Nicole Michaux-Ferrière

Improvement of somatic embryogenesis in Hevea brasiliensis (Müll. Arg.) using the temporary immersion technique

SummaryA culture procedure using temporary immersion in a liquid medium was tested for somatic embryogenesis of Hevea brasiliensis (Müll. Arg.). Embryogenic callus was placed under regeneration conditions, either on a gelled medium (Phytagel, Sigma, St. Louis, MO) or in a container designed for temporary immersion. The latter technique has some advantages over the use of a gelled medium during both the early steps of somatic embryogenesis, i.e., embryo development, and later on, i.e., during maturation, desiccation and germination. Somatic embryo production in a liquid medium was three to four times greater than on a semi-solid medium: 400 embryos/g fresh weight under the best embryogenesis induction conditions. Somatic embryogenesis had to be initiated on a gelled medium before the embryogenic callus was transferred to temporary immersion, and the amounts of 3,4- dichlorophenoxyacetic acid and N6-benzyladenine had to be reduced. Temporary immersion resulted in substantially more consistent, synchronized somatic embryo development, reducing the number of abnormal embryos by half and stimulating germination. All of the late events could be carried out in the temporary immersion container. Effective drying conditions were achieved after 12 wk without immersion and without selection of the embryos. Temporary immersion during germination greatly stimulated root development (+60%) and epicotyl emergency (+35%), combined with increased synchronization and a substantially reduced workload.

High frequency somatic embryogenesis in Coffea canephora: induction conditions and histological evolution

Leaf explants of Coffea canephora (P. ex Fr.) produced a friable yellow callus when they were cultured on a conditioning basal medium with 2.2 μM 2,4-D, 2.4 μM IBA and 9.8 μM 2iP for 4 weeks then on an induction basal medium with 4.4 μM 2,4-D and 17.8 μM BA for 10 weeks. This calus could be maintained by means of regular subcultures or it could give rise to somatic embryos depending on the culture medium. Cytological studies documented somatic embryogenesis and embryo development.

Histology of somatic embryogenesis from floral tissues cocoa

Somatic embryogenesis fromTheobroma cacao L. flower buds, as previously reported on five Forastero hybrid genotypes, was tested on several other genotypes, belonging to the three cocoa-tree groups: Forastero, Trinitario and Criollo. The results gave evidence of genotypic efficiencies. Explants were cultivated under two successive conditions: callogenesis and expression media. The morphological and histological responses were different for embryogenic or non-embryogenic genotypes. For embryogenic genotypes, only staminodes and stamen filaments were able to produce somatic embryos: after a few days on the expression medium, groups of callus cells went through the meristematic and then embryonic stages, and finally formed somatic embryos. Many of them showed abnormalities. Simultaneously, some embryogenic cells were visible. These started to divide to form pro-embryos which however were unable to evolve into proper somatic embryos.

A comparison between Theobroma cacao L. zygotic embryogenesis and somatic embryogenesis from floral explants

SummaryIn order to improve the late phases of Theobroma cacao L. embryogenesis from tissues of maternal origin, zygotic embryogenesis and somatic embryogenesis were compared, with respect to morphological, histological, and physiological parameters. Zygotic embryogenesis could be divided into three steps: (a) embryogenesis sensu stricto, (b) a growth period in which cotyledonary embryos reached their final dimensions, and (c) a maturation period in which embryos accumulated protein and starch reserves, dehydrated to a water content equal to 30%, and underwent a modification in soluble sugar composition. Monosaccharides and sucrose contents decreased to the benefit of the oligosaccharides raffinose and stachyose. The formation of somatic embryos by use of basic protocols was studied to define the limiting factors that could lie behind their poor development. Morphological abnormalities of somatic embryos, which represented 80% of the total population, were described. A histological study showed that somatic embryos lacked starch and protein reserves; moreover, their water content was much higher than that of their zygotic counterparts. Introducing a growth period into the culture protocol made for better embryo development. Adding sucrose and abscisic acid to the maturation medium was effective in increasing reserve synthesis and resulted in higher germination, conversion, and acclimatization rates.

Influence of atmospheric gases, particularly ethylene, on somatic embryogenesis of Hevea brasiliensis

The atmosphere of the culture vessel is an important factor for successful somatic embryogenesis in Hevea brasiliensis (Müll. Arg.). Considerable release of carbon dioxide and ethylene occurred during the development of calli. By avoiding the accumulation of gas, unconfined conditions were the most favourable for inducing somatic embryogenesis. Trapping of ethylene was as favourable for calli development and for somatic embryogenesis as unconfined conditions. Inhibition of ethylene synthesis by the adding of aminooxyacetic acid to the medium, also favoured the embryogenic process, and inhibition of ethylene action by the adding of silver nitrate to the medium enhanced significantly embryo production.

Histology of early somatic embryogenesis inHevea brasiliensis: The importance of the timing of subculturing

Somatic embryos ofHevea brasiliensis can be obtained by culturing thin sections of inner tegument of seed on two successive different media, MH1 and MH3. Histological study showed that in calli cultured on non-renewed medium MH1 for 40 days, the embryogenesis process initiated on the 20th day did not produce results owing to early degeneration of the cells involved in the embryogenic pathway. However, typical embryogenic cells formed when medium MH1 was renewed once during the first phase of culture (between day 20 and day 30). Proembryos developed when the calli were subcultured on medium MH3 10–15 days later. Embryogenic cells did not form when there was frequent renewal of medium MH1 or early subculturing on MH3 after less than 40 days of culture on MH1. Methodical histological monitoring of the development of embryogenic quality of calli thus made it possible to define the optimum culture sequences for the embryogenesis process and which are favourable for regular obtaining of proembryos.

Effect of exogenous calcium on Agrobacterium tumefaciens-mediated gene transfer in Hevea brasiliensis (rubber tree) friable calli.

Abstract The influence of CaCl2 was investigated on Agrobacterium tumefaciens-mediated gene transfer in Hevea brasiliensis friable calli which are usually proliferated on maintenance medium (MM) containing 9 mM CaCl2.Five A. tumefaciens strains (C58pMP90, C58pGV2260, AGL1, LBA4404 and EHA 105) and two binary vectors (pGIN and pCAMBIA2301) were tested and the strain EHA105pC2301 was selected to conduct further experiments. The calli were precultured on MM containing a range of CaCl2 concentrations, then inoculated with Agrobacterium suspension. Transfer of friable calli from MM containing 9 mM CaCl2 to calcium-free medium significantly enhanced the transient β-glucuronidase activity. Interestingly, the use of calcium-free Agrobacterium resuspension medium to inoculate friable calli again dramatically increased the transformation efficiency. Induction of Agrobacteriums virulence with acetosyringone remained an important factor to stimulate transformation.

The embryogenic response of immature embryo cultures of durum wheat (Triticum durum Desf.): histology and improvement by AgNO3

Immature zygotic embryos of durum wheat cv ‘Ardente’ were cultured vitro on 2,4-D to induce somatic embryogenesis. Five days after culture initiation, somatic proembryos were directly initiated from the scutellum of immature embryos. After 28 days, somatic embryos were fully developed with a scutellum-like structure. Histological observations between the first and the eighty day in culture showed a clear unicelllar origin for a few of these somatic embryos, whilst most of them originated from a meristematic multilayer. Furthermore, estimation of the mitotic index of outer epithelium, subepithelium and inner epithelium of the scutellum during the first week of culture, showed a strict epidermal origin of these early developed structures. The addition of 1 mg·L−1 of AgNO3 enhanced the induction of direct somatic embryogenesis (a more than 22 fold increase), affecting both the percentage of embryogenic explants and the number of somatic embryos per explant, suggesting the possible involvement of ethylene.

Callus friability and somatic embryogenesis in Hevea brasiliensis

The influence of plant growth regulators, sucrose, calcium and various macronutrient media on callus friability and somatic embryogenesis was investigated inHevea brasiliensis Müll. Arg. Friable and embryogenic calli were spontaneously formed in two rubber tree clones (PR 107 and RRIM 600) on the Medium for Hevea (MH), with 3,4-dichlorophenoxyacetic acid (3,4-d), kinetin and sucrose, while compact embryogenic calli were enhanced in three other clones (PB 260, PB 235 and GT1). Callus friability was enhanced in clone PB 260 when the concentration of one growth factor (3,4-d or kinetin) was reduced from 4.5 μLM to 0.45 μM during the first culture, or when high sucrose or calcium levels 351 mM and 12 mM, respectively) were maintained during subcultures. The different macronutrient media did not alter callus texture but only use of MH and Murashige and Skoog (MS) media led to somatic embryogenesis. Friable calli obtained by modifying the auxin/cytokinin balance lost their embryogenic potential. In contrast, those obtained on media with high sucrose or calcium concentrations were mainly composed of embryogenic cells embedded in a mucilaginous matrix. Such calli could be of potential interest for establishing embryogenic cell suspension cultures.

Histology of somatic embryogenesis.

Asexual multiplication is a unique process by which plants give rise to new individuals identical to the parent plant. This potential can be directly extended by microcutting, an in vitro vegetative propagation technique. Cell totipotency is also specific to the plant kingdom and expressed in in vitro cultures by the ability to regenerate embryos from somatic cells. Somatic embryogenesis was demonstrated in the 1950s in carrots (Steward et al., 1958); subsequently it has been obtained easily in certain plants but with much more difficulty in others (Ammirato, 1983a). The many advantages of this method, which combines enhanced regeneration (theoretically true to type) with rejuvenation, have incited numerous recent studies aimed at optimizing experimental conditions for somatic embryogenesis in monocots (Vasil, 1987), dicots (Raghavan, 1986; Rangaswamy, 1986; Ammirato, 1989).