In vitro germination of wheat proembryos to fertile plants

Summary Wheat proembryos were excised 7 days after anthesis and germinated to normal fertile plants with an efficiency of 90%. These embryos had clearly differentiated shoot apical meristems and represent an interesting model system for studies of meristem biology. A combination of two media with different osmolarities allowed the continued development of the embryos before induction of germination. Normal germination occurred only after the first leaf primordium had already covered the shoot apical meristem.     

Cold stratification and growth of radicles of loblolly pine (Pinus taeda) embryos

The mechanism of germination enhancement by cold stratification was examined in seeds of loblolly pine ( Pinus taeda L. ), Removal of the seed coat permitted elongation of radicles from unstratified embryos, but both rates of germination and radicle elongation were increased by stratification. Radicles of both stratified and unstratified embryos excised from the megagamethophyte elongated only when in contact with solid incubation media supplemented with sucrose. Stratification of embryos either in the presence or absence of the megagametophyte resulted in similar enhancement of radicle elongation. Elongation rates of radicles were increased after stratification independent of sucrose concentration, and changes in sucrose content in the megagamethophyte during stratification or incubations subsequent to stratification were insufficient to regulate radicle growth. Our results support the hypothesis that the embryos of pine seeds perceive the low temperature stimulus directly and this stimulus results in a growth potential increase in the embryonic axes. We propose that this growth potential increase enables the embryos to overcome the mechanical restraint of the seeds coats and to germinate.     

Acceleration of germination and early growth of wheat and bean seedlings grown under various magnetic field and osmotic conditions

Magnetic field (MF) can have different effects on plant metabolism depending on its application style, intensity, and environmental conditions. This study reports the effects of different intensities of static MF (4 or 7 mT) on seed germination and seedling growth of bean or wheat seeds in different media having 0, 2, 6, and 10 atmosphere (atm) osmotic pressure prepared with sucrose or salt. The germination percentages of the treated seeds were compared with untreated seeds germinated in different osmotic pressure during 7 days of incubation. The application of both MFs promoted the germination ratios of bean and wheat seeds, regardless of increasing osmotic pressure of sucrose or salt. Growth data measured on the 7th day showed that the treated plants grew faster than control. After 7 days of incubation, the mean length of treated seedlings was statistically higher than control plants in all the media. The greatest germination and growth rates in both plants were from the test groups exposed to 7 mT MF. Strikingly, effects of static MF on germination and growth increased positively with increasing osmotic pressure or salt stress compared to their respective controls. On the other hand, MF application caused an increase in dry biomass accumulation of root and shoots of both seedlings; however, this effect was found statistically important in all the conditions for wheat but not for bean, in general. Bioelectromagnetics 31:120–129, 2010. © 2009 Wiley‐Liss, Inc.     

An analysis of seed development in Pisum sativum. VII. Embryo development and precocious germination in vitro

Three different culture media have been examined for their ability to support growth in culture of embryos of two pea lines near-isogenic except for the r-locus. Embryos showed a greater increase in fresh weight on a medium containing 10% sucrose and a high level of a mixture of amino acids than on either one containing an equivalent amount of glutamine as the sole nitrogen source or one containing both inorganic nitrogen and a low level of glutamine. Small embryos (up to 10 mg fresh weight) showed the greatest relative increase in fresh weight. Decreasing the osmotic pressure of an agar medium by lowering the sucrose content to 2% and reducing the concentration of amino acids induced precocious germination. Shoot growth was more sensitive than root growth to increasing sucrose concentrations and optimum development was obtained when embryos were cultured in liquid culture at a high osmotic pressure followed by growth on an agar medium at low osmotic pressure. Alternatively, precocious germination could be induced by removing the cotyledons. Embryos of all sizes and of both genotypes of pea responded in a similar manner.     

Effect of medium osmotic potential on callus induction and shoot regeneration in flax anther culture

Development of an efficient and cost-effective doubled haploid production system in flax (Linum usitatissimum L.) is the prerequisite for the application of doubled haploid technology in a practical breeding program. Pre-culture of anthers on a medium containing 15% sucrose for 2–7 days before transfer to the same medium containing 6% sucrose for a total of 28 days culture period significantly increased shoot regeneration for all four genotypes evaluated. Moreover, pre-culture of anthers on medium containing 15% sucrose for 2–7 days was sufficient to dramatically reduce the frequency of shoot regeneration from somatic tissues and thereby to increase the frequency of microspore-derived plants in flax anther culture. Furthermore, replacing 15% sucrose with 6% sucrose and 9% polyethylene glycol (PEG), or 3% sucrose and 12% PEG, in pre-culture medium did not significantly affect callus induction and shoot regeneration. The results indicate that sucrose may act as carbon/energy source as well as an osmotic regulator in flax anther culture. Sucrose as an osmotic regulator may be replaced by a non-metabolizable osmoticum: PEG. The implication of this study in flax anther culture and breeding is discussed.     

The effect of the suspensor and gibberellic acid on Phaseolus vulgaris embryo protein content

The role of the suspensor in the early development of the dicot embryo has not yet been defined. It has been described as merely an anchor and also as the major route of nutrients into the embryo. In order to further elucidate the role of the suspensor, early 0.2-mm and late heart stage 0.5-mm Phaseolus vulgaris (var. Taylor's Horticultural) embryos have been examined in tissue culture. It is known that Phaseolus embryos in culture at low osmotic potential will germinate precociously and that embryos in culture at high osmotic potential will either fail to grow or form callus. Optimum sucrose concentrations for continued, normal embryonic development of 0.2 mm and 0.5 mm P. vulgaris in tissue culture with Gamborg B5 medium were determined to be 12 and 6%, respectively. Protein content was examined in embryos and suspensors. Results showed that both 0.2- and 0.5-mm embryos required an attached suspensor for maximum protein content. Protein levels were substantially decreased when the embryo was cultured detached from or without the suspensor. Gibberellic acid at 10(-6) to 10(-7) M restored the protein content to that of freshly excised embryos.     

THE PHYSICAL AND CHEMICAL ENVIRONMENT OF THE DEVELOPING EMBRYO OF PINUS RESINOSA

The relationship between changes in soluble protein, hexose sugar, total lipid concentration, and osmotic potential occurring in gametophytic supernatant of Pinus resinosa Ait. during in vivo embryogenesis was measured. The effects of varying sucrose levels of culture medium on in vitro embryo and gametophyte development were examined. Increases in embryo volume, and fresh and dry weight of the female gametophyte during in vivo embryogenesis coincide with increasing levels of soluble protein, hexose sugar, and total lipid in the gametophytic supernatant. In contrast, osmotic potential of the supernatant increased only slightly between the zygote and proembryo stages of embryo development, and remained constant thereafter. Gametophytes plus embryos grown in vitro achieved dry weights approaching those of in ovulo gametophytes on media containing levels of sucrose up to 21%. Gametophytes on media with sucrose concentrations up to 21% also resembled normal in ovulo gametophytes in appearance. However, embryo development appeared to be suspended on treatment media containing from 9% to 21% sucrose, while embryos degenerated on media with constant sucrose levels of 3% and 6%. A treatment medium containing approximately 12% sucrose would provide an osmotic environment that duplicates that found in ovulo. While greater sucrose levels promoted more normal gametophyte development in Pinus resinosa, we failed to achieve complete development of the embryo in vitro. Conclusions and implications drawn from these results are discussed.     

Maturation of black spruce somatic embryos: Sucrose hydrolysis and resulting osmotic pressure of the medium

The physiological and osmotic roles of sucrose during black spruce (Picea mariana (Mill.) B.S.P.) embryo maturation were investigated. The results showed that when both sucrose and mannitol were present in the medium, the optimum sucrose concentration varied between 4% and 6%. From these data, mannitol does not apparently replace sucrose during the maturation of somatic embryos and therefore it might not be a suitable osmoticum. For the media supplemented with 4% to 12% sucrose and various concentrations of mannitol, the osmotic pressure of the medium rose during maturation, particularly for the highest sucrose concentrations (7% to 12%). Medium containing 3% each of fructose and glucose produced fewer mature embryos compared to the medium with 6% sucrose. An increment in the osmotic potential was observed in medium with 6% sucrose in contrast to that containing 3% each of fructose and glucose. Sugar analysis revealed that the sucrose hydrolysis in the medium was detectable within 1 week of incubation and continued throughout the maturation period. Moreover, no significant uptake of the sugars was detected, since the total amount of fructose, glucose and sucrose remained constant. Our results indicate that the action of sucrose on embryo maturation is mostly achieved through an osmotic control.     

Control of in vitro somatic embryogenesis of the spindle tree (Euonymus europaeus L.) by the sugar type and the osmotic potential of the culture medium

 In vitro somatic embryogenesis was achieved from zygotic embryo explants of a woody angiosperm species, the spindle tree, cultivated on various culture media differing in their sugar type and concentration, or in the applied osmotic potential. The highest frequency of somatic embryogenesis was obtained with a 350 mM sucrose, or a 89 mM glucose concentration in the culture medium. Experiments with culture media differing only in osmotic potential indicated that a minimal threshold osmotic potential is required to stimulate the emergence of somatic embryos. Elevated concentrations of glucose have an inhibitory effect, independent of their osmotic effect, while elevated concentrations of sucrose mainly act osmotically, stimulating the emergence of numerous somatic embryos. Received: 15 July 1997 / Revision received: 27 October 1997 / Accepted: 24 March 1998     

Changes in water relations and endogenous abscisic acid content of wheat and barley grains and embryos during development

Abstract. Immature cereal embryo development can be controlled by in vitro culture on media containing ABA, or by media of low osmotic potential. To assess the possible in vivo roles of these factors, endogenous ABA levels and water relations of embryos and grains of wheat ( Triticum aestivum L.) and barley ( Hordeum vulgare L.) were determined during development. ABA concentrations remained consistent with those required to inhibit precocious germination in vitro of early stage embryos but not of more mature embryos. With increasing maturity, a difference in water potential developed between grain and embryo, suggestive of an in vivo role for water status in controlling the development of the embryo.     

Effect of exogenous ABA on somatic embryo maturation and germination in Persian walnut (<Emphasis Type="Italic">Juglans regia</Emphasis> L.)

Low efficiency of embryo maturation, germination and conversion to plantlets is a major problem in many species including Persian walnut. We studied the effects of abscisic acid (ABA) and sucrose, on the maturation and germination of Persian walnut (Juglans regia) somatic embryos. Individual globular somatic embryos were grown on a maturation medium supplemented with different combinations of ABA and sucrose for ca. 1 month, until shoot meristems and radicles had developed. White and opaque embryos in late cotyledonary stage were subjected to desiccation after the culture period on maturation media. The number of germinated somatic embryos was influenced by the concentrations of ABA in the maturation medium. The best treatment for germination, in which both shoot and root were developed contained 2 mg l⁻¹ ABA and resulted in 41% conversion of embryos into plantlets. Regeneration was reduced at higher levels of ABA. While ABA always reduced the rate of secondary embryogenesis, treatments containing 4.0% sucrose significantly increased the number of secondary embryos. On the other hand, sucrose had little influence on maturation. Normal and abnormal embryos were verified anatomically.     

Dormancy induction of somatic embryos of Siberian ginseng by high sucrose concentrations enhances the conservation of hydrated artificial seeds and dehydration resistance

. In most plants, somatic embryos tend to germinate prematurely, a process that is detrimental to controlled plant production and the conservation of artificial seeds. We investigated the dormancy characteristics of Siberian ginseng somatic embryos induced simply by a high sucrose treatment, a treatment that enables the long-term conservation of artificial seeds following encapsulation and provides embryos with an enhanced resistance to dehydration. Early-cotyledonary stage somatic embryos were mass-produced by means of bioreactor culture. These embryos were then plated on medium supplemented with various levels of sucrose (1%, 3%, 6% or 9%) and allowed to mature. Subsequent germination of these embryos following the maturation period depended significantly on the sucrose level. At concentrations of 9% sucrose, none of the somatic embryos germinated after maturation, and none were recovered after being transferred to half-strength MS medium containing 2% sucrose. Gibberellic acid treatment was necessary to induce germination; other growth regulators such as auxins and cytokinins did not induce a response. Endogenous abscisic acid content in somatic embryos matured at 9% sucrose (487.8 ng/g FW) was approximately double that found in those matured at 3% sucrose (258.4 ng/g FW). This indicates induced dormancy in embryos under high osmotic stress. Alginate encapsulation of embryos facilitated the artificial induction of dormancy to extend the conservation period without germination. The induction of dormancy strengthened resistance to dehydration after the embryos were desiccated to 15% of their normal water content. Reduced chances of embryo survival during long-term desiccation were distinctly delayed in dormant embryos. These results indicate that the induction of dormancy in embryos is a promising application for synthetic seed production.     

Maturation of somatic embryos of Pinus strobus is promoted by a high concentration of gellan gum

Application of somatic embryogenesis to Pinus strobus clonal propagation and genetic improvement was hampered by the difficulty in achieving synchronous maturation of a large number of somatic embryos that would germinate and produce plants. Media containing abscisic acid (80 μ M ) and osmotic agents such as sucrose, polyethylene glycol and/or dextran did not sustain development of mature somatic embryos from plated embryonal masses. This indicated that factors other than osmotic agents might be involved in sustaining development of Pinus strobus somatic embryos to maturity. It was subsequently found that media lacking osmotica but containing a high concentration of gellan gum (1%) induced significant improvement in the development of mature somatic embryos in the presence of 80 or 120 μ M abscisic acid. This positive effect was independent of the genotype and all four tested lines displayed similar responses. Media containing gellan gum at concentrations from 0.4 to 1.2% formed gels that varied in their strength. Gel strength was proportional to the concentration of gellan gum in the specific medium but varied depending on the medium formulation. Gel strength increased with the duration of storage of the culture medium by 46% (SD 14) after 14 days of storage. Preliminary results showed that embryos matured on high gellan gum media displayed improved germination frequencies. These results indicate that in Pinus strobus the water status and possibly other medium characteristics that are influenced by increased concentration of gelling agent have stimulatory effects on maturation of somatic embryos.     

Assessment of polyembryony in lemon: rescue and in vitro culture of immature embryos

The 27 lemon cultivars analysed could be considered slightly or moderately polyembryonic, with 25 to 43% of seeds being polyembryonic and from 1.3 to 1.6 embryos per seed. On this basis, it is necessary to rescue zygotic embryos at an immature stage. Rescue and in vitro embryo development have been studied in two Citrus limon polyembryonic cultivars. Sucrose (50 and 70 g/l) was combined with Murashige and Skoog and Gamborg’s B5 media and tested for optimal growth response. An important effect of genotype was observed: embryos from cultivar ‘Eureka’ had greater survival, germination percentage, and radical development. While the sucrose concentration in the medium did not have an effect on germination, the medium affected the embryo survival and root development of the seedlings, Gamborg’s B5 medium giving the best results. The ability to form plants in vitro was affected by an increase of embryo developmental stage. The germination and seedling height were greater with embryos of seeds collected 135–150 days after anthesis.     

Somatic embryogenesis on Thin Cell Layers of a C4 species,Digitaria sanguinalis (L.) Scop

Somatic embryogenesis was obtained from transverse thin cell layers (tTCLs) of Digitaria sanguinalis. tTCLs (0.2 - 0.4mm thick, 1mm in diameter) were excised from 4-week-old seedlings and placed onto Murashige and Skoog media supplemented with a varying concentration of 2,4-dichlorophenoxyacetic acid (2,4-D) (from 1 μM to 100 μM) and sucrose (from 3% to 24%). Somatic embryos were obtained in the dark 7-10 days after inoculation from tTCLs excised at specific levels on the seedling and cultured in the presence of 2,4-D (5 μM to 10 μM) and sucrose (3 to 6%). The exposure of the tTCLs to light decreased the percentage of tTCLs forming somatic embryos. Viable plantlets were obtained 2 weeks after transfer onto a cytokinin-containing medium. This revised version was published online in June 2006 with corrections to the Cover Date.     

Recovery of cassava (Manihot esculenta Crantz) plants from culture of immature zygotic embryos

An embryo culture protocol using immature cassava seeds has been developed to enhance successful seed germination and reduce time for population establishment. Embryonic axes were excised from seeds 40 days after pollination and placed on 1/3 MS medium supplemented with growth factors. Fruits were either air-dried at 20 °C to aid dehiscence, or dissected immediately after harvest. Culture of embryonic axes from seeds obtained from mature fruits (90 days after pollination) served as control. Average percent germination and plantlet recovery rate were higher for embryos cultured from non air-dried immature seeds than from air-dried immature seeds. Immature seeds that were air-dried before germination had ≥50% reduction in germination rate and ≥75% reduction in plantlet recovery rate, indicating that cassava immature zygotic embryos are susceptible to osmotic pressure changes. Genotypic effects were observed in shoot elongation, formation of internodes, and vigor of cultures from both mature and immature seeds. The high percentage of plants recovered from immature seeds through embryo culture opens up opportunities for genetic stock development in cassava that has been previously unexplored. This revised version was published online in June 2006 with corrections to the Cover Date.     

Embryo yield in wheat anther culture is influenced by the choice of sugar in the culture medium

Summary The effect of employing different sugars in wheat anther culture has been investigated using four Spring wheat cultivars. The most responsive cultivar, Orofen, gave a three to four-fold increase in embryo yield when maltose was used in place of sucrose, with 50 embryos being produced for every 100 anthers cultured. Measurement of sugar concentrations in the culture media indicated that sucrose was more rapidly hydrolysed than maltose. However, neither the osmotic potential of the medium nor the concentration of glucose appeared to be critical factors in determining embryo yield.     

In vitro zygotic embryo germination and propagation of an endangered Boswellia serrata Roxb., a source of boswellic acid

This study aims to establish an efficient protocol for development of seedlings of an endangered medicinally important forest tree Boswellia serrata Roxb., for mass plantation and consistent supply of salai guggul. The green mature fruits served as source of seeds. The excised green zygotic embryos were cultured on Gamborg (B5), McCown and Loyd (WPM) and Schenk and Hildebrandt (SH) media fortified with different concentration of sucrose and on Murashige and Skoog (MS) medium containing 3 % sucrose, polyvinylpyrrolidone (PVP) (0–300 mg l^−l), Gibberellic acid (GA₃), Indoleacetic acid (IAA), Naphthaleneacetic acid (NAA), Indole-3-Butyric acid (IBA) or 2,4-dichlorophenoxyacetic acid (2,4 D) and 6-benzylaminopurine (BA) or kinetin (Kin) individually. The highest frequency of embryo germination (96 %) and conversion into seedling was obtained on MS medium containing 3 % sucrose together with 200 mg l^−l PVP; other media were either inferior or induced abnormalities in the seedlings including callus formation from the zygotic embryos. Fully developed seedlings could be successfully established in soil with about 94 % survival. The embryos from mature dry seeds did not respond for germination in any of the experiments. In conclusion, selection of zygotic embryo from green mature seeds and their in vitro germination is important for propagation of B. serrata.     

Temperature and water requirements for germination and effects of discontinuous hydration on germinated seed survival in Tillandsia recurvata L.

Tillandsia recurvata is an epiphytic bromeliad with a wide distribution in the Americas; however, little is known about the development of its post-seminal adaptations for survival in epiphytic environments. The purpose of this study was to define the temperature and water requirements for the germination of T. recurvata seeds. The absence of radicle emergence in T. recurvata seeds resulted in 2?stages of germination: swollen with broken seed coat (stage-1) and chlorophyllic embryos (stage-2). The effects of partial or discontinuous hydration on germinated seed survival were also assessed. The seeds were collected in a semi-arid shrubland of Mexico City. We explored: (1) whether water vapour can provide a sufficient water source for germination; (2) the temperature required for germination stage-1 and the optimal and critical osmotic potentials for germination in both germination stages; (3) the effect of seed incubation at different osmotic potentials that undergo subsequent dehydration on their survival in stage-2; and (4) the loss of dehydration tolerance during early post-seminal development. In addition, an image of T. recurvata seed anatomy was obtained to illustrate its structures. Germination stage-1 of T. recurvata seeds is rather similar across the tested temperature range. The seeds required to be in contact with liquid water to germinate. The interval of osmotic potential facilitating both germination stages was from 0 to ?0.6?MPa. Although germinated seeds displayed dehydration tolerance, this tolerance decreased in germination stage-2. The osmotic potential during germination affected the tolerance of the chlorophyllic embryos (stage-2) to subsequent dehydration.     

Carbohydrate status in dormant and afterripened excised wild oat embryos

Germination and carbohydrate concentrations were determined in excised dormant and afterripened wild oat (Avena fatua L. line M73) embryos cultured on N6 medium with and without 88 mM fructose (Fru). Without Fru dormant embryos began to germinate after approximately 2 weeks, and the germination rate was greater at 12 than 16°C. With addition of Fru 80% of dormant embryos germinated in 3 days. More than 80% of afterripened embryos germinated within 1 day on N6 with or without additional sugars. Therefore, relative to afterripened embryos, true embryo dormancy exists in line M73. Concentrations of starch and soluble sugars were initially similar in dormant and afterripened embryos. Culturing dormant and afterripened embryos on medium with Fru resulted in concentrations of glucose (Glu), sucrose (Sue), Fru and maltose (Mal) that were the same or higher than the initial levels. The concentration of starch in embryos initially increased slightly then remained constant or declined, except in dormant embryos on Fru-amended medium, where starch accumulated to 34 μg Glu equivalents (mg fresh weight)^-1 at 52 h. Raffinose (Raf) and stachyose (Stach) concentrations declined over time in all embryos. Carbohydrate concentrations in afterripened embryos on medium without Fru decreased to nearly undetectable levels by 52 h. Soluble sugar concentrations in dormant embryos on medium without Fru also declined by 52 h, but changes were not as extensive as those in afterripened embryos without Fru. In 52 h Raf and Stach were nearly depleted in all afterripened embryos, and in dormant embryos cultured on Fru-containing medium but not in dormant embryos without Fru. The concentration of Stach in dormant embryos without Fru declined 60% at 12 to 18 days coinciding with the potential for germination. The results demonstrate that a decline in Stach concentration is associated with the potential for germination of dormant (D) excised embryos. The mechanism of dormancy-breaking associated with the Raf family oligosaccharides remains to be determined.