Induction of Zygotic Polyembryos in Wheat: Influence of Auxin Polar Transport

The effects of two auxin polar transport inhibitors, N-1-naphthylphthalamic acid (NPA) and 3,3[prime],4[prime],5,7-pentahydroxyflavone (quercetin), on attaining bilateral symmetry from radial symmetry during early wheat embryogenesis were investigated by using an in vitro culture system. Although NPA and quercetin belong to two different classes of auxin transport inhibitors, the phytotropins and the flavonoids, respectively, they induced the same specific abnormal phenotypes during embryo development. These abnormal embryos differentiated multiple meristems (i.e., multiple shoot and root meristems) and multiple organs (i.e., multiple coleoptiles and scutella). Multiple shoot apical meristem phenotypes were characterized by partly multiplied embryonic axes and supernumerary scutella. The differentiation of multiple primary roots in addition to multiple shoot meristems and multiple scutella led to the formation of polyembryos. The occurrence of multiple shoot meristem phenotypes depended on the concentration of the inhibitor and the developmental stage of the isolated embryo. Embryos treated with NPA or quercetin developed multiple radicle phenotypes less frequently than they developed multiple shoot meristem phenotypes. Our observations suggest that the root meristem differentiates later than the shoot meristem. Our data support the hypothesis that polar transport of auxin has a determining influence on the differentiation of the embryonic axis and the scutellum.     

2,4,5-Trichlorophenoxyacetic acid promotes somatic embryogenesis in the rose cultivar ‘Livin’ Easy’ (<Emphasis Type="Italic">Rosa</Emphasis> sp.)

Somatic embryogenesis (SE) offers vast potential for the clonal propagation of high-value roses. However, some recalcitrant cultivars unresponsive to commonly employed SE-inducing agents and low induction rates currently hinder the commercialization of SE technology in rose. Rose SE technology requires improvement before it can be implemented as a production system on a commercial scale. In the present work, we assessed 2,4,5-trichlorophenoxyacetic acid (2,4,5-T), a synthetic auxin not previously tested in rose, for its effectiveness to induce SE in the rose cultivar ‘Livin’ Easy’ (Rosa sp.). We ran a parallel comparison to the commonly used 2,4-dichlorophenoxyacetic acid (2,4-D). We tested each auxin with two different basal media: Murashige and Skoog (MS) basal medium and woody plant medium (WPM). MS medium resulted in somatic embryo production, whereas WPM did not. 2,4,5-T induced SE over a greater concentration range than 2,4-D's and resulted in significantly greater embryo yields. 2,4,5-T at a concentration of 10 or 25 μM was better for embrygenic tissue initiation than 2,4,5-T at 5 μM. Further embryo development occurred when the tissue was transferred to plant growth regulator (PGR) free medium or media with 40% the original auxin concentration. However, the PGR-free medium resulted in a high percentage of abnormal embryos (32.31%) compared to the media containing auxins. Upon transfer to germination medium, somatic embryos successfully converted into plantlets at rates ranging from 33.3 to 95.2%, depending on treatment. Survival rates 3 months ex vitro averaged 14.0 and 55.6% for 2,4-D- and 2,4,5-T-derived plantlets, respectively. Recurrent SE was observed in 60.2% of the plantlets growing on germination medium. This study is the first report of SE in the commercially valuable rose cultivar ‘Livin’ Easy’ (Rosa sp.) and a suitable methodology was developed for SE of this rose cultivar.     

生长素在植物胚胎早期发育中的作用

有性生殖是有花植物的一个重要特征, 胚胎则是实现有性生殖和世代交替的重要载体。植物胚胎从双受精开始, 经历了合子极性建立、顶基轴形成、细胞层分化和器官形成等过程, 这些过程都受到生长素的调控。近年来的研究表明, 生长素在生物合成、极性运输和信号转导3个层面上调控胚胎的发育过程。该文以双子叶植物拟南芥(Arabidopsis thaliana)为例, 综述了生长素对胚胎早期发育过程, 包括合子极性和顶基轴建立、表皮原特化和对称模式转变、胚根原特化和根尖分生组织形成及茎尖分生组织形成等发育的调控机制。     

Phenomenon of “Siamese embryos” in cereals in vivo and in vitro: Cleavage polyembryony and fasciations

The genesis of wheat microsporial polyembryoids in vitro was analyzed in detail. The nature of different phenotypes of cereal polymeric embryos was identified. They represent the class “multiple shoot meristems,” which results from a cleavage polyembryony and is accompanied by organ fasciations of all known types (radial, flat, or ring). The morphological nature of cereal embryonic organs has been clarified: shoot meristem—axial organ; scutellum—lateral outgrowth of this axis; coleoptile—derivative of shoot meristem but fused with scutellum; terminality of scutellum—the result of linear fasciation that occurred historically. An explanation is given on how the structural model of an auxin polar transport works during the establishment of bilateral symmetry in a cereal embryo that is associated with the inverted polarization of the carrier protein PIN1 on cell membranes and, correspondingly, with the inverted auxin transport performed by this carrier (Fischer-Iglesias et al., 2001; Forestan et al., 2010).     

Effects of auxins,cytokinins, carbohydrates and amino acids on somatic embryogenesis induction from shoot apices of pea

Studies were conducted to test the effects of various auxins, cytokinins, carbohydrates and amino acids on somatic embryogenesis from shoot apices of pea (Pisum sativum L.) cultured on a sole medium. Picloram (4.5 M) and 4-chlorophenoxyacetic acid (45 M) were the most effective auxins. Addition of cytokinins (benzyladenine, zeatin, kinetin) to auxin-containing medium reduced embryo production. Amino acids (glutamine, alanine, proline) did not improve somatic embryogenesis. Carbohydrate seemed to be a critical factor. Embryogenic efficiency and embryo development were promoted by high carbohydrate concentration. The best results were obtained with fructose (252–504 mM); the number of somatic embryos per cultured explant was 3- to 4-fold higher compared to the control (84 mM sucrose). From these results, an optimized induction medium is proposed.Abbreviations BA benzyladenine - 4-CPA 4-chlorophenoxyacetic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA 1-naphthaleneacetic acid - 2,4,5-T 2,4,5-trichlorophenoxyacetic acid - MS Murashige & Skoog - EE embryogenic explants - G globular somatic embryos     

A novel approach to differentiated embryos in the absence of endosperm

Summary In all of the Poaceae tested (Bromus, Festuca, Hordeum, Lolium, Poa, Triticum) the formation of grains without endosperm was induced from unpollinated ovules by treatment with the following synthetic auxins: DIG; 2,4-D; 2,4,5-T; or CPAA. Cytokinins (BAP, ZTN) as well as adenine or gibberellic acid (GA₃) alone were ineffective. In parthenogenetic lines auxin treatment resulted in grains with mature embryos without endosperm. Differences in embryo differentiation were found, which were dependent on the synthetic auxins used, their concentrations, and the developmental stages of the treated spikes or panicles. Thus, the regulation of embryogenesis by the endosperm can be replaced by exogenous auxin application. The developing proembryos of grasses did not need nutritive support from the endosperm.Auxin treatment to give mature embryos without endosperm enables the screening of apomictic species for sexual plants and sexual species for parthenogenetic individuals. It opens ways for inducing haploid parthenogenesis and improves methods for overcoming interspecific crossing barriers.     

Plant regeneration in vitro from embryogenic cultures of spring- and winter-type barley (Hordeum vulgare L.) varieties

Summary Immature embryos of 41 lines of barley were screened in vitro for callus induction and somatic embryogenesis on different media to establish totipotent cultures. The use of modified MS and CC media, both supplemented with 1 g/l casein hydrolysate, and the substitution of agarose for agar resulted in the highest frequencies of somatic embryo induction. Embryogenic callus was induced and plants regenerated from 23 of the lines tested. The auxins 2,4-D, dicamba, picloram and 2,4,5-T were suitable for embryogenic callus induction. High frequencies of somatic embryo germination occurred on CC medium supplemented with 1 mg/l IAA and 0.05 mg/l zeatin. A strong genotypic effect on the capacity and frequency of embryogenic callus formation was found. Cultivar Golden Promise always gave the best results. Experiments with field grown material in 3 consecutive years showed that environmental factors also strongly influenced the induction of somatic embryogenesis and plant regeneration.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - 2,4,5-T 2,4,5-trichlorophenoxyacetic acid - dicamba 3,6-dichloro-o-anisic acid - picloram 4-amino-3,6,6-trichloropicolinic acid - NAA naphtaleneacetic acid - IAA indole-3-acetic acid - ABA abscisic acid - BAP 6-benzyl amino purine - 2iP 6-(3-methyl-2 butenyl 1-amino)purine - GA₃ gibberellic acid     

Pepper (<Emphasis Type="Italic">capsicum annuum</Emphasis> L.) regenerants obtained by direct somatic embryogenesis fail to develop a shoot

Summary Three auxin-type herbicides, namely 2.4-dichlorophenoxyacetic acid (2,4-D), (4-chlorophenoxy)acetic acid 2-(dimethylamino)ethyl ester (centrophenoxine), and quinolinecarboxylic acid (quinclorac) induced direct somatic embryogenesis in seed-derived zygotic embryo explants of sweet pepper (Capsicum annuum L.) when added to Murashige and Skoog medium with 200 mM sucrose. Optimum concentrations for embryogenesis induction were 0.40–0.45 mM and 1.15–1.30 μM for 2.4-D and centrophenoxine, respectively (in the presence of 5.0 gl⁻¹ activated charcoal), or 40 μM for quinclorac (in medium without activated charcoal). Somatic embryos emerged from the epidermal and subepidermal tissues and developed on the surface of the explant. Centrophenoxine- or 2.4-D-mediated embryogenesis was accomplished from 95% of the explants in about 3 wk and, on average, six embryos were formed per explant. Induction efficieney was lower for quinelorac. Centrophenoxine-mediated embryognesis was possible in 10 pepper cultivars, the extent of the reponse-being genotype-dependent. embryos detached from the explant and transplanted onto a growth regulator-free medium germinated; however, the recovered regenerants were without a shoot, and some of them bore a single deformed cotyledon while others had no cotyledons. Regenerants lacking a shoot were generated irrespective of the auxin type applied and across all responsive genotypes investigated. Absence of a shoot, resulting from a failure in the establishment of a normal functioning apical shoot meristem, was the principal developmental disorder that precluded regeneration of normal plants via direct somatic embryogenesis. Since stem cells of the shoot meristem become established in globular and heart-stage embryos, we deduce that the absence of a shoot in germinating embryos could orginate from deviant differentiation at these early stages of embryogeny.     

Triiodobenzoic acid, an auxin polar transport inhibitor, suppresses somatic embryo formation and postembryonic shoot/root development in Eleutherococcus senticosus

The effect of auxin polar transport inhibitor on somatic embryo development and postembryonic growth in Siberian ginseng (Eleutherococcus senticosus) was examined. In the presence of 2,3,5-triiodobenzoic acid (TIBA), an auxin polar transport inhibitor, embryo formation from embryogenic cells was suppressed, while cell division was not affected. When globular embryos at different stages were transferred onto medium containing TIBA, development of axial and bilateral polarity was suppressed in a stagespecific manner. In abnormal embryos induced by TIBA, further development of shoot and root apical meristems and vascular differentiation was also suppressed. Thus, abnormal development of embryos induced by inhibition of auxin polar transport resulted in plantlets without shoots and roots.     

Induction of somatic embryos in cotyledonary tissue of soybean,Glycine max L. Merr

A method for the induction of somatic embryos in soybean tissue cultures is described. Cotyledons from immature embryos were utilized as explant source. Supplementing the culture medium with auxins (2,4-D, MCPA, 2,4,5-T, NAA, IAA, IBA) caused formation of meristematic tissue on cotyledon explants. The extent of meristematic tissue formed depended on the kind and concentration of auxin in the culture medium. With 2,4-D and MCPA, embryoids originated from meristematic tissue. Embryoid formation rates were influenced by the developmental stage of the embryos serving as explant source and auxin concentration. Addition of cytokinins to the medium containing 2,4-D or supplementing it with high sugar concentrations inhibited the formation of meristematic tissue and of embryoids on cotyledon explants.Abbreviations BA 6-benzyladenin - 2,4-D 2,4-dichlorphenoxyacetic acid - IAA indoleacetic acid - IBA indolebutyric acid - MCPA 2-methyl-4-chlorophenoxyacetic acid - NAA -naphthaleneacetic acid - 2,4,5-T 2,4,5-trichlorophenoxyacetic acid - L2 Phillips and Collins (1979) medium Present and correspondence address: Akademie der Landwirtschaftswissenschaften der DDR, Institut für Pflanzenernährung, DDR-6909, Jena     

Direct somatic embryogenesis and plant regeneration from immature explants of chickpea

A protocol for plant regeneration via somatic embryogenesis was developed in two chickpea (Cicer arietinum L.) cultivars ICCV-10 and Annigeri. Somatic embryos were induced from immature cotyledons on Murashige and Skoog’s (MS) medium supplemented with different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D), 2,4,5-trichlorophenoxyacetic acid (2,4,5-T), α-naphthaleneacetic acid (NAA) and picloram alone or in combination with 0.5 — 2.0 mg dm⁻³ N⁶-benzylaminopurine (BA) or kinetin (KIN). NAA was better for somatic embryo induction compared to other auxins. The well formed, cotyledonary shaped embryos germinated into plantlets with 36.6 % frequency on MS medium supplemented with 2.0 mg dm⁻³ BA + 0.5 mg dm⁻³ abscisic acid (ABA). The frequency of embryogenesis and plantlet regeneration was higher in cv. ICCV-10 as compared to cv. Annigeri. Regenerated plants were transferred to soil (40 % survival) and grown to maturity. Histological studies of explants at various developmental stages of somatic embryogenesis reveled that somatic embryos developed directly from the cotyledon cells and they were single cell origin.     

Study of aberrant morphologies and lack of conversion of somatic embryos of chickpea (Cicer arietinum L.)

Summary Somatic embryos which originated from mature embryo axes of the chickpea (Cicer arietinum L.) showed varied morphologies. Embryos were classified based on shape of the embryo and number of cotyledons. “Normal” (zygotic-like) embryos were bipolar structures with two cotyledons and a well-developed shoot and root apical meristem, whereas “aberrant” embryos were horn-shaped, had single and multiple cotyledons, and were fasciated. Histological examination revealed the absence of a shoot apical meristem in horn-shaped embryos. Fasciated embryos showed diaxial fusion of two embryos. Secondary embryogenesis was also observed, in which the embryos emerged from the hypocotyl and cotyledonary region of the primary somatic embryo. This report documents the absence of an apical meristem as a vital factor in the lack of conversion of aberrant somatic embryos.     

Role of 2,4-dichlorophenoxyacetic acid (2,4-D) in somatic embryogenesis on cultured zygotic embryos of Arabidopsis: cell expansion, cell cycling, and morphogenesis during continuous exposure of embryos to 2,4-D

The relationship between cell expansion and cell cycling during somatic embryogenesis was studied in cultured bent-cotyledon-stage zygotic embryos of a transgenic stock of Arabidopsis thaliana harboring a cyclin 1 At:β-glucuronidase (GUS) reporter gene construct. In embryos cultured in a medium containing 2,4-dichlorophenoxyacetic acid (2,4-D), following a brief period of growth by cell expansion, divisions were initiated in the procambial cells facing the adaxial side at the base of the cotyledons. Cell division activity later spread to almost the entire length of the cotyledons to form a callus on which globular and heart-shaped embryos appeared in about 10 d after culture. Anatomical and morphogenetic changes observed in cultured embryos were correlated with patterns of cell cycling by histochemical detection of GUS-expressing cells. Although early-stage somatic embryos did not develop further during their continued growth in the auxin-containing medium, maturation of embryos ensued upon their transfer to an auxin-free medium. In a small number of cultured zygotic embryos the shoot apical meristem was found to differentiate a leaf, a green tubular structure, or a somatic embryo. Contrary to the results from previous investigations, which have assigned a major role for the shoot apical meristem and cells in the axils of cotyledons in the development of somatic embryos on cultured zygotic embryos of A. thaliana, the present work shows that somatic embryos originate almost exclusively on the callus formed on the cotyledons. Other observations such as the induction of somatic embryos on cultured cotyledons and the inability of the embryo axis (consisting of the root, hypocotyl, and shoot apical meristem without the cotyledons) to form somatic embryos, reaffirm the important role of the cotyledons in somatic embryogenesis in this plant.     

Coordination of apical and basal embryo development revealed by tissue-specific GNOM functions

Flowering-plant embryogenesis generates the basic body organization, including the apical and basal stem cell niches, i.e. shoot and root meristems, the major tissue layers and the cotyledon(s). gnom mutant embryos fail to initiate the root meristem at the early-globular stage and the cotyledon primordia at the late globular/transition stage. Tissue-specific GNOM expression in the gnom mutant embryo revealed that both apical and basal embryo organization depend on GNOM provascular expression and a functioning apical-basal auxin flux: GNOM provascular expression in gnom mutant background resulted in non-cell-autonomous reconstitution of apical and basal tissues which could be linked to changes in auxin responses in those tissues, stressing the importance of apical-basal auxin flow for overall embryo organization. Although reconstitution of apical-basal auxin flux in gnom results in the formation of single cotyledons (monocots), only additional GNOM epidermal expression is able to induce wild-type apical patterning. We conclude that provascular expression of GNOM is vital for both apical and basal tissue organization, and that epidermal GNOM expression is required for radial-to-bilateral symmetry transition of the embryo. We propose GNOM-dependent auxin sinks as a means to generate auxin gradients across tissues.     

Influence of growth regulators on somatic embryogenesis in sesame

Somatic embryos were induced from hypocotyl-derived callus of sesame (Sesamum indicum Var. TMV 6). The influence of different auxins and cytokinins on somatic embryogenesis was investigated. Among the different auxins tested, 2,4-dichlorophenoxy acetic acid was the most effective and resulted in the highest frequency of responding cultures and highest average number of somatic embryo per responding cultures napthaleneacetic acid, indoleacetic acid, indolebutyric acid and 2,4,5-trichlorophenoxypropionic acid were also effective for embryogenesis, but 2,4,5-trichorophenoxyacetic acid and napthoxyacetic acid were not beneficial. The combined effect of cytokinins with 2,4-d was also studied. Among the four cytokinins tested, 2.2 chμM benzyladenine with 13.6 chμM 2,4-d slightly enhanced embryogenic efficiency; while kinetin, zeatin, 6-γ-γ-dimethylallylaminopurine enhanced the frequency of responding cultures. There was a decrease in the number of somatic embryos per culture in the presence of all cytokinins. This revised version was published online in June 2006 with corrections to the Cover Date.     

几种生长素对木薯体细胞胚发生和植株再生的作用

木薯（ＭａｎｉｈｏｔｅｓｃｕｌｅｎｔａＣｒａｎｔｚ）嫩叶外植体在含２,４－Ｄ（１－１６ｍｇＬ－１）或ＮＡＡ（４０ｍｇＬ－１）的诱导培养基上能直接诱导初生体细胞胚胎发生,而低活性的生长素ＩＢＡ或ＩＡＡ（４０ｍｇＬ－１）或低浓度的２,４－Ｄ（０．１ｍｇＬ－１）则不能。而以木薯初生体细胞胚切段为外植体时,次生体细胞胚的诱导对生长素的活性或浓度的要求降低。降低生长素浓度或活性能缩短体细胞胚诱导时间并促进根的形成,有利于提高体细胞胚的再生频率。体细胞胚外植体在诱导培养基上的培养时间对下一步体细胞胚胎发生的诱导产生影响。通过石腊切片观察,在含２,４－Ｄ诱导培养基上,木薯体细胞胚不能形成芽分生组织。结果表明,２,４－Ｄ等生长素类物质对诱导木薯体细胞胚胎发生是关键因子,但对体细胞胚的进一步发育和植株再生起抑制作用。     

Inhibition by 2,4-D of somatic embryogenesis in carrot as explored by its reversal by difluoromethylornithine

The development of somatic embryos is, in many plants, inhibited by 2,4-dichlorophenoxyacetic acid (2,4-D) and other auxins. The finding that difluoromethylornithine (DFMO) can counteract this inhibition has been used to test some of the hypotheses for the mechanism of inhibition.
Inhibition of somatic embryogenesis in carrot ( Daucus carota L.) by exogenous ethylene (from ethephon), antioxidants (ascorbic acid and glutathione), ethanol/acetaldehyde and abscisic acid was not counteracted by DFMO, indicating that the inhibitory effect of 2,4-D is not manifest through the formation of these compounds. Embryogenesis was abolished by micromolar concentrations of the polar auxin transport inhibitors 2, 3, 5-triiodobenzoic acid (TIBA), N-1-naphthylphthalamic acid (NPA) and 9-hydroxyfluorene-9-carboxylic acid (HFCA). This inhibition was counteracted to a considerable extent by DFMO. Inhibition by relatively high concentrations of the antiauxin 2-( p -chlorophenoxy)-isobutyric acid (CPIB), which does not affect polar auxin transport, was in contrast not counteracted by DFMO. These findings indicate that exogenous auxins may inhibit embryogenesis by interfering with the ability of postglobular embryos to set up internal auxin gradients necessary for polarized growth.     

Optimisation of somatic embryogenesis in fourteen cultivars of sweet potato [Ipomoea batatas (L.) Lam.]

Culture procedures have been developed to facilitate the induction and maintenance of somatic embryogenic tissues in 14 out of 16 tested cultivars of sweet potato [Ipomoea batatas (L.) Lam]. Both the size of the axillary bud explant and the type of auxin were found to be critical for the successful induction of somatic embryogenesis. Of the five auxins screened 2,4-dichlorophenoxyacetic acid 2,4-D and 2,4,5-trichlorophenoxyacetic acid were the most effective, with use of the latter inducing the production of embryogenic tissues in 7 cultivars which responded poorly or not at all to 2,4-D. Procedures for secondary/cyclic embryogenesis, formation of mature embryos and their conversion to plants are also described. Received: 24 September 1996 / Revision received: 16 December 1996 / Accepted 27 January 1997     

Regulation of organogenesis and somatic embryogenesis by auxin in melon,Cucumis melo L.

Various tissues of seeds and seedlings of melon were cultured in vitro to study the effects of auxin concentration on organogenesis and embryogenesis. Adventitious shoots and somatic embryos were formed from explants of cotyledons of mature seeds, hypocotyls of seedlings, and leaves and petioles of young plantlets. Expanded cotyledons of seedlings formed only adventitious shoots. All tissues responded similarly to the 2,4-D concentration in the media, that is, adventitious shoots were formed at low concentration, callus proliferated without differentiation at intermediate concentration and somatic embryos were induced at high concentration. Cotyledons of mature seeds formed both adventitious shoots and somatic embryos more efficiently than any other tissues cultured.Effects of three auxins, 2,4-D, NAA and IAA, on organogenesis and embryogenesis were compared using cotyledons of mature seeds. Adventitious shoots were formed at low level of auxins (0 to 0.01 mg/l 2,4-D; 0 to 0.1 mg/l NAA; 0 to 1.0 mg/l IAA), and embryos were formed at high level of auxins (1.0 to 2.0 mg/l 2,4-D; 3.0 to 10.0 mg/l NAA; 20.0 to 100.0 mg/l IAA). IAA gave more efficient shoot formation and embryogenesis than the other auxins.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - IAA 3indoleacetic acid - BA 6-benzylaminopurine - MS Murashige and Skoog