温度和水分对不同基因型小麦未成熟胚体细胞胚胎发生以及分化能力的影响

对小麦未成熟胚盾片组织离体再生途径中,未成熟胚发育时期以及不同小麦品种的体细胞胚发生能力和体细胞胚的分化能力进行了研究,在所 试的14个小麦品种中,筛选出具有很强的体细胞胚发生能力和体细胞胚分化能力的4个品种,西农1376、盐2号、85＋1－3和宝丰7228。为进一步给小麦离体遗传操作打下基础,研究还对温度的影响进行了分析。通过低温手段解决了胚性愈伤组织随继代天数的延长体细胞胚分化能力快速降低的问题,同时研究还首次分析了干燥处理对小麦体细胞胚转换能力的影响,建立起一套高效的小麦离体培养再生体系,而且该体系从接种未成熟胚到再生植株移至土壤只需10－12周时间,避免了长期培养过程中存在的体细胞变异问题。     

Direct somatic embryogenesis from mature embryos of sandalwood

Plants were regenerated from mature zygotic embryos of sandalwood (Santalum album L.) through direct somatic embryogenesis. Somatic embryos were formed directly without any intervening callus phase on zygotic embryos plated on Murashige and Skoog (MS) medium containing thidiazuron or benzylaminopurine. Individual somatic embryos were then isolated and transferred to MS medium without cytokinin on which they formed secondary embryos in repetitive cycles with or without the addition of indole acetic acid to the medium. Conversion of somatic embryos into plantlets was achieved by isolating somatic embryos with distinct cotyledons and reculturing them onto half-strength MS medium with GA₃ (1.4 M). Recovered plantlets were acclimatised and grown in the greenhouse. This is the first report on in vitro regeneration via direct somatic embryogenesis of sandalwood.     

The effect of auxins, time exposure to auxin and genotypes on somatic embryogenesis from mature embryos of wheat

The effects of different factors on the embryogenesis and plant regeneration from mature embryos of Russian spring and winter genotypes were studied. Embryogenic callus induction was achieved on MS medium supplemented with different concentrations of 2,4-D (2,4-dichlorophenoxyacetic acid), 2,4,5-T (2,4,5-trichlorophenoxyacetic acid) or Dicamba (3,6-dichloro-o-anisic acid). Although all auxins were able to induce callus from explants with high frequency (98–100%), Dicamba was more effective for the induction of embryogenic callus (21.8–38.3%). Maximum embryogenic callus formation and high number of regenerated plants were observed at 12 mg l⁻¹ of Dicamba. The time exposure to Dicamba (7, 14, 21 and 28 days) had a significant effect on efficiency of somatic embryogenesis. When contact of explants with callus induction medium was increased from 7 to 21 days the rate of somatic embryogenesis and number of regenerated plants per embryogenic callus gradually increased from 13.0 to 38.4% and 3.6 to 8.0%, respectively. Supplement of additional auxins (indoleacetic acid (IAA), indolebutyric acid (IBA), and naphthaleneacetic acid (NAA)) to callus induction medium with Dicamba had a positive effect on the rate of embryogenic callus formation, while the average number of regenerated shoots was not affected. The best rate of somatic embryogenesis was observed at the addition of 0.5 mg l⁻¹ IAA with Dicamba (61.0%). The optimum combination of Dicamba and IAA increased the efficiency of somatic embryogenesis and plant regeneration from seven spring and winter wheat genotypes, thought overall morphogenic capacity was still genotype dependent.     

In vitro somatic embryogenesis and plant regeneration in Acacia arabica

In vitro somatic embryogenesis and subsequent plant regeneration was achieved in callus cultures derived from immature zygotic embryos of Acacia arabica on semi-solid Murashige and Skoog (MS) basal salts and vitamins supplemented with 8.88 MBA, 6.78 M2,4-D and 30 g l^–1 (w/v) sucrose. Somatic embryos proliferated rapidly by secondary somatic embryogenesis after transfer to MS medium supplemented with 6.66 M BA, 6.78 M 2,4-D. The maximum number of somatic embryos per callus was 72.6 after 8 weeks of culture on medium containing 6.66 M BA and 6.78 M 2,4-D. The isolated somatic embryos germinated on half-strength basal MS salts and vitamins supplemented with 0.04 M BA, 0.94 M ABA and 2% (w/v) sucrose. The embryo-derived plantlets were acclimatized in the greenhouse and subsequently showed normal growth.     

Somatic embryogenesis from immature zygotic embryos ofGinkgo biloba

Immature zygotic embryos ofG. biloba were taken, at various developmental stages, from ovules harvested in November 1993. Zygotic embryos showing the beginning of the cotyledonary development cultured on modified Murashige & Tücker (1969) media proliferated intensely. In fact, 98.5% of the immature zygotic embryos produced embryogenic and undifferentiated tissues (calluses), in proportions varying depending on the hormonal composition of the induction media. After two weeks of culture, direct embryogenesis was observed on the hypertrophic cotyledons when benzyladenine 10 M was used as the sole plant growth regulator in the induction media. The addition of different concentrations of NAA (5–10–20 M) and of BA (5 M) to the induction media led to an indirect embryogenesis after two months, when the calluses were transferred to the development media without auxin. The highest frequency of embryogenic tissues (90–95%) and the highest number of somatic embryos per explant (9.6) were obtained with benzyladenine (10 M) as the sole exogenous growth factor. Some embryos isolated mechanically or in situ on the callus developed as far as the later cotyledonary stage.Abbreviations AUX Auxin - BA Benzyladenine - CYT Cytokinin - IZE Immature zygotic embryo - MT Murashige & Tücker (1969) medium - NAA Naphtaleneacetic acid     

Direct somatic embryogenesis and plant regeneration from mature sugarbeet (Beta vulgaris L.) zygotic cotyledons

An in vitro protocol has been developed for direct somatic embryogenesis of zygotic cotyledons from mature sugarbeet (Beta vulgaris L.) embryos. Explants were sequentially cultured on modified Murashige and Skoog (MS) medium supplemented with different combinations of 2,4-D, NAA, BAP and TIBA. Somatic embryogenesis was induced within 4 weeks of culture on embryogenesis induction medium which contained MS medium supplemented with BAP and TIBA. Proliferation of somatic embryos was observed on embryo proliferation medium, which contained MS medium supplemented with BAP and NAA within 4 weeks of culture. Plants were regenerated on hormone free half; strength MS medium containing a low sucrose concentration. With some sugarbeet lines, high frequencies of plant regeneration in excess of 90percnt; were observed. The incorporation of TIBA in the media was essential for successful regeneration.     

Norway spruce somatic embryogenesis: high-frequency initiation from light-cultured mature embryos

Somatic embryos and rooted plantlets have been regenerated from light-initiated embryogenic callus derived from mature embryos of Picea abies. Under a 16 h photoperiod, mature zygotic embryos were cultured on a modified half-strength Murashige & Skoog medium without NH₄NO₃ and supplemented with 5 mM glutamine, 4.5 M N6-benzyladenine and 10.7 M naphthaleneacetic acid or 10 M 2,4-dichlorophenoxyacetic acid. White translucent embryogenic callus, proliferating from the callusing hypocotyl region after 3 weeks incubation, was isolated from the green non-embryogenic tissue and subcultured for over 12 months. Upon transfer of the embryogenic callus through a specific sequence of media, somatic embryos proceeded to mature, elongating and forming rings of cotyledonary leaves similar to those of zygotic embryos. Transferred to medium without growth regulators, the somatic embryos germinated and produced plantlets with green cotyledons, elongated hypocotyls and primary roots.     

Developmental pathways of somatic embryogenesis

Somatic embryogenesis is defined as a process in which a bipolar structure, resembling a zygotic embryo, develops from a non-zygotic cell without vascular connection with the original tissue. Somatic embryos are used for studying regulation of embryo development, but also as a tool for large scale vegetative propagation. Somatic embryogenesis is a multi-step regeneration process starting with formation of proembryogenic masses, followed by somatic embryo formation, maturation, desiccation and plant regeneration. Although great progress has been made in improving the protocols used, it has been revealed that some treatments, coinciding with increased yield of somatic embryos, can cause adverse effects on the embryo quality, thereby impairing germination and ex vitro growth of somatic embryo plants. Accordingly, ex vitro growth of somatic embryo plants is under a cumulative influence of the treatments provided during the in vitro phase. In order to efficiently regulate the formation of plants via somatic embryogenesis it is important to understand how somatic embryos develop and how the development is influenced by different physical and chemical treatments. Such knowledge can be gained through the construction of fate maps representing an adequate number of morphological and molecular markers, specifying critical developmental stages. Based on this fate map, it is possible to make a model of the process. The mechanisms that control cell differentiation during somatic embryogenesis are far from clear. However, secreted, soluble signal molecules play an important role. It has long been observed that conditioned medium from embryogenic cultures can promote embryogenesis. Active components in the conditioned medium include endochitinases, arabinogalactan proteins and lipochitooligosaccharides.     

Direct somatic embryogenesis induced from cotyledons of mango immature zygotic embryos

Summary For the first time, regenerated plantlets were obtained from immature zygotic embryos of mango (Mangifera indica L.) through direct somatic embryogenesis. Pro-embryogenic mass (PEM)-like structures, which are differentiated as clusters of globular structures, were easily induced directly from the abaxial side of cotyledons from immature fruits, 2.0–3.5 cm diameter by a 2-wk culture period on a modified Murashige and Skoog medium with 5 mgl⁻¹ (25μM) indole-3-butyric acid (IBA). Conversion of somatic embryos into plantlets was achieved after 4 wk of culture on the conversion medium containing 5mgl⁻¹ (23 μM) kinetin. Secondary somatic embryogenesis could also be obtained directly from the hypocotyls of mature primary somatic embryos cultured on the conversion medium. In our experimental system, only minor problems were noted with browning of cultures.     

Effects of cytokinins and auxins on cassava shoot organogenesis and somatic embryogenesis from somatic embryo explants

Somatic embryos of cassava (Manihot esculenta Crantz) cultivar ‘Nanzhi 188’ were isolated and cut into fragments to be cultured on media with various cytokinins and auxins. Cytokinin induced of cassava shoot organogenesis, while auxin stimulated somatic embryogenesis. The effectiveness on organogenesis was different based on different cytokinins and in combination with auxins. Benzyladenine and thidiazuron stimulated more shoot organogenesis than kinetin and N-isopentenyladenine. This revised version was published online in June 2006 with corrections to the Cover Date.     

Direct somatic embryogenesis from axes of mature peanut embryos

Summary Plant regeneration via somatic embryogenesis was obtained in peanut (Arachis hypogaea L.) from axes of mature zygotic embryos. The area of greatest embryogenic activity was a 2-mm region adjacent to and encircling the epicotyl. Somatic embryogenesis was evaluated on Murashige and Skoog media supplemented with a variety of auxin treatments. Maximum production occurred on medium supplemented with 3 mg · liter⁻¹ 4-amino-3,5,6-trichloropicolinic acid. Explant cultures were transferred to half-strength medium supplemented with 1 mg · liter⁻¹ gibberellic acid for somatic embryo germination and early plantlet growth. Plantlets, transferred to soil, were placed in a greenhouse and grown to maturity.     

Production ofAgrobacterium-mediated transgenic fertile plants by direct somatic embryogenesis from immature zygotic embryos ofDatura innoxia

This work describes a new method to obtain transgenic somatic embryos fromAgrobacterium-infected immature zygotic embryos ofDatura innoxia. It has several advantages over previous transformation methods such as the absence of a callus phase, an average transformation rate of 76% and a high regeneration frequency. Critical steps for optimal transformation were the embryo stage and a short preculture treatment. The marker gene -glucuronidase and light microscopy were used to identify the competent embryogenic cells which, after transformation, passed through the classical stages of embryo development. The transgenes were transmitted to the progeny in a Mendelian fashion. The plants regenerated via direct somatic embryogenesis were cytologically and morphologically uniform. We also observed that: (1) wounding or wound-induced divisions were not required for zygotic embryo transformation; (2) epidermal cells were competent for both transformation and regeneration; and (3) competency forAgrobacterium infection was developmental stage-specific. This new method should facilitate the development of new strategies to routinely transform recalcitrant plant species.     

Anatomical study of zygotic and somatic embryos of Tilia cordata

A comparative anatomical study was carried out on zygotic and somatic embryos of Tilia cordata Mill. to evaluate the effect of growth conditions on their development. Zygotic embryos (heart-shaped, torpedo, cotyledonary), collected during two autumn periods, were examined to investigate the effect of growing season on embryo development. In comparison, the influence of growth conditions on the development of somatic embryos in vitro was also studied. Treatment with abscisic acid (ABA) and polyethylene glycol-4000 induced the development of somatic cotyledonary embryos similar to zygotic embryos with respect to morphology and anatomy, as illustrated by the differentiation of the apical meristems and of the procambium. The pattern of accumulation of starch and protein was also similar in these embryos. Somatic cotyledonary embryos that developed spontaneously without ABA showed defective accumulation of storage material and a general failure to form the shoot apical meristem, leading to very low germination rates. Vacuolar phenolic deposits were observed along the procambium of both zygotic and somatic embryos regardless of the maturation stage. Tracheid formation was observed only in somatic embryos formed without ABA in the medium and in precociously germinated somatic embryos. Phenolic vacuolar inclusions were frequently observed in epidermal cells of these embryos. This revised version was published online in June 2006 with corrections to the Cover Date.     

Somatic embryogenesis from immature and mature embryos of a minor millet Paspalum scrobiculatum L.

Immature and mature zygotic embryos of Paspalum scrobiculatum L. cv. PSC 1 cultured on MS or N₆ nutrient medium supplemented with different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D), formed embryogenic callus. Induction of embryogenic callus and subsequent somatic embryogenesis was possible at a lower concentration of 2,4-D on N₆ than MS medium. Immature embryos were highly totipotent, forming somatic embryos at a higher frequency than mature embryos. Addition of amino acids (L-proline or L-tryptophan) to 2,4-D medium resulted in significant enhancement of embryogenesis on culture of mature embryos. Silver nitrate also supported an increased frequency of embryogenesis. Thus it is possible to have high frequency of somatic embryogenesis on culture of mature embryos, which are available in abundance and with ease than immature embryos. The somatic embryos readily germinated and formed plantlets on hormone-free regeneration medium. The regenerated plantlets were successful on transfer to soil and set seed.     

Regeneration of pineapple plants via somatic embryogenesis and organogenesis

Summary We have developed efficient methods for plant regeneration, via both embryogenesis and organogenesis, of Smooth Cayenne pineapple, Ananas comosus (L.) Merr. Leaf bases and core (stem) sections of in vitro shoots, produced from culture of crown tip meristem, were used as explants for plant regeneration as follows: (1) Leaf base and core section explants cultured on Murashige and Skoog (MS) medium containing 41 μM 4-amino-3,5,6-trichloropicolinic acid (picloram, P) or thidiazuron (T)/P combinations produced embryogenic tissues. Different types of embryogenic tissues (friable emryogenic tissue, embryogenic cell cluster, and chunky embryogenic tissue) have been developed with varying properties in terms of growth rate and state of development. The embryogenic tissues regenerated shoots upon culture on MS medium containing 13 μM 6-benzylaminopurine (BA) and 1μM α-naphthaleneacetic acid (NAA) followed by culture on MS medium containing 4 μM BA. (2) Crown tip meristems cultured on MS medium containing 13 μM BA followed by leaf explants cultured on MS medium with 27 μM NAA and 1 μM BA produced shoots via direct organogenesis. (3) Explants cultured on MS medium containing 5 μM T and 0.5 μM indole-3-butyric acid (IBA) produced nodular globular structures, which produced shoots upon culture on MS medium containing 1 μM BA and 1 μM gibberellic acid. Shoots obtained from all of the above methods were rooted in half-strength MS medium containing 3 μM NAA and 2.5 μM IBA. Plants were transferred to the greenhouse or shipped to Costa Rica for field trials. Somatic embryo-derived plants exhibited 21 % spininess, and organogenic-derived plants exhibited 5% spininess in the field trials.     

High frequency embryogenesis in immature zygotic embryos of sunflower

In the present investigation, nutritional requirements for induction of a high frequency of well formed somatic embryos (SEs) from zygotic embryos (ZEs) of sunflower were assessed. Variables like genotype, embryo size (0.5–10 mm), sucrose concentration (30–240 g l⁻¹), carbohydrate source (sucrose, glucose, maltose), agar strength (0.2–1.0%), basal media (MS, Gamborg, Nitsch, White), photoperiod (light/dark) and temperature (20–36°C) were tested. All these variables except photoperiod had significant effect on the frequency of embryogenesis. Highest frequency of embryogenesis was facilitated by Gamborg basal salt media, 120–210 g l⁻¹ sucrose, 0.8–1.0% agar, smaller sized embryos (0.5–2 mm) and incubation temperature of 28–32°C. In addition to these, growth regulator combinations (2,4-D, 2,4-D+kinetin, BA+NAA) in varying concentrations were tried. Media supplemented with 2,4-D promoted direct embryogenesis, BA+NAA facilitated formation of single/multiple shoots while there was no response on 2,4-D+kinetin supplemented media. Zygotic embryos with well differentiated embryos were transferred to growth regulator free half strength MS medium for whole plantlet development. This revised version was published online in June 2006 with corrections to the Cover Date.     

Production of multiple shoots from thidiazuron-treated mature embryos and leaf-base/apical meristems of barley (Hordeum vulgare)

The in vitro plant regeneration frequencies for immature scutella, leaf-bases/apical meristems (LB/AM) and mature embryos of four commercially important barley genotypes were compared. Production of shoots from mature embryos or calluses of LB/AM incubated on media containing 1.0 or 2.0 mg l^–1 6-benzylaminopurine (BA) were comparable to regeneration frequencies obtained for scutella-derived calluses of the same genotypes. Incubation of excised mature embryos and LB/AM on media containing the plant growth regulator, thidiazuron (TDZ), resulted in an increased shoot production. However, TDZ treatment did not stimulate plant regeneration from calluses derived from scutella or LB/AM. Shoots formed from TDZ-treated mature embryos and LB/AM were induced without a callus interphase and the in vitro culture system gave a three- to eight-fold higher regeneration frequency than recorded for scutella-derived calluses on BA medium. The simplicity and rapid development of shoots using the mature embryo system could potentially be used for the regeneration and genetic transformation of barley over alternative regeneration systems.     

Cytokinin induced somatic embryogenesis from immature embryos of Abies nordmanniana Lk.

Summary Abies nordmanniana Lk. is used in short intensive rotations for Christmas tree production. Thus there is a high demand for development of advanced propagation and breeding methods. Somatic embryogenesis was easily induced from immature (precotyledonary) embryos collected in July 1989 with cytokinin as the sole plant growth regulator. The proliferating embryogenic cell masses were characteristic of conifer somatic embryogenesis and could be maintained on a simple basal medium containing 5 M benzylaminopurine. Auxin inhibited induction as well as proliferation. Proliferation was improved by up to 30 % by addition of L-glutamine and/or casein hydrolysate. Neither cytokinin concentration nor culture on 3 different basal media, differing markedly in their nitrogen composition, affected the proliferation rate. Embryos matured using a 4 week subculture on medium containing 10 M abscisic acid and subsequent transfer to medium devoid of plant growth regulators.Abbreviations TDZ thidiazuron (Schering) - BAP benzylaminopurine (Sigma) - KIN kinetin (Sigma) - 2,4-D 2,4-dichlorophenoxyacetic acid (Sigma) - ABA +/2-cis-4-trans-abscisic acid (Sigma) - CH casein hydrolysate (Sigma Type 1, acidic) - L-gln L-glutamine (Sigma) - EDTA ethylene diamine tetra acetic acid (Sigma)     

A simple method for the recovery of multiple fertile plants from individual somatic embryos of soybean [Glycine max (L.) merrill]

Summary We describe a method for obtaining and proliferating multiple, fertile plants from somatic embryos of several experimental and commercial soybean varieties. Shoot-bud cultures were initiated by placing cotyledonary and torpedo-stage somatic embryos derived from immature seedling cotyledons onto Cheng’s basal medium (CBO) containing 0.5 to 2.5 mg/liter 6-benzyladenine (6-BA). Prolific masses of adventitious shoots were produced within 6 to 18 wk. These cultures can be propagated indefinitely with regular subcultures to CBO containing 0.5 mg/liter 6-BA. Individual shoots were separated from the clusters and were rooted on CBO medium without exogenous growth regulators. By this method any number of plants can be produced from individual somatic embryos. The risk of losing valuable genotypes (e.g., derived from in vitro selection or transformation) due to inefficient embryo germination and embryo-to-plant conversion is thus greatly reduced. Plants were established in the greenhouse and progenies were field tested. Progenies from shoot-bud culture-derived plants showed no somaclonal variation for the seven recessive marker traits or quantitative agronomic characters evaluated under field conditions.     

Control of direct and indirect somatic embryogenesis by exogenous growth regulators in immature zygotic embryo cultures of rose

Immature zygotic embryos of rose (Rosa hybrida L.; cv. Sumpath) did not form somatic embryos or embryogenic calluses when cultured on half-strength Murashige and Skoog's medium supplemented with various con-centrations of 2,4-dichlorophenoxyacetic acid (2,4-D) as the sole growth regulator. However, the zygotic embryos produced somatic embryos without an intervening callus phase at a frequency of 27.3% on medium with 4.44 M 6-benzyladenine (BA) alone. Immature zygotic embryos formed embryogenic calluses at a frequency of 25% on medium with a combination of 1.36 M 2,4-D and 4.44 M BA. Upon transfer to medium without growth regulators, embryogenic calluses produced numerous somatic embryos that subsequently developed into plantlets. Somatic embryos were induced directly from immature zygotic embryos, or indirectly via an intervening callus phase, by manipulating the exogenous growth regulators. Plantlets were successfully transplanted to potting soil and grown to maturity in a greenhouse.