Embryogenesis and Plantlet Formation in Tissue Cultures of Celery

Callus cultures were initiated from sections of petioles ofcelery (Apium graveolens) var. Lathom Blanching on a modificationof the Murashige and Skoog medium. The callus, when isolatedfrom the parent explant, could be sub-cultured at regular intervalsforming both new callus and embryoids during each subculture.The embryoids appeared to be initiated on the callus surfacewhere early embryonic forms were found, but their continueddevelopment into plants only occurred when embryoids were transferredto a hormonefree medium. Embryoids were also formed in suspensionculture following inoculation of the liquid medium by differentiatingcallus, but again development of these structures was limitedto the early embryonic forms. When transferred to a solid hormone-freemedium, the embryoids, from either callus or suspension culture,developed into plantlets which could be transferred to soiland grown to maturity with only a few losses. The relevanceof this system as an aid in the breeding programme of self-blanchingcelery is discussed.     

Experimentally Synthesized Plant Chimeras I. In vitro Recovery of Nicotiana tabacum L. Chimeras from Mixed Callus Cultures

Experiments were conducted to develop techniques for synthesizingchimeras between plants of known genotype by utilizing in vitrotechniques Chimeral calli composed of green and albino tobaccocells were obtained by initiating callus tissue from mixturesof albino and green cotyledons, hypocotyls, callus culturesand cell suspensions The most effective mixing of genotypesoccurred when callus was derived from mixed filtered cell suspensionsUpon shoot regeneration, chimeral calli yielded 1317 non-chimeraland four chimeral plants Chimeras may have arisen as a resultof experimental procedures or possibly from spontaneous chromosomalabnormalities since leaves of some albino control plants occasionallyproduced small green islands of cells Explanations for the recoveryof a high percentage of non-chimeral shoots are presented Tobacco, callus cultures, cell suspensions, tissue culture, shoot apical meristems, somatic-crossing over     

Cytological Analysis of Seedling Roots, Transformed Root Cultures and Roots Regenerated from Callus of Swainsona galegifolia (Andr.) R. Br.

The stability of chromosome number was investigated in culturesof roots from Swainsona galegifolia. Roots from germinated seedsor plants grown in vitro when cultured in liquid medium howed90% or more cells with the diploid number of 2n = 32. The remainingcells showed aneuploidy mostly below 32. The stability of chromosomenumbers was not affected by transformation with Agrobacteriumrhizogenes although when roots were transformed with A. rhizogenesLB 9042 the range of chromosome numbers in the few aneuploidcells present was higher than in roots for which strain A4 wasused. In contrast, roots regenerated from callus had only 15%of cells with 2n = 32 and showed a modal number of 18. Six rootcultures established from individual roots regenerated fromcallus showed a wide variation in number (8–83). Fivecultures had a modal number around 18, the sixth, a modal numberof 39 which is above the diploid number. The implication ofthe results for the production of secondary metabolites fromroot culture is discussed. Key words: Agrobacterium rhizogenes, callus cultures, chromosome number, root cultures, Swainsona galegifolia     

Hormonal Control of Morphogenesis in Leaf Explants of Perilla frutescens Britton var. crispa Decaisne f. viridi-crispa Makino

Leaf discs of Perilla frutescens var. crispa f. viridi-crispawere cultured on a defined medium to investigate factors influencingbud and root formation, callus induction, somatic embryogenesis,and floral bud formation. Addition of naphthalene-acetic acid(NAA) to the culture medium caused compact callus whereas 2,4-dichlorophenoxyacetic acid (2,4-D) promoted soft and friable callus formationon the surface of the explants. Benzyladenine, when appliedwith auxin, suppressed callus and root formation. Somatic embryogenesisoccurred, when the explants were first grown on nutrient mediumcontaining 2,4-D and organic elements, and then transferredto the 2,4-D free medium. Treatments with cytokinins, N-phenyl-N'-(4-pyridyl)urea and its derivatives induced bud formation. A low concentrationof NAA and naphthoxy-acetic acid promoted bud development. Occasionalfloral bud formation was observed depending on the originalleaf positions on mother plants from which the leaf discs wereexcised. A gradient of floral bud forming capacity along thestem was noted. Perilla frutescens, tissue culture, embryogenesis, morphogenesis, benzyl adenine, kinetin, naphthalene-acetic acid, naphthoxy-acetic acid, 2,4-dichlorophenoxy acetic acid, indol-3yl-acetic acid, cytokinins, auxins     

Somatic Embryogenesis and Plant Regeneration from Leaf Callus of Hordeum vulgare

Explants obtained from the basal portion of leaves of Hordeumvulgare (cv. Karan 92) gave rise to callus when cultured onMurashige and Skoog (MS) basal medium supplemented with 2, 4-dichlorophenoxyaceticacid (2, 4-D). Initially, the callus was friable, shiny-whiteand watery but subsequently some compact, nodular callus appeared.The latter were cultured on MS medium containing 0.05 mg l^–12, 4-D and 0.1 mg l^–1 N6-furfurylaminopurine (kinetin),when plantlets were generated. Histological studies showed thatplantlet regeneration occurred by the formation of somatic embryos.The regenerated plants had the normal diploid chromosome number(2n = 14). Hordeum vulgare, barley, somatic embryogenesis, tissue culture, plant regeneration     

Somatic Hybrids between the Forage Legumes Lotus corniculatus L. and L. tenuis Waldst et Kit

A cell suspension of Lotus tenuis was established, as a sourceof protoplasts, from kanamycin resistant callus derived fromroots transformed by Agrobacterium rhizogenes LBA9402 (pRil855-pBinl9).Such protoplasts were treated with a sublethal dose of sodiumiodoacetate prior to their electrofusion with green cotyledonprotoplasts of L. corniculatus. Putative somatic hybrid colonieswere selected on medium containing kanamycin sulphate. The hybridityof plants regenerated from these selected colonies was confirmedby their morphology, esterase banding patterns, the presenceof condensed tannins in leaves and stems, and chromosome complements.The latter approximated to the expected allohexaploid numberof 2n = 6x = 36. Key words: Forage legumes, Lotus corniculatus, L. tenuis, protoplasts, electrofusion, kanamycin resistance, sodium iodoacetate, somatic hybridization     

Investigations of Laticifer Differentiation in Tissue Cultures Derived from Asclepias syriaca L.

Callus cultures of Asclepias syriaca were established from stemexplants and grown in tissue culture. The culture medium onwhich the callus was grown was modified to produce either planfletsof superficial origin on the callus or embryoids which wereanalyzed to determine whether laticifers differentiated in thesestructures. Mature zygotic embryos and adult plants of A. syriacanormally possess a well-developed network of intrusively-growingnon-articulated branched laticifers that arise only once duringplant develop ment from initials differentiated in the youngheart stage embryo. Embryoids were derived from two differentculture media. These embryoids were observed to lack laticifers,although they were similar in their morphology in other respectsto zygotic embryos. Plantlets of superficial origin were formedon each of the media employed in this study. These plantletswere observed to possess laticifers that resemble those in normalshoots. Embryoids and induced shoots represent experimentalsystems in which it may be possible to control for the firsttime the differentiation of the laticifer as a cell type instructures similar to those present in the normal plant.     

Histological Observations on Initiation and Morphogenesis in Immature and Mature Embryo Derived Callus of Barley (Hordeum vulgare L.)

Callus was induced from immature and mature embryos of barley(cv. Haruna Nijo) on Murashige and Skoog medium containing 2mg l^-1 2,4-D and 5 mg l^-1 picloram, respectively. Paraffin sections(10 µm thick) were prepared for histology during callusinitiation and plant regeneration. Meristems were regeneratedfrom nodular compact callus (NC) derived from scutellar epidermisin immature embryos, whereas they were regenerated from NC derivedfrom epidermal cells of leaf or coleoptile bases in mature embryos.Regardless of the explant source, regeneration was predominantlythrough organogenesis, although regeneration through somaticembryogenesis infrequently occurred. Thus, the callus inducedfrom immature and mature embryos of barley was regarded as 'nodularcompact' rather than 'embryogenic'.Copyright 1995, 1999 AcademicPress Barley, callus, Hordeum vulgare, histology, immature embryo, mature embryo, regeneration     

Streptomycin Resistance of a Cell Line from Haploid Datura innoxia Mill. is Transferred from Cell to Plantlet and Back In Vitro

Out of the five cell lines isolated by their ability to proliferateon a selection medium containing streptomycin and derived froma haploid callus culture from Datura innoxia microspores, onewas characterized. The trait of resistance was found to be stablein the absence of selection pressure. Plantlets were regeneratedin the presence, as well as absence, of the antibiotic. Stabilityof the selected trait was also confirmed in callus culturesinitiated from a plantlet. Key words: Datura, Streptomycin resistance, Mutants     

In vitro Propagation of Red Cabbage (Brassica oleracea L. var. capitata)

By manipulation of various growth regulators and physical conditions,plants have been regenerated from excised roots, stem segments,cotyledons, leaves, and callus cultures of red cabbage (Brassicaoleracea var. capitata) grown under in vitro conditions. Shootbuds were induced on isolated root segments (1 cm long) culturedon Murashige and Skoog's medium and the frequency of bud formationwas greatly enhanced by the addition of kinetin (0.5 part 10^–6).Callus obtained from the seeds, cotyledons, and hypocotyl segmentscultured on a medium fortified with 2,4-D (1 part 10^–6),kinetin (0.1 part 10^–6), and coconut milk (10%, v/v) hasbeen repeatedly subcultured. The callus is slow growing, andon transference to a kinetin (2 parts 10^–6) and IAA (2parts 10^–6) medium underwent morphogenesis to give riseto plants. The significance of the propagation of red cabbageby in vitro culture is pointed out.     

Production of plants resistant to <Emphasis Type="Italic">Alternaria carthami</Emphasis> via organogenesis and somatic embryogenesis of safflower cv. NARI-6 treated with fungal culture filtrates

The present study describes a system for efficient plant regeneration via organogenesis and somatic embryogenesis of safflower (Carthamus tinctorius L.) cv. NARI-6 in fungal culture filtrates (FCF)-treated cultures. FCF was prepared by culturing Alternaria carthami fungal mycelia in selection medium for host-specific toxin production. Cotyledon explants cultured on callus induction medium with different levels of FCF (10–50%) produced embryogenic callus. In organogenesis, 42.2% microshoots formed directly from embryogenic callus tissues in plant regeneration medium with 40% FCF. Isolated embryogenic callus cultured on embryo induction medium containing 40% FCF induced 50.2% somatic embryogenesis. Embryo germination percentage was decreased from 64.5 to 28 in embryo maturation medium containing 40% FCF. However, nine plantlets from organogenesis and 24 plantlets from somatic embryogenesis were selected as FCF-tolerant. Alternaria carthami fungal spores (5 × 10⁵ spores/ml) sprayed on the leaves of FCF-tolerant plants showed enhanced survival rate over control plants, which plants were more susceptible to fungal attack. The number of leaf spot lesions per leaf was decreased from 3.4 to 0.9 and their lesion length was also reduced from 2.9 to 0.7 mm in organogenic derived FCF-tolerant plants over control. In somatic embryo derived FCF-tolerant plants, the number of lesions was decreased from 3.1 to 0.4 and the lesion size was also reduced to 2.7–0.5 mm when compared to the control. This study also examined antioxidant enzyme activity in FCF-tolerant plants. Catalase (CAT) activity was slightly decreased whereas peroxidase (POD) activity was increased to a maximum of 42% (0.19 μmol min⁻¹ mg⁻¹ protein) from organogenesis and 47% (0.23 μmol min⁻¹ mg⁻¹ protein) from embryogenesis in FCF-tolerant plants. Superoxide dismutase (SOD) activity was also increased to 17% (149 U mg⁻¹ protein) and 19.5% (145 U mg⁻¹ protein) in FCF-tolerant plants derived from organogenesis and somatic embryogenesis when compared with control plants.     

Somatic Embryogenesis and Plant Regeneration from Inflorescence Culture of Java Citronella: (Cymbopogon winterianus)

Embryogenic callus was induced from immature inflorescence segmentsof Java citronella (Cymbopogon winterianus) and maintained for2 years on Murashige and Skoog's medium supplemented with 2,4-D(l mg l^–1). The callus cells retained the original chromosomenumber of 2n = 20. The somatic embryos germinated into plantletson MS basal medium or medium with IAA, NAA, BAP or KN individually(l mg l^–1). The regenerated plantlets developed a goodroot system on full strength solid MS inorganics medium withIAA (1 mg l^–1). The regenerated plants were similar tothe donor plant in morphology and had the same chromosome number,but showed some variation in the essential oil content. Java citronella, Cymbopogon winterianus, somatic embryogenesis, regeneration, inflorescence culture     

Age and orientation of the cotyledonary leaf explants determine the efficiency of de novo plant regeneration and Agrobacterium tumefaciens-mediated transformation in Jatropha curcas L.

Effects of age and orientation of the explant on callus induction and de novo shoot regeneration from cotyledonary leaf segments of Jatropha curcas were studied. The callus induction and shoot regeneration capacity of cotyledonary leaf segments were found significantly related to the age of the explants and their orientation in culture medium. The youngest explant, derived from the cotyledonary leaf of germinated seed induced the highest regeneration response as compared to one- and two-week-old explants. A gradient response with age of the explant was observed in percentage of callus induction, shoot regeneration from callus and the number of shoots per regenerating callus. The explants cultured with their abaxial side in medium showed significantly higher regeneration response. The youngest explant was found to be most amenable to Agrobacterium-mediated transformation as compared to older explants. The fact that callus induced from the edges of the explant followed by de novo shoot induction, and strong transient gus expression observed in the edges of the explant are significant for routine Agrobacterium-mediated transformation and generation of stable transgenic plants in J. curcas.     

Haploid callus and regeneration of plants from anthers of Digitalis purpurea L.

Summary Production of callus from anthers of D. purpurea was obtained on several basal media supplemented with various amounts of auxins. Chromosome counts showed that the callus produced was haploid when the anthers 1) were of a dark-brown to black color, and 2) were cultured in the late tetrad stage of microspore development. Subsequent differentiation to plants at high frequencies was possible only 1) when the anthers had been cultured on the medium of Nitsch and Nitsch (Science 163, 85–87; 1969) supplemented with 5 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D), 2) when the callus was transferred to the same medium but without 2,4-D, and 3) when it was cultured under continuous light from fluorescent lamps. Proliferation of the callus and regeneration of plants did not diminish through as many as 20 subcultures. The high frequency of regenerates permits the propagation of a distinct geno-type to a virtually unlimited number of plants. Diploid plants were obtained when the anthers had been cultured in the dark. Tetraploid plants were regenerated by callus from anthers which had been cultured in light. When the time of 2,4-D treatment was shortened a few haploid plants were produced which however did not survive transfer to soil. Cytological observations demonstrated that regeneration started from haploid callus, leading to intermediate degrees of ploidy and finally to diploid plants. Most of the regenerated plants were euploid and flowered and fruited normally under greenhouse and field conditions. If the anther-derived callus was cultured on the medium of Nitsch and Nitsch supplemented with 2.2 mg/l kinetin, plants regenerated only under photoperiodic conditions of 16 h light at 28° and 8 h dark at 20° but the survival was lowered to one third. These plants had a different leaf and flower morphology as compared to the control without kinetin and to the starting material, but their progeny was again essentially normal.     

NAA-Induced Organogenesis and Embryogenesis in Hypocotyl Callus of Solarium melongena L.

Hypocotyl explants of S. melongena showed three types of regenerationthrough callus formation depending on the concentration of NAAin the medium. At 0.8 mg l^–1, only callus was produced.Lower concentrations resulted in callus, adventitious roots(optimum, 0.016 mg 1^–1 NAA), and adventitious shoots (noNAA). Roots and shoots developed during the early stages ofculture. Higher concentrations of NAA depressed callus growthand stimulated embryoid formation (optimum 8.0 mg 1^–1NAA), Embryoids were identifiable after about 6 weeks as greenspots on the surface of callus: Addition of 6-BA enhanced shootproduction but inhibited both root and embryoid production.Whole plants were obtained from embryogenic callus after transferto NAA free medium. Genotypic differences in response were observed. In general,the potential for embryogenesis was independent of or inverselyrelated to the potential for organogenesis.     

Factors Influencing Morphogenesis in Excised Roots and Suspension Cultures of Atropa belladonna

Excised root cultures of Atropa belladonna L. and A. belladonnavar. lutea Döll, established from liquid-grown seedlingsand from callus, when allowed to continue growth without subculturefor several weeks, spontaneously initiate shoot buds from smallnodules of callus which arise at the cut ends of the roots.The frequency and rapidity of formation of such buds is dependentupon the number of passages through which the roots have beensubcultured. The morphogenetic expression of callus cultures and of suspensioncultures derived from them is influenced not only by the timethat the root cultures have been maintained in culture but bythe composition of the medium used for callus initiation andsubsequent culture. The presence of elevated levels of ammoniumions in these media favours the development of incipient plantsrather than roots. Cultures have thus been obtained in whichthe predominant form of morphogenesis is embryogenesis (as establishedin a subsequent paper by Konar, Thomas, and Street, 1972).     

Embryoid and plantlet formation from leaf segments of Dactylis glomerata L.

Summary The purpose of this investigation was to demonstrate callus induction and plantlet formation from cultured leaf segments of 12–15 week-old Dactylis glomerata L. (orchardgrass) plants. Flat half-leaf sections, approximately 2–3 mm square, from the three innermost (youngest) leaves were isolated and individually plated serially beginning at the leaf base on a solid SH medium containing 30 M of 3,6-dichloro-oanisic acid (dicamba). Callus formed on leaf sections from all 50 plants used in the study. After transfer to SH medium with 1 M dicamba, plantlets formed from leaf sections of 9 of the 50 plants. In most cases plantlets formed from embryogenic callus but in a few cases embryoids formed directly on the leaf surface without an intervening callus state. These developed into plantlets when transferred to low auxin medium. The response for both callus and plantlet formation decreased with increasing distance both spatially and temporally from the shoot apex. Histological examination of embryogenic callus revealed the presence of non-zygotic embryos in various stages of development. The results provide further support for compentency (if not totipotency) of Gramineae leaf cells.     

Morphogenetic Potential of Embryo- and Seedling-Derived Callus of Elaeis guineensis Jacq. var. pisifera Becc.

The oil palm of commerce, Elaeis guineensis (tenera), derivesfrom hybridization of variety dura x pisifera. Germ plasm ofpisifera is limited, however, because of varying degrees offemale sterility. Efforts to increase the range of availablepisifera male germ plasm have thus far been limited to fertilepisiferas but it is anticipated that clonal multiplication ofembryos and explanted organs from less female-fertile, but nonethelessfertile, male, plants could play a significant role in breedingprogrammes. Callus has been produced from mature pisifera embryosand leaf explants from young plantlets using a half-strengthMurashige and Skoog medium supplemented with inositol, caseinhydrolysate, activated charcoal and varying concentrations ofauxins. After sub-culture on media of similar composition, organizedstructures can develop. Those which form in stale nutrient media(e.g. left in the same medium for up to 3 months) give riseto embryonal structures which do not readily develop furtherand can be regarded as neomorphs. If callus once formed is transferredto media with lower auxin concentrations (40–0 mg l^–1)embryonal buds and well-formed shoots are produced; additionof gibberellic acid (GA₃) fosters the production of well-organizedshoots accompanied by roots. Elaeis guineensis var pisifera, oil palm, tissue culture, micropropagation, embryo development, morphogenetic potential, callus     

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     

A method for increased plant regeneration from immature F1 and BC1 embryos of Cucurbita maxima Duch. x C. pepo L. hybrids

Plants have been regenerated from abnormal embryos with spongy cotyledons and albino sectors, derived from Cucurbita maxima and C. pepo F₁ and BC₁ hybrids. Shoot regeneration was induced directly from the cotyledons without an intervening callus phase on the medium without hormones. On the rooting medium, shoots continued to proliferate, which allowed for further multiplication in vitro. The number of plants obtained varied with genotype and ranged up to 65 plants per embryo.