Direct Somatic Embryogenesis in Roots of Cichorium: Is Callose an Early Marker?

Direct somatic embryogenesis can be obtained from epidermaland cortical cells in roots from in vitro Cichorium plantlets.The first embryogenic cells are seen after six days of culturein darkness, at 35 °C, in a liquid medium supplemented withNAA (1 x 10^–7 M), 6-dimethylallyl-amino-purine (2·5x 10^–6 M), sucrose (0.03 M) and glutamine (1·7x 10^–3 M). Embryogenic cells undergo first a linear andthen a globular segmentation, with increasing cytoplasmic density.These cells and young embryoids show aniline blue fluorescence.SEM allows the same microglobular pattern to be seen on thesurface of young embryoids and on young microspores of Cichoriumused as controls. In this root system, callose deposition seemsto be an early marker in somatic embryogenesis. Somatic embryogenesis, callose, Cichorium     

There is No Somatic Meiosis in Embryogenic Leaves of Cichorium

Several papers dealing with carrot cell cultures describe meiosis-likedivisions and haploid cells prior to somatic embryogenesis.We have studied the first division in embryogenic mesophyllcells of a diploidCichorium intybus L. and of a tetraploid hybridC.intybus L.xC. endivia L. which undergo direct somatic embryogenesisfrom single cells when leaf fragments are placed in a liquidagitated inductive medium (modified MS with 1x10^-7M NAA and2.5x10^-6M 2-iP), in darkness, at 35°C. MicrosporogenesisinC. intybus provided aspects of meiosis for comparison. Inleaves incubated in inductive conditions, DAPI staining of nucleishowed normal mitosis on days 3–6; about 0.6% cells inprophase had undergone spontaneous endoreduplication leadingto a tetraploid somatic embryo. Immunocytochemistry of tubulinrevealed the constant presence of a preprophase band, as ina normal mitosis. The first pluricellular somatic embryos becamevisible on day 5 of culture. Flow cytometric determination ofnuclear DNA on days 4, 5 and 6 did not show any peak correspondingto the 1C DNA level for the diploid plant or to the 2C DNA levelfor the tetraploid. Instead there was a weak but constant peakat the 4C and 8C levels. We conclude that inCichorium leaves,the first division of somatic embryogenesis is a normal mitosis,with a small shift to endoreduplication. In our opinion, somaticmeiosis is not a prerequisite during direct somatic embryogenesis. Cichorium ; chicory; somatic embryogenesis; cell division; flow cytometry; tubulin     

SEM Characterization of an Extracellular Matrix Around Somatic Proembryos in Roots of Cichorium

Roots of in vitro plantlets of a hybrid Cichorium intybus L.x C. endivia L. placed for 10 d in an agitated liquid inductionmedium in darkness at 35 °C give somatic embryos of varioussizes which disrupt the epidermis. Proembryos can be observedinside the root; they show a fibrillar network linking the surfacecells. The network is observed in agitated and static liquidmedium; it is not well developed on solid medium. It is notremoved by lipid solvents and pectinase but disappears partlywith protease. Ether-methanol (1:1 v/v) for 45 min and Tris-HC1buffer for 3 h at 30 °C destroy it. As in animal cells suchexternal proteic networks are constituents of an extracellularmatrix linked to the cytoskeleton, we tested microtubule destabilizationby colchicine and cold treatments which removed the network;this effect was reversed by DMSO and high temperature. Cichorium, extracellular matrix, extracellular proteins, somatic embryogenesis     

Use of calcium to optimize long-term proliferation of friable embryogenic calluses and plant regeneration in Hevea brasiliensis (Mll. Arg.)

In Hevea brasiliensis (Mll. Arg.), increasing the calcium contentof the friable callus maintenance medium from 3 to 9 mM stimulatedregeneration potential through somatic embryogenesis. This stimulationcould be attributed to the homogeneous cytological structureof calluses, which were formed of undifferentiated cells capableof somatic embryogenesis in optimal culture conditions. Thevery marked increase in the active cell population was sufficientto cause a decrease and a stabilization of water and osmoticpotentials of the calluses, whereas their water content increased.The regeneration capacity of calluses cultured on a medium withadditional CaCl₂ was greater in terms of both quantity (numberof somatic embryos produced was increased 2-fold) and quality(germination efficiency trebled). High CaCl₂ concentrations (9 mM CaCl₂) in the embryogenesisinduction medium favoured somatic embryo development when calluseswere maintained 2 months on the same medium. In this case, additionof benzylaminopurine (BAP) and 3,4-dichlorophenoxy- acetic acid(3,4-D) increased the number of embryos produced (243 embryosg^–1 FW callus) and their germination capacity (27%). These culture conditions were used to determine the optimumembryogenesis induction period. The length of the period affectedboth the intensity of embryogenesis (maximum 56–77 d)and somatic embryo quality (maximum 49–70 d). The bestresults were obtained with a 70 d embryogenesis induction period,within which 355 embryos g^–1 FW callus were obtained,with 35% germination. Key words: Calcium, somatic embryogenesis, long-term culture, water status, histology     

Interactive effect of light,temperature and TDZ on the regeneration potential of leaf discs of <Emphasis Type="Italic">Fragaria x ananassa</Emphasis> Duch

This is the first report where shoot regeneration in strawberry cultivar Chandler has been achieved simultaneously through both somatic embryogenesis and shoot bud formation. Direct somatic embryogenesis was observed in leaf discs which were cultured on medium containing MS salts + B₅ vitamins + 2% glucose + 18.16 μM thidiazuron (TDZ) and given both chilling and dark treatment for 2 wk at 4 ± 2°C followed by incubation at 25 ± 2°C under 16-h photoperiod for third wk. After 3 wk, these explants were then subcultured on medium containing MS salts + B₅ vitamins + 2% glucose and incubated under 16-h photoperiod at 25 ± 2°C for further growth and development. Direct regeneration via de novo shoot bud formation was observed in leaf disks which were given dark treatment and were cultured on medium containing MS salts + B₅ vitamins + 2% glucose supplemented with 9.08 μM TDZ. There was a synergistic effect of photoperiod, dark, and chilling treatments on somatic embryogenesis, whereas chilling treatment had an inhibitory effect on shoot organogenesis.     

Improvement of somatic embryogenesis in wild cherry (Prunus avium). Effect of maltose and ABA supplements

Three different types of morphogenesis were identified in embryogenic cultures of Prunus avium grown on a proliferation medium containing 0.54 μM NAA, 0.46 μM kinetin and 0.44 μM BA: a friable hyperhydric callus, repetitive embryogenesis and an embryogenic tissue. Translucent and white somatic embryos were produced from the three types of morphogenesis but mainly from the embryogenic tissue. These somatic embryos showed histological and cytological teratological features such as highly differentiated cells with shrunken cytoplasm and destructured nuclei. For the four lines studied, somatic embryo production was improved by transferring the embryogenic tissue to developmental media without auxin and cytokinin but supplemented with maltose alone or maltose and 10 μM ABA. Three weeks after transfer, the line showing the most embryogenesis produced 1404 somatic embryos per gram of embryogenic tissue. A concentration of 263 mM maltose significantly increased the number of white somatic embryos for L 10 line, while translucent somatic embryo production was improved by 88 mM maltose for L 16 line. The combination of maltose and ABA produced different effects with each line. When used with 88 mM maltose, 10 μM ABA significantly increased white somatic embryo production for two lines but decreased the production for one line. When combined with 263 mM maltose, ABA had no effect on white somatic embryo production but significantly decreased the number of translucent somatic embryos. Cells of white somatic embryos contained protein storage reserves and numerous lipid bodies, while those of translucent embryos did not contain storage reserves or lipid bodies. After a two-month cold treatment conversion rate of white and translucent somatic embryos reached 8.5% and 35.2% respectively. This revised version was published online in June 2006 with corrections to the Cover Date.     

Somatic Embryogenesis and Regeneration of in Plantlets in Pomegranate

Plantlets were regenerated from somatic embryos originatingfrom cotyledonary tissues of pomegranate (Punica granatum) throughmultiple somatic embryogenesis. Embryogenic cell clusters proliferatedvigorously with regular sub-culturing after 20 d on RBM-II mediumcontaining 1 µM kinetin (KN), 2 µM benzylamino purine(BAP) and 5 µM 2,4-dichlorophenoxyacetic acid (2, 4-D).Developmental stages of somatic embryos were expressed on sub-culturingwith a low level of 2, 4-D (2.5 µM). Embryogenic initialscells were small, round to oval, thick-walled, contained densecytoplasm which stained with acetocarmine and were usually attachedto non-embryogenic cells. Embryo maturation was obtained onRBM-III and IV media to produce young seedlings on the initiationof the first long tap root. Punica granatum L., pomegranate, multiple somatic embryogenesis, callus culture, plant regeneration     

Co-Localization of β-1,3-Glucanases and Callose During Somatic Embryogenesis in Cichorium

During direct somatic embryogenesis in leaves of Cichorium hybrid clone ‘474’, 38 kDa β-1,3-glucanases are accumulated in the culture medium of the embryogenic hybrid to a higher level when compared with a non-embryogenic cultivar. In the same time, embryogenic cells were surrounded by a cell wall that was characterized by the presence of callose. This callosic deposition disappeared as embryos grew. Callose consisted of β-1,3-glucan linkages and so represented a possible substrate for β-1,3-glucanases. Using immunolocalization experiments, we demonstrated that from the three types of callose deposits observed during the culturing of Cichorium leaf explants, only the callose present in the walls surrounding reactivated cells seemed specifically related to somatic embryogenesis. Moreover, callose and the 38-kDa β-1,3-glucanases were co-localized dispersed throughout the thick and swelled walls of reactivated cells and embryo cell walls. This suggests that callose and β-1,3-glucanases are implicated in the process of somatic embryogenesis since they were always detected in or quite near embryogenic and embryo cell. This also suggested that β-1,3-glucanases could be involved in the degradation of this callose.Key Words: β-1,3-glucanases, callose, Cichorium, immunolocalizations, somatic embryogenesis     

Indirect somatic embryogenesis and morphohistological analysis in <Emphasis Type="Italic">Capsicum chinense</Emphasis>

Capsicum chinense is recalcitrant in in vitro morphogenesis. No efficient, reproducible somatic embryogenesis regeneration system exists for this species, impeding regeneration from transformed cells. An indirect somatic embryogenesis protocol is developed using mature C. chinense zygotic embryo segments (ZES). The ZES cultured in semi-solid Murashige-Skoog (MS) medium supplemented with 8.9 μM naphthaleneacetic acid, 11.4 μM indoleacetic acid and 8.9 μM 6-benzylaminopurine, developed an embryogenic callus and 8% of the calli developed somatic embryos. Torpedo-stage somatic embryos were detached from the callus and subcultured in semi-solid MS medium without growth regulators, producing a 75% conversion rate to plantlets with well-formed root tissue. Histological analysis showed the developed structures to have no vascular connection with the callus and to be bipolar, confirming that this protocol induced formation of viable somatic embryos from mature C. chinense ZES. All acclimated plantlets survived under greenhouse conditions. This protocol will facilitate regeneration of genetically transformed plants using either biolistics or Agrobacterium tumefaciens approach.     

Hormonal Control of Organogenesis and Somatic Embryogenesis inBeta vulgarisCallus

Tétu, T., Sangwan, R. S. and Sangwan-Norreel, B. S. 1987.Hormonal control of organogenesis and somatic embryogenesisin Beta vulgaris callus.—J. exp. Bot. 38: 506–517. Three main pathways of morphogenesis viz: root formation, shootformation and somatic embryogenesis, have been observed in thecallus derived from various explants of Beta vulgaris L. Growthhormones but not the basal media, determined the morphogeneticpotentiality of the callus. Auxin alone induced root formation.A combination of an auxin (naphthalene acetic acid) and a cytokinin(6-benzylaminopurine) gave only infrequent bud formation withvery low percentages (a maximum of 12%). Regular bud formationwith high percentages (52%) occurred when an anti-auxin (2,3,5-triiodobenzoicacid) with a cytokinin (BAP) was used. Shoots (2–3 cm)were transferred to a rooting medium. Roots were formed readilyin about 95% of the shoots. Histological studies showed thatcallus first formed meristematic zones and then shoot primordiadeveloped in these zones. Somatic embryos were formed only inthe calli derived from petiole explants. Multiple hormonal sequenceswere necessary for the induction and development of these somaticembryos. The embryos developed into normal plants when transferred,at the cotyledonary stage, to a hormone free basal medium. Key words: Beta vulgaris, organogenesis, somatic embryogenesis     

Effects of glycerol on somatic embryogenesis in Cichorium leaves

 Direct somatic embryogenesis was induced in leaf cells of a Cichorium hybrid (Cichorium intybus L var. sativum×Cichorium endivia L. var. latifolia) through a two-step procedure. Leaf tissue explants were cultured for 5 days in M17 liquid medium supplemented with 30 mM sucrose and 330 mM glycerol (M17S30Gly330 medium). Synchronised divisions of embryogenic cells occurred after transfer for 7 days onto glycerol free-medium (M17S30). By doubling the sucrose concentration (60 mM) in the presence of glycerol (M17S60Gly330) during the induction step, embryogenesis increased and the length of the induction step was reduced from 5 to 4 days. Compared to sucrose, glycerol as carbon source during the induction and the expression steps had an inhibitory effect on the embryogenic response. During culture, glycerol was not detected in M17S60 medium and was at a low level in leaf fragments incubated in this medium. Initially supplied as an osmoticum, glycerol disappeared from M17S60Gly330 medium during the 4-day induction period and penetrated into the tissues where most of was metabolised. Furthermore, glycerol modified it carbohydrate metabolism, particularly during the induction period of embryogenesis. Sucrose hydrolysis was affected in the medium and sucrose and hexose contents in tissues were higher than in glycerol-free medium. The effects of glycerol as osmoticum and as a molecule itself are discussed. Received: 30 January 1998 / Accepted after revision 25 February 1999     

Induction and comparison of different in vitro morphogenesis pathways using embryo of cumin (<Emphasis Type="Italic">Cuminum cyminum</Emphasis> L.) as a model material

In this study, using cumin embryo as explant and manipulating plant growth regulators (PGRs) in regeneration medium, the main in vitro morphogenesis pathways including direct shoot organogenesis, direct somatic embryogenesis, indirect somatic embryogenesis, and indirect shoot organogenesis were obtained. The effects of PGRs, subculture, and light on the induction and progression of different pathways were studied in detail. Direct shoot organogenesis occurred on the meristematic zone, while direct somatic embryogenesis was observed on hypocotyl part of cumin embryo (more differentiated part). Application of BAP (0.1 mgl⁻¹) was the sole triggering factor for induction of callus and indirect regeneration pathways. Exogenous IAA played the central role in the direct somatic embryogenesis pathway; however, the combined effects of IAA and NAA along with the high endogenous cytokinin level resulted in direct shoot organogenesis. Subculturing revealed accelerating effects on direct somatic embryogenesis pathway and callus formation. Conversely, subculturing had negative effect on direct shoot organogenesis pathway. In certain combinations of PGRs, like 0.4 mgl⁻¹ IAA + 0.4 mgl⁻¹ NAA, co-induction and co-regeneration of different pathways were observed. Investigation of genotype dependencies of different pathways showed that direct pathways are more genotype-dependent, stable, and faster than indirect pathways. This research presents the embryo of cumin as a convenient model material for induction and comparison of different morphogenesis pathways.     

Ultrastructural Changes in Leaves of Cichorium during Somatic Embryogenesis

A detailed electron microscopy study of early cellular eventsduring somatic embryogenesis in leaves of Cichorium is described.Leaves on in-vitro grown plantlets were sectioned and put at35°C, in darkness, in an agitated liquid induction medium.No sign of embryogenic predetermination, such as thick cellwall, dense cytoplasm and enlarged nucleus, could be seen inany cell before treatment. Perivascular cells were the firstto react. Addition of glycerol (330 mM) allowed the arrest ofembryogenic cells at an activated stage. The main events werea thickening of the wall, with extracellular secretion and anaccumulation of Ca²⁺ in the vacuole, demonstrated by an antimonateprocedure. After 5 d, leaves were transferred to glycerol-freemedium where multicellular proembryos could be observed. Theyshowed reduced vacuoles, cortical microtubules, numerous multivesicularbodies and lipid globules. The embryoid cells were lined alongthe mesophyll lacunae by an extracellular secretion with a tubularstructure; histochemical tests proved its complex lipo-glyco-proteicnature.Copyright 1993, 1999 Academic Press Cichorium, extracellular tubular protein, somatic embryogenesis, vacuolar calcium     

High-frequency plant regeneration via somatic embryogenesis and organogenesis and in vitro flowering of regenerated plantlets in Panax ginseng

 The morphogenesis ability of light yellowish globular callus derived from cotyledons of mature zygotic embryos of Panax ginseng was investigated. The optimal media for somatic embryogenesis and shoot organogenesis were MS medium containing 0.5 mg l^–1 2,4-dichlorophenoxyacetic acid, 0.1 mg l^–1 6-benzyladenine (BA), and 500 mg l^–1 lactoalbumin hydrolysate, and SH medium supplemented with 0.5 mg l^–1 α-naphthaleneacetic acid, 0.1 mg l^–1 BA, and 500 mg l^–1casein hydrolysate. The influences of glucose, mannose, fructose, and sorbose in the media on somatic embryogenesis and shoot organogenesis were revealed as differences in the numbers of somatic embryos and adventitious shoots per gram of morphogenic callus. The best regeneration of somatic embryos was obtained on medium containing glucose, with a mean of 8.7 somatic embryos per gram of callus. The best regeneration of shoots was observed on medium containing fructose, with an average of 12.2 adventitious shoots per gram of callus. Of the somatic embryos 95% were converted into regenerated plantlets, and 100% of adventitious shoots rooted to form regenerated plantlets. Regenerated plants were successfully established in soil. Flowering was observed in 5.7% of the regenerated plants derived from shoot organogenesis and in 1.4% of the regenerated plants derived from somatic embryogenesis. Received: 1 December 1998 / Revision received: 13 September 1999 / Accepted: 20 September 1999     

Shoot apex explants for induction of somatic embryogenesis in mature Quercus robur L. trees

A procedure for inducing somatic embryos in shoot apex explants (2 mm) excised from shoot proliferation cultures established from adult oak trees (Quercus robur) was investigated. Embryogenesis was induced in shoot tip as well as leaf explants in three out of the five genotypes evaluated. Somatic embryos were formed by culture in induction medium supplemented with 21.48 μM naphthalene acetic acid and 2.22 μM benzyladenine for 8 weeks, and successive transfer of explants to expression media with a low concentration of growth regulators and without them. Both types of explants formed callus tissue from which somatic embryos developed, indicating indirect embryogenesis. Although the embryogenic frequencies were lower than 12%, it did not prevent the establishment of clonal embryogenic lines maintained by repetitive embryogenesis. Histological study confirmed an indirect somatic embryogenesis process from shoot tip explants, in which leaf primordia and the corresponding axial zones were involved in generating callus, whereas the apical meristem itself did not proliferate. The origin of embryogenic cells appeared to be associated with dedifferentiation of certain parenchymal cells in callus regions after transfer of explants to expression media without auxin. Division of embryogenic cells gave rise to proembryo aggregates of unicellular origin, although a multicellular origin from bulging embryogenic areas would also seem possible. Further development led to the formation of cotyledonary-stage somatic embryos and nodular embryogenic structures that may be considered as anomalous embryos with no clear bipolarity. Inducement of somatic embryos from explants isolated from shoot cultures ensures plant material all year round, thus providing a significant advantage over the use of leaf explants from field-grown trees.     

High-frequency Organogenesis from Direct Seed Culture in Lathyrus

Culture conditions were developed for inducing a high frequencyof direct shoot morphogenesis and whole plant regeneration incultures of intact seedlings of Lathyrus cicera L., L. ochrus(L.) DC., L. sativus L., and L. tingitanus L. The procedureof shoot regeneration involved culturing of whole, mature seedson MS medium containing cytokinins, or thidiazuron (TDZ), asubstituted phenylurea with cytokinin-like activity. Differentiationof shoots occurred without an intervening callus phase fromthe cotyledonary node and surrounding tissues of the intactseedlings developed from seeds germinated on media containingkinetin, BAP or TDZ. An average of 19·0, 15·8,28·8 and 43·0 shoots were regenerated at optimalconcentrations of 50·0, 50·0 and 80·0 µMBAP in L. cicera, L. tingitanus, L. ochrus and L. sativus, respectively.TDZ enhanced the shoot formation at the concentration of 10µM to an average of 33·1 and 33·7 shootsper seedling in L. cicera and L. tingitanus and at 50 µM,to 57·4 shoots per seedling in L. sativus. Regeneratedshoots developed roots on a modified MS medium containing 2·5µM NAA and the surviving plantlets were transferred tosoil. Histological studies revealed de novo formation of shoot budsfrom the epidermal or subepidermal cells of the basal and nodalregion of multiple epicotyls. Several meristematic centres consistingof actively-dividing cells developed in the subepidermal celllayer of the nodal tissue and adjacent areas within 7 d of seedculture on a cytokinin- or TDZ-supplemented medium. The patternof the development of these meristematic centres and shoot developmentwas similar in all four species.Copyright 1993, 1999 AcademicPress Seed culture, direct shoot morphogenesis, Lathyrus, thidiazuron, grass pea, vetch ochrus     

Histology of the Morphogenic Response in Thin Cell Layer Explants from Vegetative Tobacco Plants

The morphogenic response of thin cell layers (TCLs) from vegetativetobacco (Nicotiana tabacum L.) plants can be directed very preciselyby varying the concentrations of benzyladenine (BA) and -naphthaleneacetic acid (NAA) in the culture medium. Medium containing 1·6µM BA and 0·5 µM NAA was optimal for shootformation, concentrations of 0·5 µM BA and 1·6µM NAA were optimal for the induction of shoots and rootson the same explant, whereas concentrations of NAA higher than16 µM resulted in callus proliferation only. Polarityin the distribution of the shoot buds was observed, i.e. a switchfrom basal to apical shoot formation occurred with increasingNAA concentrations, suggesting basipetal transport of NAA. Histologicalexamination of TCLs on shoot induction medium revealed thatfirst cell divisions occurred within 2 d in cortical cells whichwere directly in contact with the medium along the longitudinalcut surface, and after 2 d in subepidermal cells along the lateraledges of the explants. Individual lateral buds originated fromone subepidermal and one or more epidermal cells, while apicalbuds originated from single subepidermal or cortical cells locateddirectly at the apical end of the explant. After culture ofTCLs for 2-3 d on root/shoot induction medium cells in the regeneration-competentsubepidermis elongated, while on callus induction medium subepidermalcells elongated and dedifferentiated. The regeneration systemas described in this study will be used to identify cells competentfor regeneration as well as for transformation.Copyright 1994,1999 Academic Press Nicotiana tabacum L., tobacco, thin cell layer explants, cell competence, shoot development, polarity     

<Emphasis Type="Italic">CDPK</Emphasis> gene expression in somatic embryos of <Emphasis Type="Italic">Panax ginseng</Emphasis> expressing <Emphasis Type="Italic">rolC</Emphasis>

A somatic embryogenesis protocol for plant regeneration of northern red oak (Quercus rubra) was established from immature cotyledon explants. Embryogenic callus cultures were induced on Murashige and Skoog medium (MS) containing 3% sucrose, 0.24% Phytagel™, and various concentrations of 2,4-dichlorophenoxyacetic acid (2,4-d) after 4 weeks of culture in darkness. A higher response (66%) of embryogenic callus was induced on 0.45 μM 2,4-d. Higher numbers of globular- (31), heart- (17), torpedo- (12), and cotyledon-stage (8) embryos per explant were obtained by culturing embryogenic callus on MS with 3% sucrose, 0.24% Phytagel™, and devoid of growth regulators after 8 weeks culture in darkness. Continuous sub-culturing of embryogenic callus on medium containing 2,4-d yielded only compact callus. Desiccation of embryos for 3 days in darkness at 25 ± 2°C followed by cold storage at 4°C in darkness for 8 weeks favored embryo germination and development of plantlets. Cotyledon-stage embryos subjected to desiccation and chilling treatment cultured on MS with 3% sucrose, 0.24 Phytagel™, 0.44 μM 6-benzylaminopurine (BA), and 0.29 μM gibberellic acid germinated at a higher frequency (61%) than with 0.44 μM BA alone and control cultures. Germinated plantlets developed a shoot and root, were acclimatized successfully, and maintained in a growth room for plantlet development.     

Somatic embryogenesis in tulip (<Emphasis Type="Italic">Tulipa gesneriana</Emphasis> L.) flower stem cultures

In the present study, the procedures for induction of somatic embryogenesis (SE) in an in vitro culture of the tulip have been developed. SE was initiated on flower stem explants isolated from “Apeldoorn” bulbs during their low-temperature treatment. Bulbs had not been chilled or had been chilled for 12 or 24 weeks at 5°C. The explants were cultured with exogenous auxins 2,4-dichlorophenoxyacetic acid (2,4-D), 4-amino-3,5,6-trichloropicolinic acid (Picloram), α-naphthaleneacetic acid (NAA) at 1–100 μM and cytokinins: benzyladenine (BA) and zeatin (ZEA) at 0.5–50 μM. Increase in auxin concentrations caused an intensive enlargement of the explant parenchyma, which changed into homogenous colorless callus. On the same media, vein bundles developed into yellowish, nodular callus. Picloram was more efficient in inducing the formation of embryogenic nodular callus than 2,4-D, whereas the latter stimulated formation of colorless callus. The base of the lower part of the flower stem isolated from bulbs chilled for 12 weeks proved to be the best explant for callus formation. The highest number of somatic embryos was produced on medium with 25 μM Picloram and 0.5 μM BA. Development of adventitious roots was noticed in the presence of 2,4-D. Globular embryos developed into torpedo stage embryos under the influence of BA (5 μM) and NAA (0.5 μM). Morphological and anatomical data describing development of callus and somatic embryos are presented.     

Sucrose-Modulated Morphogenesis in Anagallis arvensis L.

Sucrose was found to have a modulating effect on the morphogenesisof Anagallis arvensis L. leaves cultured in a Murashige-Skoogmedium. Root formation and growth seem to be more independentthan other morphogenetic expressions. Roots formed without exogenoussugars at 25°C but sucrose seemed to be necessary at 32and 35°C. Sucrose at 3% improved shoot formation at 25°Cand had an inhibitory effect at 6%concentration and 35°C.Shoot growth (internode length) is inhibited by sucrose concentrationshigher than 3%. Sucrose could also replace light irradiancein regulating shoot and leaf growth. A higher sucrose concentration,than that required for roots and shoots formation, is necessaryfor flower and fruit formation, but sucrose could not replacethe photoperiod requirement for flowering in culture medium. (Received June 17, 1985; Accepted December 24, 1985)