Fruit formation of the distylous species Jasminum fruticans L. (Oleaceae)

The article presents the results of a comparative analysis of the fruit formation of long-styled and short-styled plants Jasminum fruticans L. (Oleaceae). The long-styled flowers have larger ovaries and ovules than short-styled ones. Visual signs of degeneration and reduction of the structures of the ovules were not detected. At the same time, the morphs of J. fruticans differ in fruit formation. The proportion of dimeric fruits with two seeds is greater in long-styled plants. Three periods of abortion of fruits/seeds were identified: (1) 1-7 days after flowering correspond to the stage of pollination and fertilization; (2) 8-14 days are the proembryonic stage of embryogenesis; (3) 15-35 days are the stage of globular embryo. The periods of fruits abortion are the same for long- and short-styled plants. Statically significant difference between morph was revealed in the first period of abortion. Differences in morphs of fruits formation indicate less effective pollination and fertilization in short-styled plans. The fruits of J. fruticans mature three months after flowering.

IDENTIFIKASI FENOMENA SELF-INCOMPATIBILITY PADA Hibiscus rosa-sinensis L.

Hybridization is one way to produce Hibiscus rosa-sinensis L. which have various shape and colour of flowers. However, this is hampered by the possibility of self-incompatibility in Hibiscus rosa-sinensis L. To identify self-incompatibility in Hibiscus rosa-sinensis L. the simplest methods are used by observing the morphology and anatomy of fruit development, followed by a descriptive analysis of the data that has been obtained. The analysis results on crossing artificial pollination to 103 flowers of single pink Hibiscus rosa-sinensis L. show that the fruits survive until day 7 after pollination. Furthermore, the data show that there is no fruit, seed, and embryo development. Indeed the fruit turns yellow and finally shed. But the self artificial pollination shows that 35 seeds develop from 96 pollinations. The longer seed, which 13 days after pollination, grew up. The globular embryo could find on 3 DAP (day after pollination) fruit set, and the 9 DAP fruit set shows the development of heart shape. The result suggests that the phenomenon of self-incompatibility on Hibiscus rosa sinensis L. predicts as postzygotic self-incompatibility.

Induction of somatic embryogenesis in Siberian spruce (Picea obovata) in in vitro culture

The biotechnology of somatic embryogenesis in in vitro culture is the most promising direction in the reproduction of conifers. The use of this technology makes it possible not only to massively propagate the best genotypes of trees, but also serves a model for studying the structural, physiological and molecular and genetic mechanisms of both somatic and zygotic embryogenesis in conifers. The main aim of this research was to obtain embryogenic cultures (ECs) producing somatic embryos and embryonic suspension mass (ESM) of Picea obovata. The studies were carried out in 2014-2019 on 30 Siberian spruce trees growing in the vicinity of the city of Krasnoyarsk. To detect genotypes competent for somatic embryogenesis, new donor trees were selected every year for the experiment. 3-10 cones were collected from each tree at different stages of embryo development: globular embryo (the first decade of July), the initiation stage cotyledons (second decade of July), the stage of developed cotyledons (third decade of July) and mature embryos (August). Sterilized explants (zygotic embryos at different stages of development) were introduced into in vitro culture on basic media DCR (Gupta PK and Durzan DJ, 1985), ½LV (Litvay JD et al., 1985), MS (Murashige T and Skoog F, 1962) and AI (Tretyakova IN, 2012). All media were supplemented with myo-inositol - 100 mg/L, casein hydrolyzate - 500-1000 mg/L, L-glutamine - 500 mg/L, sucrose - 30 g/L and agar - 7 g/L. Ascorbic acid at a concentration of 400 mg/L was used as an antioxidant. The level of growth regulators was: 2,4-dichlorophenoxyacetic acid (2,4-D) - 2 mg/L and N6 -benzoaminopurine (BAP) - 1 mg/L. For the proliferation of the ESM, DCR and AI basic media containing 2,4-D (2 mg/L), BAP (0.5 mg/L) and sucrose (20 g/L) were used. The pH was adjusted to pH = 5.8. All culture medium and components were sterilized depending on their termolabile properties. Under aseptic conditions, embryos were removed from megagametophytes and inoculated into nutrient media, 10 explants per flask in 25 replicates. The cultures were incubated in the dark at 24 ± 1 °C. Subcultivation to fresh nutrient medium was carried out every 14 days. To control the quality of cell lines (CL) during subculturing, we performed cytological analyzes using temporary preparations (3-5 preparations for each CL). We evaluated the quality of the embryogenicity of the cultures by the presence of even single structures with pronounced polarity - a globular embryo with a suspensor. The results of the study showed that the induction of callus cultures of Siberian spruce is influenced by such factors as the development stage of the explant, the nutrient medium and the genotype of the donor tree. The introduction of P. obovata immature zygotic embryos into in vitro culture at the stage of the globular embryo, both with megagametophytes and extracted from them, turned out to be ineffective. The induction of callus cultures in Siberian spruce was significantly reduced when mature zygotic embryos were introduced into the culture in vitro. The highest response of explants of Siberian spruce was at the stage of developed cotyledons (See Table 1). In the DCR medium, 90% of explants formed callus (See Table 2). The mineral composition of the media did not significantly affect the induction of callus formation in Siberian spruce. The exception was the MS medium, in which callus cultures were formed only in 41% of explants (See Table 2). The growth of callus cultures was most active in the DCR medium. After 6 months of cultivation, 15-32% of calli remained viable (See Table 2). Cytological analysis of callus cultures showed that they include cells of different types (See Fig. 1 and 2). The first type of cells consisted of elongated cells reaching a length of 10 ± 3 μm, others consisted of isodiametric cells with a diameter of 60 ± 3.5 μm. The somatic embryo globule and embryonic tubes were formed from elongated cells. Isodiametric cells were actively dividing and forming callus. Only 3 cell lines (out of 300 cell lines) belonging to two donor trees had an active ability to proliferate. Globular somatic embryos were actively forming in these cell lines (See Fig. 3). An actively proliferating ESM was formed. Thus, we carried out a comprehensive assessment of the factors influencing the induction of somatic embryogenesis in Siberian spruce. The results obtained indicate that for the successful formation of somatic embryos, the determining factor is not only the choice of donor plants, but also the development stage of the explant. We found that the best stage in the development of zygotic embryos when introduced into in vitro culture of Siberian spruce is the stage of immature embryos with formed cotyledons, while the DCR, ½LV and AI nutrient medium supplemented with growth regulators (2.4-D and BAP) is optimal.

Transcriptome analysis of Euonymus europaeus fruits at different stages of development

The transcript Euonymus europaeus was collected de novo. A comparative analysis of transcriptomes from the stage of the globular embryo and the mature fruit made it possible to identify key DGAT genes at the contrasting stages of the development of E. europaeus fruits.

PENGARUH UMUR EKSPLAN TERHADAP KEBERHASILAN PEMBENTUKAN KALUS EMBRIOGENIK PADA KULTUR MERISTEM JAHE (Zingiber officinale Rosc)

<p>ABSTRAK</p><p>Kendala dalam pengembangan jahe di Indonesia adalah terbatasnyabenih bermutu. Secara konvensional, budidaya jahe dilakukan denganmenggunakan bibit dari potongan rimpang. Dengan cara ini diperlukanbibit dalam jumlah yang banyak, antara 2-3 t/ha untuk jahe yang dipanentua dan 5-6 t/ha untuk yang dipanen muda. Kendala lain adalah penyakittular benih layu bakteri yang disebabkan oleh Ralstonia solanacearum.Salah satu upaya yang dapat dilakukan untuk mendapatkan benih jahebebas penyakit adalah perbanyakan melalui kultur jaringan. Penelitianbertujuan untuk mengkaji sumber eksplan dari tingkat umur panenrimpang yang berbeda terhadap kapasitas pembentukan kalus embriogenikpada kultur meristem jahe putih besar. Penelitian dilakukan di BalaiPenelitian Tanaman Obat dan Aromatik dari September 2007 sampaiMaret 2008, menggunakan rancangan acak lengkap dengan 20 kaliulangan. Bahan tanaman yang digunakan adalah meristem jahe putih besaryang diambil dari rimpang panen muda dan tua. Peubah yang diamatimeliputi: histologi jaringan, persentase kalus embriogenik yang terbentuk,bobot segar kalus, diameter kalus, dan morfologi kalus. Hasil penelitianmenunjukkan adanya daerah meristematik pada sayatan eksplan meristemjahe putih besar ukuran ± 0,25 cm. Persentase kalus embriogenik (92,1%)dan diameter kalus (0,59 mm) dari rimpang yang dipanen tua lebih tinggidari yang dipanen muda. Berat kalus (1,18 g) dan jumlah embrio somatikglobular (29,34) asal eksplan panen tua nyata lebih tinggi dari yangdipanen muda. Kalus embriogenik yang berasal dari eksplan rimpang yangdipanen tua mampu berkembang membentuk embrio somatik danberkecambah menghasilkan planlet normal.</p><p>Kata kunci : Zingiber officinale Rosc., umur rimpang, kalus embriogenik,embriogenesis somatik</p><p>ABSTRACT</p><p>Effect of explants age on the success of embryogenic calliformation in meristem culture of ginger (Zingiberofficinale Rosc.)</p><p>Constraint in ginger cultivation in Indonesia is the limited qualityof planting materials. In conventional cultivation, planting materials weretaken from a piece of rhizomes. By this technique, significant amount ofplanting materials is required, between 2-3 tons/ha for fully harvested and5-6 tons/ha for young harvested rhizomes. Another serious constraint isbacterial wilt disease infection caused by Ralstonia solanacearum. Effortfor obtaining free disease planting materials could be performed throughtissue culture mass propagation. In this study, different ages of rhizome asexplants sources was evaluated for their capacity in embryogenic calliformation on the meristem culture of ginger. The experiment wasconducted in Indonesian Medicinal and Aromatic Crops Research Institutefrom September 2007 to March 2008, using a completely random designwith 20 replicates. Plant material used was white ginger meristem takenfrom the fully and young harvested rhizomes. The observed variables wereexplant histology, percentage embryogenic calli formation (%), freshweight of calli, calli diameter, number of globular embryo, and callimorphology. The results showed a meristematic region at the incisionexplant big-white ginger meristem ± 0.25 cm in size. Percentage ofembryogenic calli formation from the fully harvested rhizome-explant(92.1%) and calli diameter (0.59 mm) were higher than that of the youngerone. Calli weight (1.18 g) and number of globular somatic embryos(29.34) from fully harvested rhizome-explants were significantly higherthan that of the younger one. Embriogenic calli derived from the oldharvested rhizome explants was able to grow well to form somaticembryos and then germinate to produce normal plantlet.</p><p>Key words : Zingiber officinale Rosc, age of rhizome, embriogeniccalli, somatic embryogenesis</p>

Direct evidence that suspensor cells have embryogenic potential that is suppressed by the embryo proper during normal embryogenesis

The suspensor is a temporary supporting structure of proembryos. It has been proposed that suspensor cells also possess embryogenic potential, which is suppressed by the embryo as an effect of the embryo–suspensor interaction. However, data to support this hypothesis are not yet available. In this report, using an in vivo living cell laser ablation technique, we show that Arabidopsis suspensor cells can develop into embryos after removing the embryo proper. The embryo proper plays a critical role in maintaining suspensor cell identity. However, this depends on the developmental stage; after the globular embryo stage, the suspensors no longer possess the potential to develop into embryos. We also reveal that hypophysis formation may be essential for embryo differentiation. Furthermore, we show that, after removing the embryo, auxin gradually accumulates in the top suspensor cell where cell division occurs to produce an embryo. Auxin redistribution likely reprograms the fate of the suspensor cell and triggers embryogenesis in suspensor cells. Thus, we provide direct evidence that the embryo suppresses the embryogenic potential of suspensor cells.

Rape embryogenesis. II. Development of embryo proper

It was found in the continued studies on rape embryogenesis, started by the description of the proembryo (Tykarska, 1976) that the development of embryo is extremely regular and based on differentiating divisions. It appeared that the transverse segmentation boundary and cell walls separating the mother cells of the histogens in the proembryo can be distinguished in all the later stages of the embryo. The border between the cytoledons and epicotyl part of the embryonal axis, and the hypocotyl corresponds to the segmentation boundary between layer l and layer l' at the octant stage. As border between the hypocotyl and radicle was assumed the upper boundary of the root cap reaching usually to the level of the boundary between segments II and III of dermatogen and periblem. The apical meristem of the shoot forms from dermatogen and the periaxial cells of the globular embryo subepidermis. The promeristem of the radicle constists of 3 layers of initial cells surrounding on all sides the inactive layer of central binding cells.

Rape embryogenesis I. The proembryo development

The development of the proembryo of rape <i>Brassica napus</i> L. from the zygote to the young embryo proper is described. A number of regularities were found in the direction, succession, and distribution of segmental and differentiating divisions of the proembryo. The direction of the divisions seems to foe determined by the direction of growth and the shape of the cells. The termyoung embryo proper is proposed to denote the globular embryo which already possesses separate plerome and periblem mother-cells and mother-cells of the iec layer and of clumella. The body of the embryo proper is derived from the apical cell ca which arose from the first division of the zygote and from the hypophysis - the only suspensor cell which closes the spheroid of the embryo. The development of the <i>Brassica napus</i> L. proembryo follows the sub-archetype <i>Capsella bursa-pastoris</i> in the IV megarchetype of Soueges.

Embryonic development of Syagrus inajai (Spruce) Becc. (Arecaceae, Arecoideae), an Amazonian palm

Syagrus inajai (‘pupunharana’) is a native palm of Brazil, with phytogeographic prevalence in the Amazon region. A morpho-anatomical analysis was undertaken in order to gain a better knowledge on the embryonic development and germinative process of the S. inajai. Plant material was collected from the Campus of the Universidade Federal do Amazonas – UFAM, Manaus, Amazonas, Brazil, and processed using standard morphological and anatomical techniques. The development process of the embryo takes ~220 days, and is divided into four stages: proembryo, globular embryo, lateral cordiform and torpedo. The embryo is small, linear, and derived from the terminal cell of the proembryo, arising from mitotic divisions in the apical cell. The embryonic axis is straight, located in the proximal region, aligned parallel to the length of the embryo. The single cotyledon is formed by the ground meristem, procambium and protoderm. The procambium supplies the embryonic axis and the haustorium.