Optimization of somatic embryogenesis and embryo germination in soybean

Summary Somatic embryos of soybean [Glycine max (L.) Merr.] are induced on immature cotyledons explanted onto a medium containing moderately high levels of auxin. Germinability of embryos is related to morphologic normality, and both are reduced by excessive exposure to auxin during the induction process. Shoot meristem development was improved by reducing exposure of cotyledonary explants from 30 to 10 to 14 d on 10 mg/liter α-naphthaleneacetic acid (NAA). A 3-d exposure was sufficient to induce embryos, and embryo frequency was not significantly increased by exposures to NAA for more than 1 wk. Embryo frequency was enhanced, however, by transfer after 9 d to fresh medium containing 10 mg/liter NAA. Germination of morphologically normal embryos was achieved without growth regulators, after maturation for 1 mo. on hormone-free medium and desiccation for 1 wk in a sealed, dry container. This research was funded by Lubrizol Genetics, Inc., Madison, WI.     

Comparison of somatic embryogenesis and embryo conversion in commercial soybean cultivars

Six commercially important soybean cultivars and one control cultivar were compared for differences in induction-efficiency of somatic embryogenesis, primary embryo yield, and embryo conversion. Cotyledons from immature seeds of similar developmental stage for all soybean cultivars were used for embryo induction. The experiments utilized a Latin square design to exclude the effect of differential lighting and position due to plate location in the growth chamber on the embryogenesis process. Results indicated that the efficiency of embryo induction and yield of primary somatic embryos were genotype-dependent. In contrast, no dependence on genotype was observed for the conversion of embryos to form roots and shoots. The percentage of cotyledons that gave a positive embryogenic response ranged from 26 to 89% for the soybean cultivars tested. The average number of primary globular-stage embryos per responding cotyledon after one month on induction medium ranged from 6 to 13 among the seven cultivars. Conversion frequencies for all genotypes ranged from 27 to 45%.     

Auxin-orientation effects on somatic embryogenesis from immature soybean cotyledons

Summary Development of somatic embryos of soybeanGlycine max (L.) Merr. has been studied using cultivars J103 and McCall and five auxin-sucrose treatment: naphthalene acetic acid at 10 mg/liter with 1.5% sucrose (N10); 2,4-dichlorophenoxyacetic acid (2,4-D) at 0.25, 0.5 or 1.0 mg/liter with 1.5% sucrose (D.25, D.5 D1); and 2,4-D at 25 mg/liter with 3% sucrose (D25). Cotyledons were excised aseptically from immature embryos 3 to 5 mm in length, and placed on the media with either the adaxial or abaxial side down (adaxial or abaxial orientiation, respectively). After 30 d, numbers of normal or total somatic embryos, or both, were counted. For J103 explants on D25 or N10 media, the greatest number of embryos was produced from the central region of abaxially oriented explants on D25, but only 5% of these embryos were normal. The greatest number of normal embryos was produced from the marginal region of adaxially oriented explants on D25. For McCall explants on D.25, D.5, D1, or N10 media, the greatest numbers of normal embryos were produced from the marginal regions of abaxially oriented explants on D1 or N10. Embryo induction was examined histologically for the N10, D25, and D.5 treatment, using serial section of paraffin-embedded cotyledons stained with hematoxylin and safranin. On N10 medium, embryos were produced unicellularly, or more frauently, multicellularly, from homogeneous embryogenic tissue arising from epidermal and subepidermal cells at the distal periphery of the cotyledon. On D25 medium, embryos were produced multicellularly from a geterogeneous embryogenic tissue formed in the central region of the cytoledon, and consisting of embryogenic cells interspersed with large, vacuolate cells. The D.5 treatment showed an intermediate response. Embryo initiation in this soybean system is predominantly multicellular. This work was supported in part by a grant from Lubrizol Genetics, Inc., and by the Agricultural Experiment Station, University of Kentucky. Paper number 88-3-13 from the Kentucky Agricultural Experiment Station.     

A quantitative nature of somatic embryogenesis in soybean

Summary The objectives of this research were to investigate the genetic parameters associated with the in vitro formation of somatic embryos in soybean and to determine the effect of light intensity on the embryogenic capability of F₁, F₂, and backcross (RC₁P₁ and RC₁P₂) progenies derived from crosses between embryogenic (IAS-5 and Embrapa-1) and non-embryogenic (Paraná) cultivars. Immature cotyledons (4–6 mm in length) derived from the parental lines, F₁, F₂, RC₁P₁, and RC₁P₂ were grown for 90 d on the inductive N10 medium, after which the number of somatic embryos was recorded. Chi-square tests for goodness of fit showed that the genetic component of the somatic embryogenesis trait is controlled in a quantitative manner by approximately 10 genes. A normal distribution for somatic embryo formation in the F₂ generations was observed reinforcing the quantitative nature of the trait. Variation in light intensity (8–12 and 27–33 μmol m⁻²s⁻¹) had no effect on somatic embryo formation in the parental material tested.     

Genetic improvement of the somatic embryogenesis and regeneration in soybean and transformation of the improved breeding lines

Somatic embryos of soybean [Glycine max (L.) Merrill] have been used to generate transgenic plants by particle bombardment. The induction and proliferation of somatic embryos from immature cotyledons are dependent on the genotype of the cultivar. Whereas somatic embryogenesis and plant regeneration are inefficient in most cultivars, they are efficient in the cultivar Jack. We previously established a breeding line, QF2, by the integration of null mutations of each subunit of the major seed storage proteins glycinin and β-conglycinin, but the embryogenic response of this line is insufficient to allow efficient transformation. We have now backcrossed QF2 to cultivar Jack in order to combine the null traits with competence for somatic embryogenesis. The backcrossed breeding lines selected on the basis of the absence of the major storage proteins exhibited an improved capacity for the induction and proliferation of somatic embryos compared with that of QF2. The induced somatic embryogenic tissue of these breeding lines was successfully used for the production of transgenic plants by particle bombardment. These results also indicate that somatic embryogenesis in soybean is genetically controlled and inherited in a manner independent of the null traits of the major seed storage proteins.     

Adventitious organogenic regeneration from soybean genotypes representing nine maturity groups

In the US, soybean genotypes are classified into maturity groups (MG; total of 13) that represent areas of adaptation generally correlated with latitude bands. To determine if one regeneration procedure could regenerate representatives from diverse areas of adaptation, 18 soybean genotypes representing nine MG were compared for organogenic adventitious regeneration and plant formation from hypocotyl explants following the procedure previously tested on representatives from only three MG. Responding explants were those capable of producing shoots on the acropetal end of the explant from either the outer edge plus central region or the central region only. This enabled determination of the contribution of cotyledonary nodal tissue (outer edge) to shoot regeneration and by discounting those explants, it also enabled estimates of true adventitious regeneration. All 18 genotypes were capable of producing meristemoids/shoots solely from the central region with responses ranging from 28.5 to 64.3% after 4 weeks in culture. All genotypes were also capable of producing elongated shoots that could be successfully rooted. No morphological differences were noted among regenerants, or between them and seed-initiated plants. All regenerants produced viable seed which germinated and produced morphologically normal plants. This study confirmed the genotype- and MG-independent nature of this hypocotyl-based organogenic regeneration procedure and provided conservative estimates for responses that were truly/solely adventitious in nature.     

In vitro synthesis of the Bowman-Birk and related soybean protease inhibitors

Poly (A)⁺ RNAs from immature soybean seeds were size fractionated in denaturing sucrose gradients to identify mRNA that directs the cell-free synthesis of the Bowman-Birk protease inhibitor and the related inhibitors PI I–IV. Polypeptides synthesized in vitro were labeled with (³⁵S)-cysteine and (³H)-serine and detected by immunoprecipitation with anti Bowman-Birk and anti PI I–IV sera. Immunoprecipitates of the translation products comigrated on SDS-polyacrylamide gels with the dimeric or trimeric aggregates of the authentic inhibitor proteins, which self-associate under certain conditions. Further evidence that these immunoprecipitates contained authentic polypeptides corresponding to the Bowman-Birk or PI IV inhibitor was shown by sequential amino acid analyses of peptides generated by cleavage with cyanogen bromide.     

Genotype effects on proliferative embryogenesis and plant regeneration of soybean

Summary Proliferative somatic embryogenesis is a regeneration system suitable for mass propagation and genetic transformation of soybean [Glycine max (L.) Merr.]. The objective of this study was to examine genotypic effects on induction and maintenance of proliferative embryogenic cultures, and on yield, germination, and conversion of mature somatic embryos. Somatic embryos were induced from eight genotypes by explanting 100 immature cotyledons per genotype on induction medium. Differences in frequency of induction were observed among genotypes. However, this step was not limiting for plant regeneration because induction frequency in the least responding genotype was sufficient to initiate and maintain proliferative embryogenic cultures. Six genotypes selected for further study were used to initiate embryogenic cultures in liquid medium. Cultures were evaluated for propagation of globular-stage tissue in liquid medium, yield of cotyledon-stage somatic embryos on differentiation medium, and plant recovery of cotyledon-stage embryos. Genotypes also differed for weight and volume increase of embryogenic tissue in liquid cultures, for yield of cotyledon-stage embryos on differentiation medium, and for plant recovery from cotyledon-stage embryos. Rigorous selection for a proliferative culture phenotype consisting of nodular, compact, green spheres increased embryo yield over that of unselected cultures, but did not affect the relative ranking of genotypes. In summary, the genotypes used in this study differed at each stage of plant regeneration from proliferative embryogenic cultures, but genotypic effects were partially overcome by protocol modifications.     

Evaluation of soybean RFLP marker diversity in adapted germ plasm

Summary Soybean RFLP markers have been primarily developed and genetically mapped using wide crosses between exotic and adapted genotypes. We have screened 38 soybean lines at 128 RFLP marker loci primarily to characterize germ plasm structure but also to evaluate the utility of RFLP markers identified in unadapted populations. Of these DNA probes 70% detected RFLPs in this set of soybean lines with an average polymorphism index of 0.30. This means that only 1 out of 5 marker loci was informative between any particular pair of adapted soybean lines. The variance associated with the estimation of RFLP genetic distance (GD_R) was determined, and the value obtained suggested that the use of more than 65–90 marker loci for germ plasm surveys will add little precision. Cluster analysis and principal coordinate analysis of the GD_R matrix revealed the relative lack of diversity in adapted germ plasm. Within the cultivated lines, several lines adapted to Southern US maturity zones also appeared as a separate group. GD_R data was compared to the genetic distance estimates obtained from pedigree analysis (GD_P). These two measures were correlated with r = 0.54 for all 38 lines, but the correlation increased to r = 0.73 when only adapted lines were analyzed.     

Towards normalization of soybean somatic embryo maturation

Soybean (Glycine max L. Merrill) somatic embryos have been useful for assaying seed-specific traits prior to plant recovery. Such traits could be assessed more accurately if somatic embryos more closely mimicked seed development. Amino acid supplements, carbon source, and abscisic acid and basal salt formulations were tested in an effort to modify existing soybean embryogenesis histodifferentiation/maturation media to further normalize the development of soybean somatic embryos. The resultant liquid medium, referred to as soybean histodifferentiation and maturation medium (SHaM), consists of FNL basal salts, 3% sucrose, 3% sorbitol, filter-sterilized 30 mM glutamine and 1 mM methionine. SHaM-derived somatic embryos are more similar to seed in terms of protein and fatty acid/lipid composition, and conversion ability, than somatic embryos obtained from traditional soybean histodifferentiation and maturation media.     

Cotransformation frequencies of foreign genes in soybean cell cultures

Summary Through the use of electroporation and a soybean (Glycine max L.) protoplast system, we generated stably transformed cell lines expressing a number of foreign genes (neomycin phosphotransferase,-glucuronidase, chloramphenicol acetyl transferase, and phosphinothricin acetyl transferase). Selected and unselected marker genes were cointroduced either linked on a single plasmid or as separate plasmids. Calli expressing multiple genes were recovered, and Cotransformation frequencies were established for both cases. Our results show a 50% cotransformation frequency in the case of linked genes. In situations in which two genes are introduced on independent plasmids, cotransformation frequencies are 18%–27%. Similar rates of cotransformation were observed among various marker pairs.     

In vitro plant regeneration via somatic embryogenesis from root culture of some rhizomatous irises

A method for plant regeneration of Iris via somatic embryogenesis is described. Root and leaf pieces from in vitro-grown plants of several genotypes of rhizomatous Iris sp. were cultured in vitro. Callus induction occurred only on root cultures incubated under low light intensity (35 mol m^-2 s^-1) on two induction media containing 2,4-D (4.5 or 22.5 M), NAA (5.4 M) and kinetin (0.5 M). Somatic embryos developed after transfer of callus onto four regeneration media containing 9 or 22 M BA, or 5 M kinetin and 2 M TIBA or 9 M BA and 4 M TIBA. Plantlets could be obtained from these somatic embryos. Genotypic differences were found both in callus induction and somatic embryo formation, with I. pseudacorus responding better than I. versicolor or I. setosa. Cytological analysis performed on root tips of 80 regenerated plants revealed that two of the I. pseudacorus regenerants were tetraploid.Abbreviations 2,4-D dichlorophenoxy acetic acid - NAA naphthaleneacetic acid - BA 6-benzyladenine - TIBA 2,3,5-triiodobenzoic acid - IBA indolebutyric acid     

In vitro regeneration in Trifolium. 1. Direct somatic embryogenesis in T. rubens (L.)

The origin and development of zygotic and somatic embryos of Trifolium rubens L. was studied with the aid of paraffin sections and light microscopy. Zygotic embryos were collected, fixed and prepared daily from one to ten days after cross-pollination. Somatic embryos were obtained by plating petiole sections on modified L2 medium with 0.015 mgl^-1 picloram and 0.1 mgl^-1 6-BAP. Cultured petioles were collected and fixed daily from one to 25 days after plating. Two regions in the vascular bundle sheath of cultured petioles gave rise to callus. The first region was adjacent to the phloem fibers and produced friable callus. The second region gave rise to compact callus that was connected to the fascicular cambium. Somatic embryos originated from single cells in the cortex directly without intervening callus formation and from single cells in the friable callus. In addition, embryos arose from meristematic regions in compact callus. Many early stages of embryogenesis (one, two and four-celled stages) were observed in the cortex and friable callus. Zygotic embryogenesis in Trifolium differs from other legumes in that the suspensor is short and has a broad attachment. This arrangement was observed in zygotic embryos of T. rubens and in many somatic embryos. However, a continuum of somatic embryogenesis was observed where some young embryos had a Trifolium suspensor-like arrangement while others were attached to a long narrow suspensor-like structure more characteristic of Medicago.     

In vitro somatic embryogenesis in two major rattan species: Calamus merrillii and Calamus subinermis

Summary Occurrence of somatic embryogenesis in in vitro cultures of Calamus merrillii and Calamus subinermis, two major largecaned rattan species, was scientifically demonstrated for the first time. Tissue responsiveness varied markedly according to the species and the type of primary explants used when initiated on 10.4–31.2 μM picloram-enriched Murashige and Skoog callus induction media. In C. merrillii, within 6 wk after inoculation, 84% of the leaf and 90% of the zygotic embryo explants produced friable embryogenic calluses, by contrast with those formed by 74% of the root explants. In C. subinermis, callogenesis was observed only 6 mo. after inoculation in 68% of root and 48% of zygotic explants. Leaf explants did not respond at all. Only root-derived calluses developed into nodular embryogenic structures. Irrespective of these initial differences, the further steps of the somatic embryogenesis developmental pattern was similar for both species. Histological analyses established that callus formation took place in the perivascular zones, and could give rise to embryogenic isolated cells from which the proembryos were derived. Reducing the picloram concentration stimulated the maturation process resulting ultimately in the germination of somatic embryos that exhibited bipolar development, despite an apparent lack of starch and protein reserves. The somatic embryo-derived plantlets of C. merrillii, overall more prone to somatic embryogenesis than C. subinermis in the given conditions, were successfully acclimatized to outdoor conditions.     

Fatty acid composition of soybean (Glycine max (L.) merr.) somatic embryos

Summary Somatic embryos from four soybean cultivars were matured for 30 and 45 d. Success of embryo germination was evaluated for each length of maturation. The percentage of somatic embryos undergoing successful germination, as defined by rooting and shoot emergence, was greater for embryos matured 45 d than for embryos matured 30 d. Therefore, embryos matured for 45 d are probably physiologically more mature than embryos matured for 30 d. Relative percentages of fatty acids comprising oils and lipids of somatic embryos were determined for each length of maturation and for each cultivar. Variation in relative percentages of palmitic acid, oleic acid, and linoleic acid was affected by length of maturation. However, these changes were genotype dependent. A significant interaction between the cultivars Clark and Maple Arrow and stage of maturation was observed for levels of oleic acid. No other interactions were observed. These data suggest that if changes in relative percentages of certain fatty acids are associated with soybean somatic embryo maturation the changes are genotype dependent. This is journal paper No. J-12870 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa. Project No. 2763. Mention of a trademark or proprietary product does not constitute a guarantee or warranty of the product by the United States Department of Agriculture and does not imply its approval to the exclusion of other products that also may be suitable. This research was supported in part by grants from the American Soybean Association Development Foundation and the Iowa Soybean Promotion Board.     

Continuous long-term somatic embryogenesis in alfalfa

Summary Somatic embryogenic callus was induced on two induction media, B5h and SH4K. Embryos formed on the callus induced on B5h medium when the callus was still on the induction medium. On the other hand, embryos could not form on the callus induced on SH4K medium unless the callus was transferred to a growth regulator-free medium. Callus induced and maintained on B5h medium lost embryogenic capability quickly during the subculture. Callus induced and maintained on SH4K medium, however, consistently remained highly embryogenic. The callus mass showed steady increase during its maintenance on SH4K medium. The embryos induced on SH4K medium showed vigorous germination. Normal and fully fertile plants were recovered from the embryos developed from the callus maintained on SH4K medium.     

Culture of soybean fruit explants: growth conditions and efficiency of nitrogen sources for reserve protein synthesis

A system was devised for the in vitro culture of soybean fruits. The culture system consisted of a single fruit attached to a short piece of stem through which the nutrients were supplied. The fruit explants were taken when pods were fully expanded and the seeds at initial stages of growth. During a 7-day culture period, the seeds accumulated dry matter and protein in quantities comparable to those in situ. Omission of the C source (sucrose) from the medium resulted in no dry matter accumulation in the seeds, but omission of the N source (glutamine) still led to some protein accumulation, indicating mobilization of N from other parts of the fruit explant. Optimum protein accumulation occurred when glutamine was supplied at 1.2 mg N ml^-1. Protein accumulation in the seeds was highly dependent on the nature of the N source. Glutamine, asparagine and the ureide, allantoin, were equally the most efficient sources, whereas several other amino acids tested showed lower degrees of efficiency. The data indicate a high metabolic capacity of the fruit tissues for principal N transport compounds of soybean, namely allantoin, asparagine and glutamine. The culture system described should prove useful for developmental and metabolic studies where the complex influence of the rest of the plant is to be avoided.Abbreviations ALN allantoin - ALC allantoic acid Preliminary report presented at the IV World Soybean Research Conference, Buenos Aires, Arggentina, March 1989.     

Improvement of somatic embryogenesis in zonal geranium

A number of media constituents including sucrose, ammonium nitrate and plant growth regulators were evaluated in an attempt to improve somatic embryo production in zonal geranium (Pelargonium ×hortorum) cv. Scarlet Orbit Improved. Somatic embryo production was characterized by the quantity and type of somatic embryo induced by the treatments. Sucrose at 4% supported the highest number of total somatic embryos while improving the proportion of the morphologically normal cotyledon-stage somatic embryos. Addition of ammonium nitrate also improved embryo production. With 1.89 mM ammonium nitrate, normal cotyledon-stage embryo development was increased by 53%; the proportion of normal cotyledon-stage embryos decreased and abnormal embryos with leaves or serrated margins in cotyledons (fringed-shoot type) increased with higher ammonium nitrate concentrations. The effect of plant growth regulators on somatic embryogenesis indicated that exogenous supply of indole-3-acetic acid (IAA) at a range of 0.25 to 4 μM failed to promote somatic embryogenesis. In contrast, benzyladenine (BA) up to 2.0 μM increased the total embryo number and the proportion of desirable cotyledon-stage embryos. There was no interaction between IAA and BA. Our research has demonstrated that improvement in both quantity and quality of somatic embryos can be achieved in zonal geranium.     

Induction and development of somatic embryos from cell suspension cultures of soybean

Glycine max (L.) Merr. (soybean) andGlycine soja Sieb. and Zucc. cell suspension cultures were grown and used as inoculum sources for growing callus on agar-solidified nutrient media. Concentrations and chemical forms of the growth regulators in liquid and solidified media were altered in an attempt to achieve in vitro plant regeneration. Numerous embryoids, particularly ofG. soja, were produced on basal nutrient media supplemented with 100 ppm casein hydrolysate, 0.1 μM abscisic acid, 2.25 μM 2,4-dichlorophenoxyacetic acid, and 15 μM adenine or 0.46 μM kinetin. Often the roots of the embryoids elongated. This was enhanced in the presence of an inhibitor of gibberellin synthesis (1 to 20 μM Amo 1618). Callus recovered from aG. soja suspension culture produced one shoot structure when grown on a solid medium containing 0.2 μM Amo 1618 and 80 μM glutathione. The shoot structure consisted of two distinct buds, one producing two leaves. The shoot did not develop into a plant. Although regeneration of soybean plants was not achieved, these observations suggest that it may be achievable. The investigations reported in this paper (no. 81-3-100) were performed in connection with a project of the Kentucky Agriculture Experimental Station and the paper is published with the approval of the Director.     

In vitro root induction by 24-epibrassinolide on hypocotyl segments of soybean [Glycine max (L.) Merr.]

Soybean hypocotyl segments were treated in the dark with 24-epibrassinolide (BR) at a range of concentrations for different durations. The maximum effect on adventitious root induction, both in terms of number and length was obtained at very low concentration (0.0001 ppm) of BR applied for 8 h. Higher concentrations were supraoptimal unless applied for a shorter period (4 h). BR was ineffective when applied at low concentration in continuous light.