Plant regeneration,developmental pattern and genetic fidelity of somatic embryogenesis derived Musa spp.

Multiplication of banana cvs. Grand Naine (Musa AAA, Cavendish-sub group) and Rasthali (Musa AAB, Silk-sub group) were attempted through somatic embryogenesis. The influence of position of male flower buds, amino acid supplements in the induction of somatic embryogenesis and field performance of embryogenic cell suspension (ECS) derived banana plants were studied. Differentiated immature male flower buds positioned at 6–8?th bract whorl as explants showed better callus induction and somatic embryogenesis. Supplementation with glutamine at 400?mg?L^?1 along with 20:20?g?L^?1sucrose: maltose in maturation media induced a 10-fold increase in somatic embryo formation compared to control. Cotyledonary stage somatic embryos desiccated for 2?h showed higher germination compared to non-desiccated embryos. The plantlets generated were hardened, and the genetic fidelity of the plantlets was confirmed using ISSR marker. To check the field performance of ECS derived plants, plantlets were hardened and planted in the field along with meristem and sucker. During the field growth, these ECS derived plants were morphologically similar to those of control plants. In this experiment, it was observed that ECS derived banana plants displayed normal phenotype as that of plants grown from meristem and sucker. The protocol developed could be useful highly for large-scale micropropagation or genetic manipulation studies in these commercially important banana cultivars.     

Ultrastructural changes and the distribution of arabinogalactan proteins during somatic embryogenesis of banana (Musa spp. AAA cv. 'Yueyoukang 1')

A better understanding of somatic embryogenesis in banana (Musa spp.) may provide a practical way to improve regeneration of banana plants. In this study, we applied scanning electron microscopy (SEM) and transmission electron microscopy (TEM) to visualize the ultrastructural changes during somatic embryogenesis of banana (Musa AAA cv. 'Yueyoukang 1'). We also used histological and immunohistochemical techniques with 16 monoclonal antibodies to study the spatial distribution and cellular/subcellular localization of different arabinogalactan protein (AGP) components of the cell wall during somatic embryogenesis. Histological study with periodic acid-Schiff staining documented diverse embryogenic stages from embryogenic cells (ECs) to the late embryos. SEM revealed a mesh-like structure on the surface of proembryos which represented an early structural marker of somatic embryogenesis. TEM showed that ECs were rich in juvenile mitochondria, endoplasmic reticulum and Golgi stacks. Cells in proembryos and early globular embryos resembled ECs, but they were more vacuolated, showed more regular nuclei and slightly more developed organelles. Immunocytochemical study revealed that the signal of most AGP epitopes was stronger in starch-rich cells when compared with typical ECs. The main AGP component in the extracellular matrix surface network of banana proembryos was the MAC204 epitope. Later, AGP immunolabelling patterns varied with the developmental stages of the embryos. These results about developmental regulation of AGP epitopes along with developmental changes in the ultrastructure of cells are providing new insights into the somatic embryogenesis of banana.     

Somatic embryogenesis in banana (Musa acuminata AAA cv. Grand Naine): effect of explant and culture conditions

An improved, rapid, reproducible, and simple protocol has been developed for somatic embryogenesis in banana cv. ‘Grand Naine’ using explants derived from actively growing multiple shoot cultures. Many restrictive factors remain in banana embryogenesis such as long duration, unpredictability, and a high degree of genotype dependence. In the present study, we used split shoot tips from 4-wk-old cultures as explants. Somatic embryos were induced in 15 d directly in Murashige and Skoog (MS) medium supplemented with different combinations of 0–8.28 μM picloram and 0.22–4.44 μM 6-benzylaminopurine (BA) without callus formation. Maximum embryo induction (100%) occurred when 4.14 μM picloram and 0.22 μM BA were used. Conversion of somatic embryos into plantlets occurred sporadically (2–3%) in MS medium containing α-naphthalene acetic acid (NAA; 0.53–2.68 μM) together with BA (2.22–44.39 μM), or thidiazuron (4.54 μM) plus glutamine (200 mg/L). This protocol is far superior to those already reported for fast and high frequency induction of somatic embryo. In liquid agitated culture, individual embryos separated easily and produced a large number of secondary embryos within 10 d which, upon transfer to filter paper overlaid on MS liquid medium supplemented with 4.44 μM BA, resulted in conversion (3%) into plantlets.     

Antioxidants and total oxyradical scavenging capacity during grass shrimp, Palaemonetes pugio, embryogenesis

During embryogenesis in grass shrimp the capacity to scavenge oxyradicals increased as measured by the Total Oxyradical Scavenging Capacity (TOSC) assay. The increase in TOSC during embryogenesis was associated with increasing concentrations of a number of antioxidants, including coenzyme Q (ubiquinone), alpha-tocopherol and reduced glutathione. Glutathione concentrations ranged from 0.004 to 0.005 nmol/embryo in early embryo stages and reached concentrations between 0.16 to 0.23 nmol/embryo in late embryo stages. Ascorbate remained essentially constant (0.16-0.20 nmol/embryo) throughout embryogenesis and may provide the preponderance of TOSC during early embryo development. Carotenoids were associated with yolk lipovitellin and these antioxidants decreased as yolk was absorbed during embryogenesis. Astaxanthin and beta-carotene were identified in embryos with astaxanthin always the principal carotenoid. In early embryo stages there are maternally derived antioxidants but as embryogenesis proceeds there is an assembly of a complex antioxidant system by newly formed cells and tissues.     

Excision of a selectable marker gene in transgenic banana using a Cre/lox system controlled by an embryo specific promoter

Antibiotic and herbicide resistance genes have been used in transgene technology as powerful selection tools. Nonetheless, once transgenic events have been obtained their presence is no longer needed and can even be undesirable. In this work, we have developed a system to excise the selectable marker and the cre recombinase genes from transgenic banana cv. ‘Grande Naine’ (Musa AAA). To achieve this, the embryo specific REG-2 promoter was isolated from rice and its expression pattern in banana cell clumps, somatic embryos and regenerated plantlets was characterized by using a pREG2::uidA fusion construct. Subsequently, the REG-2 promoter was placed upstream of the cre gene, conferring Cre functionality in somatic embryos and recombination of lox sites resulting in excision of the selectable marker and cre genes. PCR analysis revealed that 41.7 % of the analysed transgenic plants were completely marker free, results that were thereafter confirmed by Southern blot hybridization. These results demonstrate the feasibility of using developmentally controlled promoters to mediate marker excision in banana. This system does not require any extra handling compared to the conventional transformation procedure and might be useful in other species regenerating through somatic embryogenesis.     

Embryo production through somatic embryogenesis can be used to study cell differentiation in plants

Somatic embryogenesis is the process by which somatic cells, under induction conditions, generate embryogenic cells, which go through a series of morphological and biochemical changes that result in the formation of a somatic embryo. Somatic embryogenesis differs from zygotic embryogenesis in that it is observable, its various culture conditions can be controlled, and a lack of material is not a limiting factor for experimentation. These characteristics have converted somatic embryogenesis into a model system for the study of morphological, physiological, molecular and biochemical events occurring during the onset and development of embryogenesis in higher plants; it also has potential biotechnological applications. The focus of this review is on embryo development through somatic embryogenesis and especially the factors affecting cell and embryo differentiation.     

Somatic embryogenesis of pepper in bioreactors: a study of bioreactor type and oxygen-uptake rates

Somatic embryogenesis of pepper, Capsicum annuum var. Ace, was performed in an airlift bioreactor and a magnetically stirred hanging-stirrer-bar bioreactor, each with 1.81 working volume. All stages of embryogenesis, from growth of embryogenic suspension cultures to embryo maturation, were performed in the bioreactor as a series of drain-and-fill batches, keeping the cells and embryos in the bioreactor all the time. When two bioreactors were compared in terms of percentage embryogenesis and visually observed quality of mixing, under different rates of aeration and stirring, the performance of the magnetically stirred bioreactor was better. The effects of inoculum type and inoculum level on the percentage embryogenesis were also investigated. Under the optimum conditions, embryogenesis was 98%, with 57 embryos/ml. Oxygen-uptake rates of cultures in different stages of embryogenesis were different, the highest being in the embryogenic suspension culture and the lowest during embryo maturation.     

Similarity of expression patterns of knotted1 and ZmLEC1 during somatic and zygotic embryogenesis in maize ( Zea mays L.)

Expression of knotted1 ( kn1) and ZmLEC1, a maize homologue of the Arabidopsis LEAFY COTYLEDON1 ( LEC1) was studied using in situ hybridization during in vitro somatic embryogenesis of maize ( Zea mays L.) genotype Hi-II. Expression of kn1 was initially detected in a small group of cells (5-10) in the somatic embryo proper at the globular stage, in a specific region where the shoot meristem is initiating at the scutellar stage, and specifically in the shoot meristem at the coleoptilar stage. Expression of ZmLEC1 was strongly detected in the entire somatic embryo proper at the globular stage, gradually less in the differentiating scutellum at the scutellar and coleoptilar stages. The results of analyses show that the expression pattern of kn1 during in vitro somatic embryogenesis of maize is similar to that of kn1 observed during zygotic embryo development in maize. The expression pattern of ZmLEC1 in maize during in vitro development is similar to that of LEC1 in Arabidopsis during zygotic embryo development. These observations indicate that in vitro somatic embryogenesis likely proceeds through similar developmental pathways as zygotic embryo development, after somatic cells acquire competence to form embryos. In addition, based on the ZmLEC1 expression pattern, we suggest that expression of ZmLEC1 can be used as a reliable molecular marker for detecting early-stage in vitro somatic embryogenesis in maize.     

Regeneration of zygotic-like microspore-derived embryos suggests an important role for the suspensor in early embryo patterning

The inaccessibility of the zygote and proembryos of angiospermswithin the surrounding maternal and filial tissues has hamperedstudies on early plant embryogenesis. Somatic and gametophyticembryo cultures are often used as alternative systems for molecularand biochemical studies on early embryogenesis, but are notwidely used in developmental studies due to differences in theearly cell division patterns with seed embryos. A new Brassicanapus microspore embryo culture system, wherein embryogenesishighly mimics zygotic embryo development, is reported here.In this new system, the donor microspore first divides transverselyto form a filamentous structure, from which the distal cellforms the embryo proper, while the lower part resembles thesuspensor. In conventional microspore embryogenesis, the microsporedivides randomly to form an embryonic mass that after a whileestablishes a protoderm and subsequently shows delayed histodifferentiation.In contrast, the embryo proper of filament-bearing microspore-derivedembryos undergoes the same ordered pattern of cell divisionand early histodifferentiation as in the zygotic embryo. Thisobservation suggests an important role for the suspensor inearly zygotic embryo patterning and histodifferentiation. Thisis the first in vitro system wherein single differentiated cellsin culture can efficiently regenerate embryos that are morphologicallycomparable to zygotic embryos. The system provides a powerfulin vitro tool for studying the diverse developmental processesthat take place during the early stages of plant embryogenesis. Key words: Brassica napus, microspore embryogenesis, pattern formation, polarity, suspensor, zygotic embryogenesis     

Amplified somatic embryogenesis from male flowers of triploid banana and plantain cultivars (Musa spp.)

Summary Somatic embryogenesis and plant regeneration of banana and plantain cultivars (Musa spp.) were obtained by culturing young male flowers. Multiplication and maintenance of embryogenic cultures were achieved by culturing somatic embryos in a temporary immersion system (SIT). A multiplication rate of 40 allowed us to obtain more than 6000 somatic embryos after 6 mo. of subculture. Plant recovery frequencies were 60 to 70%. This method was expanded to different banana and plantain genomic groups.     

Subcellular localization of DNA polymerase gamma and changes in its activity in sea urchin embryos

1. Subcellular localization and changes in the activity of DNA polymerase gamma were examined in sea urchin eggs and embryos. 2. The enzyme was shown to be localized predominantly in mitochondria by differential and isopycnic centrifugation. 3. During embryogenesis, the enzyme activity per embryo remained constant until blastula stage, and thereafter increased. 4. Similarly mitochondrial DNA per embryo increased, indicating that mitochondrial DNA replication starts during embryogenesis. 5. The gamma-activity per mitochondrial DNA remained constant during embryogenesis. 6. These results suggest that mitochondria contain a constant amount of replicative enzyme (DNA polymerase gamma) regardless of mitochondrial DNA replication, which differs from the case of nuclear DNA replication.     

Effect of Plant Growth Regulators on Somatic Embryogenesis of Peucedanum terebinthaccum

The influence of different plant growth regulators including 2,4-D,ZT, 6-BA and ABA on somatic embryogenesis and the amount of endogenous ABA at different stages of embryogenesis was investigated. The effect of each plant growth regulator changed according to the stage of embryogenesis. The amount of endogenous ABA was rather high in single cell stage, decreased at cell clump and embryogenic cell clump stages and dramatically increased at globular embryo stage. It decreased again as the embryo developed. This change in amount of the endogenous ABA explained very well the difference in the effect of exogenous ABA when applied at different stages of embryogenesis.     

Establishment of embryogenic cell suspension cultures and Agrobacterium-mediated transformation in banana cv. ‘Dwarf Cavendish’ (Musa AAA): effect of spermidine on transformation efficiency

An efficient method has been developed for somatic embryogenesis, plant regeneration and transformation of the important banana cultivar ‘Dwarf Cavendish’ (Musa AAA). A high embryogenic response was obtained in 1.36 % of immature male flower explants. Once embryogenic structures were transferred to liquid medium, embryogenic cell suspensions (ECSs) with high regeneration capacity were obtained. ECSs were incubated under different conditions with Agrobacterium tumefaciens strain EHA101 harboring vector pFAJ3000 that contains pNos-nptII-tOcs and p35S-uidAintron-t35S expression cassettes. The effect of spermidine and infection time on transformation efficiency was examined. The highest efficiency was obtained when ECSs were infected for 6 h, in medium supplemented with 200 μM acetosyringone and 1.0 mM spermidine, with more than 600 independent lines/~50 mg FW of settled cells. Spermidine showed an enhancing effect, increasing significantly the transient Gus expression and the number of transformed embryo colonies and regenerated plants in comparison with the same treatments without this polyamine. This is the first report showing efficient Agrobacterium tumefaciens mediated transformation using embryogenic cell suspension cultures in the ‘Dwarf Cavendish’ banana cultivar.     

Enhancement of embryo yield from isolated microspores of <Emphasis Type="Italic">Brassica napus</Emphasis> by early iron starvation

Induction of embryogenesis in isolated microspores of Brassica napus requires stress conditions to trigger the developmental instead of the gametophytic pathway. To obtain further insight into the involvement of different ions in this process, a comparison has been made between embryo yields obtained with standard NLN-13 medium and the same medium without cobalt, copper or iron. It was confirmed that iron was essential to control embryo development, but not cobalt and copper. For the latter two ions, the concentration is probably too low to play a significant role in microspore embryogenesis. With the timing of iron application, as well as its chemical form, embryo yield could be improved or reduced. In media that exhibited iron deficiency, microspores initiated embryogenesis and the number of observed divided microspores increased 6 days after isolation. However, embryo development was not achieved. Addition of iron ions chelated with EDTA at day 3, leading to the doubling of embryo yield. Some of the putative role(s) of Fe-EDTA in the early events of embryogenesis is discussed.     

Somatic embryogenesis and plant regeneration in embryo cultures of Euterpe edulis mart. (palmae)

The induction of somatic embryogenesis in embryo cultures of Euterpe edulis is described. The basal medium was composed of LS salts and Morel & Wetmore vitamins. Activated charcoal was added to prevent explant oxidation. 2,4-D higher than 50 mg/l was necessary for inducing embryogenesis which occurs 45–180 days after the start of cultures. Embryos arise directly from surface proliferating tissues on the matrix structure , without callus formation. The transfer of tissues with embryo clusters to medium with NAA plus 2iP, or without growth regulators, induces embryo development into plantlets.     

Efficient protocols for in vitro regeneration of Pennisetum glaucum (L) Br

A system was developed for in vitro regeneration of Pennisetum glaucum through organogenesis and somatic embryogenesis. Mature embryo and leaf base explants of Pennisetum glaucum (L) Br. cv HH B60 (Poaceae) were cultured on Murashige and Skoog agar medium supplemented with 11.3 microM of 2,4-D for callus induction. Embryogenic calli were induced within eight weeks. Percentage of callus induction and somatic embryogenesis was significantly higher in mature embryo than leaf base explants. Maximum shoot regeneration was obtained via organogenesis on MS medium supplemented with 4.43 microM of BAP and 4.64 microM of kinetin from the calli of both the explants. The frequency of plant regeneration through somatic embryogenesis was comparatively lower than organogenesis. Regeneration frequency was higher in mature embryo explants than leaf base explants. The shoots regenerated via organogenesis were elongated and rooted efficiently on MS medium supplemented with IBA (0.49 microM). The rooted plantlets were hardened and transferred to soil.     

松柏类植物体细胞胚胎发生的研究进展

松柏类植物的体细胞胚胎发生既是繁育的一种手段,又是研究胚胎发育过程中结构、生理和分子事件的一种重要的模式系统.整个体细胞胚胎发生过程主要包括3个步骤:胚性组织的诱导和增殖、体细胞胚的成熟以及体细胞胚的萌发和转换.过去为了提高胚胎发育过程所做的努力主要都集中在胚的成熟阶段,这是因为一直认为能否成功再生的关键在于胚发育成熟阶段的处理.然而,在过去几年里,结合生理生化以及分子生物学的研究发现,胚胎发生的早期阶段对于完成整个发育过程也是至关重要的,早期阶段培养条件的优化可以显著提高培养过程中体细胞胚的数量和质量.此外,萌发过程培养条件的调节对于提高成熟体细胞胚的萌发率和转换率也很重要.因此,这些新的研究成果对于改善松柏类植物体细胞胚胎发生中的胚的诱导率和转换率低的现象具有重要的意义.     

Factors important for somatic embryogenesis in zygotic embryo explants ofCapsicum annuum L.

We used four cultivars ofCapsicum annuum L.—Sweet Banana, California Wonder, Yolo Wonder, and Ace—to reexamine the critical factors influencing somatic embryogenesis from zygotic embryo explants, as reported in the literature. When we followed the protocol of Buyukalaca and Mavituna (1996), which had induced somatic embryogenesis from mature zygotic embryos of cv. Ace, only callus was formed without embryogenesis from our mature zygotic embryo expiants. Using the procedures of Harini and Lakshmi Sita (1993) and Binzel et al. (1996), with some modifications, we were able to induce somatic embryogenesis in all four cultivars. Rates of conversion were significantly reduced, from 75% and 65% to 40% and 28% in ’Sweet Banana’ and ’California Wonder’, respectively, when the immature zygotic embryo expiants were held on the induction medium for longer than two weeks. Likewise, somatic embryogenesis of ’Yolo Wonder’ was not observed if the induction medium was supplemented with 10% glucose or fructose, or without 10% sucrose. For somatic embryo induction and eventual plantlet conversion in Yolo Wonder’, maltose could adequately replace sucrose. In all four cultivars, somatic embryos were initiated from immature zygotic explants on media with or without coconut water, under both light and dark conditions.     

大蕉心皮发育及不定胚形成过程的探讨

食用大蕉为三倍体,其子房从发生、发育至成熟有其特定的形成过程;在雌、雄配子体败育的条件下,会出现由不定胚形成的种子。本文通过对食用大蕉心应发育及不定胚形成的研究,为大蕉胚胎发育的多样性,提供一些有理论意义的资料。     

PCIB an Antiauxin Enhances Microspore Embryogenesis in Microspore Culture of Brassica juncea

An efficient protocol to improve microspore embryogenesis is established in an important oleiferous crop, Brassica juncea (Indian mustard). Colchicine was used for enhancing microspore embryogenesis and also to obtain doubled haploid embryos. Colchicine at high concentrations (>10 mg l⁻¹), for 24 h, proved convenient for direct recovery of diploid embryos. Higher temperature treatment and an antiauxin PCIB (p-chlorophenoxyisobutyric acid) enhanced microspore embryogenesis significantly as compared to colchicine. An increase in temperature from 32°C to 35°C proved very efficient in increasing embryogenesis by 10-fold. The highest embryogenesis rate was obtained when PCIB was added at 35°C in the culture after 1 day of culture initiation. 20 μM PCIB could enhance microspore embryogenesis by 5-fold. Different abnormal shapes of embryos like lemon, banana, flask and fused cotyledons were observed. Both normal and fused cotyledonous embryos showed normal germination when transferred on the B₅ basal medium.