10⁷ protoplasts.ml^–1 packed cells) is discussed. Optimal regeneration, with more than 50% of the protoplasts showing initial cell division, occurred when high inoculation densities (10⁶ protoplasts.ml^–1) or nurse cultures were applied. Under these conditions, the frequency of microcolony formation was 20–40%. These microcolonies developed directly, without an intervening callus phase, into somatic embryos which later germinated and formed plantlets.     

Electro-fusion of mesophyll protoplasts ofAvena sativa

In order to assay the viability of electrically fused mesophyll protoplasts ofAvena sativa a technique was developed to determine adenylate levels in single protoplasts and fusion products. The results demonstrate that the intracellular ATP/ADP ratios are identical before and after fusion (values between 1.4 and 1.8) and that the time of the rounding up process is directly related to the ATP level of the hybrid. This was shown by the manipulation of the intracellular ATP/ADP ratio in the light using different effectors. Hybrids with an ATP/ADP ratio of 2.3 needed 54 s to round up completely; in the presence of antimycin (inhibition of both oxidative and light-dependent cyclic electron flow: ATP/ADP=1.1) or dibromothymoquinone (plastoquinone antagonist: ATP/ADP=1.0) the time for rounding up was slightly increased (64 s and 76 s respectively), whereas after preincubation with antimycin, dichlorophenyldimethylurea (inhibition of oxidative and light-dependent electron flow) or uncouplers (ATP/ADP=0.19–0.32) this process needed 128–153s for completion. These results are discussed in relation to the viability of electrically induced fusion products and to energy-dependent events involved in the process of fusion.     

Artificial seeds of alfalfa (Medicago sativa L.). Induction of desiccation tolerance in somatic embryos

Summary The use of somatic embryos from cell culture systems in the clonal propagation of plants would be greatly facilitated if the somatic embryos could be dried and stored in a dormant state similar to true seeds. A cell culture system was developed for alfalfa (Medicago sativa L.) line RL34 which gave high yields of somatic embryos in an approximately synchronized pattern. These somatic embryos were treated with abscisic acid (ABA) at the cotyledonary stage of development to induce desiccation tolerance. With no visual preselection, approximately 60% of the dried embryos converted into plants upon reimbibition. When high quality embryos were selected prior to drying, 90 to 100% conversion rates were observed. The timing of the application of ABA in terms of embryo development was critical with an optimum being at cotyledonary stage spanning approximately 4 days; thus, synchronized embryo development is required for optimal expression in bulk samples. The vigor of the seedlings from dried somatic embryos was greater than those from embryos which had not been dried, but remained substantially lower than those from true seeds.     

Embryo culture of Medicago scutellata and M. sativa

Resistance to the alfalfa weevil (Hypera postica (Gyllenhal)) and the potato leafhopper (Empoasco fabae (Harris)) is lacking in cultivated alfalfa. However, a closely related annual Medicago, Medicago scutellata, possesses dense glandular stem and leaf hairs which provides a mechanism for resistance. Several attempts have been made at transfering the glandular haired traint from M. scutellata to perennial alfalfa with limited success. Earlier studies have shown that one reason for the lack of success is embryo abortion. Therefore, this study was initiated to observe zygotic embryo-genesis and to develop an embryo rescue technique for M. scutellata and M. sativa. Observations of zygotic embryogenesis showed that the two species are similar in morphology and can be described from youngest to oldest as globular, heart, torpedo, and hook shaped embryos. M. sativa embryos are smaller than M. scutellata embryos and develop three to four days later. Self pollinated M. scutellata (PI 307446) and sib mated M. sativa (Saranac AR) embryos were cultivated on Murashige and (2,4-D), indolacetic acid (IAA), 6-benzylaminopurine (BAP), and kinetic (KIN). Embryos from both species were also cultured on Schenk and Hildebrandt's (SH) basal medium with the addition of L-glutamine and L-proline. The experimental design was a completely randomized factorial for each experiment. Heart and torpedo shaped embryos from M. scutellata grew best (27.5% plantlet recovery) when cultured on MS medium with 0.05 mgl^-1 of both IAA and BAP. After 15 to 30 days on this medium, the embryos had only developed shoots. Therefore, it was necessary to transfer the shoots to MS basal medium without phytohormones for rooting. Rooting occurred in 15 to 30 days and the plantlets could be acclimatized to soil within 2 to 4 weeks. M. sativa embryos grew best (31% plantlet recovery) on SH medium with 50 mM L-glutamine. M. sativa embryos developed both shoots and roots on this medium. This information may now be applied to the development of an embryo culture method for recovering insect resistant hybrids between M. scutellata and M. sativa. Disclaimer statement: Mention of a trademark or proprietary product does not constitute a guarantee or warranty of the product by the USDA, and does not imply its approval to the exclusion of other products that may also be suitable.     

Manipulating the desiccation tolerance and vigor of dry somatic embryos of Medicago sativa L. with sucrose,heat shock and abscisic acid

Summary The effects of sucrose concentration in the maturation medium in combination with a heat shock treatment at 36°C were investigated in an attempt to improve the vigor of seedlings grown from dry somatic embryos of alfalfa (Medicago sativa L.). Callus was formed from petiole expiants and dispersed in liquid suspension medium in the presence of 5 M 2,4-D. The cell suspension was sieved to synchronize embryo development. The 200 – 500 m fraction was plated on embryo development medium without 2,4-D, grown for 14 days, and transferred to maturation medium. With 3% sucrose in the maturation medium, the somatic embryos germinated precociously and were unable to survive desiccation. At higher sucrose concentrations, germination was delayed and the embryos continued to accumulate dry matter. After 13 days on 6% sucrose medium (27 days after sieving), the somatic embryos were tolerant of drying to 12% moisture without exposure to exogenous ABA. Heat shock, which presumably stimulates endogenous ABA synthesis, improved the desiccation tolerance of somatic embryos if applied prior to day 27 after sieving, but its effects were minimal after day 27. High sucrose concentrations up to 9% in the maturation medium were optimal during the first 8 days on maturation medium (days 14 to 22 after sieving), but a lower concentration (6%) was optimal during the later stages of embryo maturation (days 22 to 30 after sieving). The inclusion of 10^–5 M ABA in the maturation medium with 6% sucrose further improved embryo quality if applied approximately 20 days after sieving.     

Somatic embryogenesis from mesophyll protoplasts of Trigonella corniculata (leguminosae)

Mesophyll protoplasts isolated enzymatically from Trigonella corniculata divided to form callus, with a plating efficiency of 49% in Kao (1977) medium. Protoplast-derived tissues formed somatic embryoids at high frequency on MS medium with 2.0 mg L^–7 NAA and 0.5 mg L^–7 BAP. Embryoids developed into plants on MS medium lacking hormones.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA 3-indoleacetic acid - MES 2-(N-morpholine) ethanesulphonic acid - NAA -naphthaleneacetic acid On leave from Genetics Institute, Academia Sinica, Beijing, China     

In vitro culture of Cucumis sativus L. XVIII. Plants from protoplasts through direct somatic embryogenesis

A procedure is described for the isolation and culture of protoplasts from embryogenic callus (gel-like callus — GLC) and embryogenic suspension cultures (ESC) of Cucumis sativus c.v. Borszczagowski. Maximal protoplast yields from GLC and ESC were 5×10⁶ and 1×10⁷ protoplasts/g tissue respectively. They were obtained following 14–16 h digestion with 1.2% Cellulase Onozuka R-10, 1.2% Macerozyme R-10 and 0.3% Driselase. At a plating density of 2×10⁵ / ml, first divisions occurred in 4–5 days and 7–8 days in ESC-and GLC-derived protoplasts respectively. The highest percentage of direct embryogenesis (over 80%) was observed with ESC. It was possible to obtain approximately 5000 embryo structures / g tissue. Some embryos converted into plants after 6 weeks, but most of them after 2 months of culture. ESC-derived plants, when transferred into the glasshouse, bloomed normally, and set seeds.Abbreviations CMS Murashige & Skoog (1962) medium for cucumber - GLC gel-like callus - ESC established embryogenic suspension culture - 2,4-d 2,4-dichlorophenoxyacetic acid     

Alfalfa embryo production in airlift vessels via direct somatic embryogenesis

A procedure for the development of alfalfa (Medicago falcata L.) somatic embryos to the torpedo stage in air-lift vessels is described. Embryos were initiated from chopped leaf explants and were formed by direct somatic embryogensis. The system produced a high number of torpedo stage embryos. The effect of various inoculation densities on embryo development was studied. A procedure for the development and maturation of embryos in aerated liquid media was established. The rate of conversion of the torpedo stage embryos formed in the vessels was 83%.Abbreviations ABA abscisic acid - B5 Gamborgs B5 medium (Gamborg et al. 1968) - COT cotyledon embryo state - 2,4-d 2,4-dichlorophenoxyacetic acid - FW fresh weight - ID internal diameter - MS Murashige and Skoog medium (Murashige & Skoog 1962) - PEG polyethylene glycol - POLY polyembryos - VVM volume of gas/volume of bioreactor