Preliminary observations on organogenesis inTaraxacum officinale tissue cultures

Summary Tissue cultures ofTaraxacum officinale have been isolated from the secondary thickened root. Callus development and leaf and root formation occur on a basal medium supplemented with coconut milk and IAA or NAA, and the addition of kinetin to these media enhances callus growth and organogenesis. Cultures grown on the basal medium with coconut milk and 2,4-D show only callus growth, but organogenesis is induced by the substitution of IAA for 2,4-D. In the 2,4-D grown callus a layer of secondary meristematic tissue is present and organogenesis apparently occurs from localized regions of this tissue which have undergone de-differentiation to the primary meristematic condition.     

Morphogenic potential of mechanically isolated single cells from Digitalis obscura L. callus

Calli from hypocotyl and root explants of Digitalis obscura L. showed regeneration of adventitious shoots, roots and embryos when transferred to Murashige & Skoog medium supplemented with cytokinins alone or in combination with auxins. Optimum shoot-bud formation was achieved in the presence of IAA and BA, while roots mainly appeared either in absence of growth regulators or with IAA and Kn. Embryo formation took place only in those combinations that included Kn. Embryo development was influenced by the type of auxin, and precocious germination occurred in media with NAA. Mechanically isolated cells from hypocotyl- and root-derived calli were plated in MS medium supplemented with several IAA and BA combinations. Single cells were able to proliferate forming callus within 20–30 days in culture. In order to induce organogenesis, calli were transferred to various regeneration media. Shoot-bud differentiation efficiency depended on both callus origin and medium initially used for cell culture, best results being obtained in calli grown from hypocotyl-derived cells cultured in the presence of casein hydrolysate. A further subculture to medium containing coconut milk and lower concentrations of NH₄NO₃ and sucrose promoted shoot development. Rooting was readily achieved upon transferring shoots onto half-strength MS medium. Plantlets were ultimately established in soil.Abbreviations BA benzyladenine - BM basal medium - CH casein hydrolysate - CM coconut milk - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid - Kn kinetin - MS Murashige & Skoog - NAA naphthaleneacetic acid     

Regeneration of Coronilla varia L. (crownvetch) plants from callus culture

Coronilla varia L. (crownvetch) plants were regenerated from callus cultures through somatic embryogenesis. Callus cultures were initiated using hypocotyls excised from sterile seedlings. Cultures were then transferred from a modified Gamborg's B5 medium containing 2,4-D to a medium containing no plant growth regulators (basal B5). Formation of embryos was evident in 12 of 32 callus lines after transfer of callus to BOi2Y (modified Blayde medium supplemented with 100 mg inositol and 2 g yeast extract/L). Basal B5 supplemented with 10 mM asparagine or 20 mM NH₄Cl could be substituted for BOi2Y. Embryos subsequently transferred to basal B5 developed roots and shoots. Plants thus formed were first transferred to vermiculite and then to soil.Contribution No. 8219 of the U.S. Regional Pasture Reasearch Laboratory, USDA-ARS, University Park, PA, U.S.A.     

NUTRITIONAL AND MORPHOGENETIC INVESTIGATIONS ON CALLUS CULTURES OF NEOMAMMILLARIA PROFILERA MILLER (CACTACEAE)

Neomammillaria prolifera (Cactaceae), when grown on Murashige and Skoog's medium supplemented with fresh coconut milk, showed very little growth. Various concentrations and combinations of growth regulators which did not cause callusing had no apparent effect on the normal growth rates of intact plants. Healthy green calli obtained on a 2,4-D and kinetin-containing medium exhibited extremely fast growth and very specific growth requirements. Relatively high amounts of 2,4-D (10–20 mg/liter), kinetin (1–2 mg/liter), and coconut milk (20–60%) were required at all times for continued proliferation of callus on subculturing. Moreover, the callus was very tolerant to extremely high concentrations of other growth regulators (IAA, NAA, IBA, and GA up to 100 mg/liter) in the presence of 2,4-D and coconut milk. These substances could not replace 2,4-D for callusing or continued growth of callus. It was not possible to establish root cultures or to induce callusing of roots. Attempts to induce differentiation in callus were unsuccessful, except for sporadic root initiation in some cultures. A comparison of these results with similar studies on other succulents demonstrates some basic physiological similarities among this group of plants.     

GROWTH OF EDIBLE CHLOROPHYLLOUS PLANT TISSUES IN VITRO

Hildebrandt, A. C, J. C. Wilmar, H. Johns, and A. J. Riker. (U. Wisconsin, Madison.) Growth of edible chlorophyllous plant tissues in vitro, Amer. Jour. Bot. 50(3): 248–254. Illus. 1963.—Plant callus cultures were attempted from roots, stems, leaves or excised embryos of 32 species of plants on a basal mineral salts–sucrose agar medium (T-medium), on T-medium + coconut milk + α-naphthaleneacetic acid + calcium pantothenate (C-medium) and on C-medium + 2,4-dichlorophenoxyacetic acid (D-medium). Embryos on T- or C-medium generally produced normal plants, while on D-medium, they often produced callus only. Fresh isolates of carrot, endive, lettuce, parsley, red kidney bean, and navy bean gave moderate to excellent callus on C-medium. Parsley and navy bean also produced excellent callus on D-medium. Strains of callus from potato, tomato, grape and rose also grew well on C- or D-medium. In the light, red pigmentation developed on rose, parsley, and grape callus. Chlorophyll formation was inhibited on D-medium, but on C-medium more or less chlorophyll was initiated in callus from carrot, endive, lettuce, pea, potato and certain rose varieties. Chlorophyll formation was also strong in endive callus on T-medium supplemented with casein hydrolysate, i-inositol and NAA. The amount and type of sugar used in C-medium influenced the amount of growth and were critical in relation to chlorophyll formation. Carrot tissues in constant light produced abundant chlorophyll and were still growing on media without added sugar after 6 weeks.     

Plantlets from somatic callus tissue of the woody legume Sesbania bispinosa (Jacq.) W. F. Wight

In vitro regeneration of plantlets and multiplication of Sesbania bispinosa (Jacq.) W.F. Wight plants from cultured callus tissue were demonstrated. Callus was established from both cotyledons and mature leaflets on Murashige and Skoog (MS) basal medium supplemented with BAP (0.5 mg/l) and 2,4-D (2 mg/l). Callus mediated shoot bud differentiation was studied under defined nutritional, hormonal and cultural conditions. Various concentrations of BAP or kinetin (Kn) with coconut milk (CM) in MS media induced different levels of shoot bud differentiation as well as multiplication. Multiple shoot bud differentiation occurred in most of the primary calli. The best medium for shoot bud differentiation from cotyledon derived callus, contained BAP (2 mg/l) and 15% CM (V/V). More efficient shoot bud organogenesis was recorded with BAP than Kn. Supplementation with CM in MS media accelerated shoot bud organogenesis in differentiating callus tissue. Rooting of differentiated shoots was achieved by a three step culture procedure involving (a) MS solid medium containing IBA (2 mg/l), (b) growth regulator free half strength MS medium with 1% charcoal, and (c) half strength MS liquid medium free of vitamins, growth regulators and charcoal.Abbreviations IAA indoleacetic acid - IBA indole-3-butyric acid - NAA naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - Kn kinetin - CM coconut milk - MS Murashige and Skoog's medium - SBI shoot bud inducing medium     

Induction and maintenance of friable callus from the cellular endosperm of Cocos nucifera L.

A fast-growing friable callus was initiated and maintained by subculture from the portion of coconut endosperm which was initially in contact with the zygotic embryo. Euwens' (Physiol. Plant. 36 (1976) 23) Y3 mineral formulation with kinetin (2 mg/l), high 2,4-dichlorophenoxyacetic acid (2,4,-D) (50 mg/l), and 1 g/l activated charcoal were used to initiate the callus in the dark. The callus could be subcultured on the basal medium with lowered 2,4-d levels and in the absence of charcoal. The success in obtaining the callus may be partly attributed to the use of explants excised in a sterile condition with the zygotic embryo in situ (no chemical sterilization involved), and the high auxin concentration in the medium. Preliminary cytological studies indicate a high degree of aneuploidy in the callus cells. Also, within the slow-growing callus cells oil globules had accumulated.     

GROWTH IN VITRO OF TISSUES ISOLATED FROM NORMAL STEMS AND INSECT GALLS

Pelet , F., A. C. Hildebrandt , A. J. Riker, and F. Skoog . (U. Wisconsin, Madison.) Growth in vitro of tissues isolated from normal stems and insect galls . Amer. Jour. Bot. 47(3) : 186—195. Illus. 1960.–In a preliminary analysis of the nature of gall formation induced by insects, a comparative study has been made of the in vitro growth and nutrition of plant tissues derived from insect galls and from normal plants. Grape, elm, poplar, and willow tissues were grown on a standard medium, modified White's nutrient medium, with coconut milk and/or various growth factors added. Satisfactory growth was obtained over a temperature range from 16° to 36°C. but was generally optimal at 28°—32°C. The optimum pH was generally 4.0—4.5, but a pH of 6.0 or 7.0 gave better growth when the medium contained 2,4-dichlorophenoxyacetic acid. Detailed nutritional studies were limited to grape tissue. Excised stems and excised galls induced by Phylloxera vastatrix Planch, were grown on the basal medium with vitamins and supplemented with naphthaleneacetic acid, indoleacetic acid, kinetin, casein hydrolysate, yeast extract, adenine and a few amino acids added in various combinations. Growth (fresh weight) was measured after a 6-week growth period. When these substances were added singly the optimal concentrations and the quality of growth of stem explants were as follows: with adenine (40 mg./l.) or kinetin (1 mg./l.), growth poor; with NAA (1 mg./l.) or IAA (2 mg./l.), growth fair; and with the only concentration of a powdered casein hydrolysate (3 g./l.), growth good. Gall explants responded more readily to kinetin or adenine but did not form callus in the presence of casein hydrolysate alone. Stem tissues formed both roots and callus, whereas gall tissues formed only callus. The same substances were tested in various combinations. NAA and kinetin provided for moderate, continuous growth, and excellent growth if casein hydrolysate and adenine also were added to the medium. The NAA requirements were markedly reduced in the grape tissues which had been subcultured for 1 or 4 years on coconut milk medium. Friable tissue types were inhibited by the adenine and casein hydrolysate combinations. They grew through 1 passage only on basal medium and then died if not supplied with NAA and kinetin. Firm tissues responded favorably, although irregularly, to casein hydrolysate and adenine. It was concluded that although nutrient requirements varied with tissues derived from insect galls and from normal plants, they also varied with the time of cultivation in vitro. The induction of galls by Phylloxera was not a permanent change in growth factor requirements comparable to that conferred by the crown gall bacteria. In attempts to grow the insect in sterile culture in vitro 5 successive generations of phylloxera were reared on callus tissue.     

植物生长调节剂对南方红豆杉愈伤组织培养和紫杉醇合成的影响

通过不同种类和水平植物生长调节剂对南方红豆杉(Taxus chinensisvar.mairei)愈伤组织诱导、生长和紫杉醇合成能力影响的研究发现:诱导培养初期,以无植物生长调节剂的MS为基本培养基,在附加不同植物生长调节剂组合作用下愈伤组织产生的时间和生长、在相同植物生长调节剂组合作用下不同外植体愈伤组织的产生时间和生长均表现出较显著差异,2,4-D/NAA高于0.4时,不利于南方红豆杉愈伤组织的诱导。转换到附加不同植物生长调节剂组合的B5培养基上后,随培养继代次数的增加,生长差异逐渐缩小,直至不显著,表明参考不同文献报道最优配方所设计的各植物生长调节剂组合对南方红豆杉愈伤组织的生长均较适宜,有利南方红豆杉愈伤组织生长的植物生长调节剂优化组合没有唯一性。但不同调节剂组合作用下的同源愈伤组织中、相同调节剂作用下不同源愈伤组织中紫杉醇含量均存在着极显著差异,适当水平(2 mg/L)的2,4-D单用,或与适当水平的KT、6-BA、KT GA配合使用,对南方红豆杉愈伤组织紫杉醇的合成较有利,NAA则不太有利,幼茎和叶愈伤组织产紫杉醇的水平较其它愈伤组织为高。     

Somatic embryogenesis and plants from zygotic embryos of coconut (Cocos nucifera L.) in vitro

Complete plants were grown from zygotic embryos cultured on Y3 basal liquid medium supplemented with coconut milk, BA and NAA. Explants from stem, leaf and rachilla of mature coconut trees turned green and swelled on Y3 semi-solid basal media supplemented with 2,4-D, K, NAA, BA and activated charcoal. Callus was initiated in explants from the subapical regions of the stem on Y3 basal medium supplemented with 2,4-D (4.52×10²M). Globular embryo-like structures were obtained when this callus was subcultured to auxinless medium. Root formation was obtained from leaf explants on Y3 basal medium containing citric acid, ascorbic acid and 2,4-D (4.52×10² M). Globular embryo-like structures were also obtained directly from leaf explants on a Y3 basal medium supplemented with 2,4-D (2.26×10² M). Callus isolated from rachilla explants on Y3 basal medium containing 2,4-D(4.52×10² M), formed nodular structures when transferred to medium with 2,4-D (2.3×10¹ M). These nodules developed roots from the base of the nodular growth whereas from the upper portion shoots were observed on Y3 basal liquid medium.Abbreviations K kinetin - BA Benzyl adenine - 2,4-D 2,4-Dichlorophenoxyacetic acid - NAA Naphthalene acetic acid - CM Coconut milk - IAA Indole acetic acid - 2iP N⁶-r-r-dimethyl allyl amino purine NCL Communication No. 3471     

The Cultivation of Tissues of Cupressus lusitanica in vitro

Conditions for In vitro culture of initial explants of Cupressus lusitanica were determined as the first step of an investigation of physiological differences between tissues obtained from plants, or plant parts, of different ages. Explants proliferated well on a basal agar medium containing only Heller's mineral salts and sucrose. Addition of several vitamins, phytohormones, and coconut water to this basal medium stimulated callus growth only slightly or not at all, and transplanted callus soon died. Proliferation of initial explants was considerably stimulated by increasing the concentration of mineral salts in the medium, and the growth habit changed from compact to friable. Callus could be transplanted to, and maintained on, a high-salt medium enriched by vitamins. Whereas added auxins still stimulated proliferation of initial explants and transplanted callus only slightly, added coconut water was considerably more effective than on basal medium. Thus results confirm observations by others with tobacco tissues: Additions of phytohormones and other organic substances may not exert their potential effects if growth is limited by sub-optimal mineral nutrition.     

Micropropagation of Dendrobium nobile from shoot tip sections

Successful shoot regeneration of Dendrobium nobile was achieved using thin shoot tip sections and triacontanol (TRIA) for the first time. Protocorm-like bodies (PLBs) or proliferating shoot buds were observed when thin shoot tip sections were cultured on the basal medium of Mitra et at. (Indian J. Exp. Biol. 14 (1976) 350) supplemented with 4.0 microg L(-1) TRIA. The highest percentage of explants (93%) produced PLBs or proliferating shoot buds (21) at 4.0 microg L(-1) TRIA-supplemented basal medium. All the newly formed PLBs or proliferating shoot buds survived and ultimately produced healthy shoots with 2-3 leaves. Shoots produced roots when cultured on basal medium supplemented with 2.0 microg L(-1) TRIA. The well-rooted shoots were transferred to pots containing charcoal chips, coconut husk and broken tiles (2:2:1), and a 92% survival rate was achieved. This work reveals that TRIA can be used as an effective growth regulator in the micropropagation and conservation of D. nobile.     

Somatic embryogenesis from rhizome explants of <Emphasis Type="Italic">Cymbopogon winterianus</Emphasis>

Plantlet regeneration through indirect somatic embryogenesis was attempted from rhizome derived callus of Cymbopogon winterianus Jowitt (cv. Jorlab2). Optimum callus was induced on Murashige and Skoog (MS) basal medium supplemented with 4 mg dm⁻³ 2,4-dichlorophenoxyacetic acid (2,4-D). Initially the callus was friable, shiny white and watery in nature. After subculturing on MS medium containing 2,4-D and kinetin (Kn), callus was transferred onto the MS medium supplemented with 2,4 -D, Kn and coconut water to induce somatic embryogenesis. Optimum somatic embryogenesis (78.33 %) was achieved on MS medium containing 3.0 mg dm⁻³ 2,4-D and 0.5 mg dm⁻³ Kn. High frequency (65 %) plantlet conversion from embryos was achieved in MS medium supplemented with 2 mg dm⁻³ N⁶-benzyladenine (BA), 0.5 mg dm⁻³ Kn, 0.2 mg dm⁻³ calcium pantothenate and 0.2 mg dm⁻³ biotin.     

Cytological Studies on Tissue Culture of Pinus cembra

Callus tissue of Swiss stone pine, Pinus cembra L. var. sibirica Loud., has been grown successfully for 9 months through 7 transfers. Excellent initial growth was obtained from hypocotyl segments of 7-day-old seedlings. A complex agar medium was used supplemented with 2 mg/l 2,4-D, 0.05 mg/l kinetin, 1 g/l Edamin and 10% v/v coconut milk. No deterioration of growth was observed on this medium after numerous transfers. The callus tissue did not produce shoots or roots, but showed an ability for cytodifferentiation. Tracheids or tracheid-like structures were formed in every passage, but the tracheids of the primary callus culture differed markedly from those of the subcultures. The tracheids of the primary culture probably already existed in the hypocotyl, whereas those of the subcultures were formed in vitro. The callus tissue was mainly diploid during the period studied, and more than 86% of the mitoses were diploid. A few mitoses with tetraploidy or a higher ploidy also occurred, but the tissue did not show any tendency to polyploidization.     

Adventitious shoot regeneration from Sinningia speciosa leaf discs in vitro and stability of ploidy level in subcultures

Summary Leaf explants of Sinningia speciosa were cultured in vitro on Murashige and Skoog (MS) basal medium with various growth substances in order to regenerate shoots. On MS medium supplemented with indoleacetic acid (IAA) and kinetin, 80% of the explants produced green callus and 25 to 30 shoots with roots per explant. On MS supplemented with IAA and N⁶ benzyladenine (BA), 80% of the explants produced green callus and 40 to 50 shoots per explant but lacked roots. After 3–4 mo., these shoots were removed from the initial explants and transferred separately onto MS supplemented with indolebutyric acid for their elongation and successive rooting (3 mo.). Histological studies showed that the callus was associated with mesophyll cell layers, primarily with the spongy parenchyma. The shoots regenerated at the callus surface and were associated with newly differentiated vascular areas. Recurrent regenerations were obtained from leaf explants or apical meristems excised from shoots of the previous subcultures. These explants, as compared to initial cultures, had a high frequency of regeneration and also produced more shoots per explant. Chromosome numbers of root tip cells of the mother plant and of all in vitro-regenerated plants remained constant: 2n=26.     

In vitro Studies on Pinus

Hypocotyl tissue from Pinus gerardiana was established in culture on White's basal medium supplemented with 2 % sucrose, 10% (v/v) coconut milk, 500 mg/l casein hydrolysate and 1 mg/1 2,4-dichlorophenoxyacetic acid (2,4-D). Various organic and inorganic nutrients were studied in order to determine the specific nutritional requirements of the tissue in vitro. Sucrose, glucose and maltose were equally effective as fixed carbon sources. The inorganic nutrient combination of White's medium was found to be better than that of Murashige and Skoog's medium. White's modified basal medium supplemented with coconut milk, casein hydrolysate and 2,4-D was the most successful nutrient combination. Glutamine was as effective as casein hydrolysate in promoting growth of the tissue.     

Tissue culture of Hypericum brasiliense Choisy: Shoot multiplication and callus induction

Hypericum brasiliense, a non-domesticated plant has been shown to have useful medicinal properties. This plant has not been cultivated so a protocol for mass propagation based on selection of superior clones was developed and a protocol established for the culture of callus cells that could be used for in vitro metabolite production. A micropropagation method based on amplification of nodal buds was developed, by selection, from ten seedling clones that were examined for growth rate, multiplication rate and rooting. The effect of various basal media, growth regulator types and concentrations were examined for optimal callus induction. Optimal callus induction occured on either Murashige and Skoog's or Gamborg's media supplemented with 1 to 2 mg l^–1 of 2,4-dichlorophenoxyacetic acid.Abbreviations B5 Gamborg's medium - 2,4-Dscd 2,4-dichlorophenoxyacetic acid - IAA indolacetic acid - MS Murashige & Skoog's medium - NAA naphtaleneacetic acid     

Efficient plant regeneration of native spearmint (Mentha spicata L.)

Summary Protocols and media constituents for efficient in vitro plant regeneration of Native Spearmint (Mentha spicata L. cultivar ‘Native Spearmint’) have been defined. Adventitious shoots were initiated either directly from morphogenetically competent cells of explants or primary callus. Leaf explants from at least 2-mo.-old in vitro-maintained shoots exhibited the greatest morphogenetic capacity. Explants derived from basal portions of leaves at the bottom of the shoot were most responsive, with up to a 100% regeneration frequency and greater than nine shoots per explant. Highest frequency of meristemoids and morphogenetic callus were initiated from explants cultured onto a basal medium containing Murashige and Skoog (MS) salts, supplemented with 4 mg thidiazuron (TDZ) per L and 25% (vol/vol) coconut water (CW) for 10 to 14 d in darkness. Bud and shoot development required removal of both TDZ and CW from the medium. Shoot propagules were transferred to basal medium supplemented with 0.01 mg α-naphthaleneacetic acid (NAA) per L and grown under low light for about 2 wk to facilitate shoot elongation. Individual shoots about 1 cm tall were dissected and retransferred onto the same medium. Root initiation began within 4 to 6 d and a functional root system developed within 2 to 3 wk. These plantlets were transferred to soil and acclimated successfully for growth and development in a greenhouse. This is the first report of an efficient regeneration system for Native Spearmint based on adventitious organogenesis.     

Plant regeneration of creeping bluestem (Schizachyrium scoparium (Michx.) Nash var. Stoloniferum (Nash) J. Wipff) via somatic embryogenesis

Summary Creeping bluestem (Schizachyrium scoparium (Michx.) Nash var. stoloniferum (Nash) J. Wipff) embryogenic callus growing on solid medium was used to establish a cell suspension culture in Murashige and Skoog (MS) basal medium supplemented with 1.5 mg l⁻¹ (6.8 μM) 2,4-dichlorophenoxyacetic acid (2,4-D), 0.2 mg l⁻¹ (0.88 μM) 6-benzylaminopurine (BA), 0.5 mg l⁻¹ (1.4 μM) zeatin, 0.2 mg l⁻¹ (0.58 μM) gibberellic acid (GA₃), and 10% (v/v) of coconut water (CW). Pro-embryos from suspension culture matured on semi-solid MS medium in about 18 wk, and were then cultured on semi-solid MS medium without growth regulators for 2–3 wk. Shoots were regenerated on MS basal medium supplemented with 3.0 mg L⁻¹ (13.6 μM) 2,4-D, 1.0 mg l⁻¹ (4.4 μM) BA, 1.0 mg l⁻¹ (2.9 μM) GA₃, 0.5 mg l⁻¹ (2.7 μM) 1-naphthaleneacetic acid (NAA), 500 mg l⁻¹ easein hydrolysate, and 10% (v/v) CW. Rooted plantlets were successfully accelimatized to greenhouse and outdoor conditions. Using this protocol, it would be possible to produce at least 1300 fully acclimatized plantlets annually.     

Plant regeneration from isolated cells ofLavandula latifolia medicus

Summary Single cells were obtained from hypocotyl-derived callus ofLavandula latifolia Medicus. Cells were plated in Murashige and Skoog medium supplemented with indoleacetic acid (IAA), benzyladenine (BA), and several IAA-BA combinations. Cell division required the simultaneous presence of IAA and BA in the culture medium, but callus formation was only achieved with 0.1 or 1 mg/liter IAA and 2 mg/liter BA. To induce organogenesis, calli were transferred to various regeneration media. Shoot-bud differentiation efficiency depended on the composition of both the callus induction and the shoot regeneration media, best results being obtained when calli grown in 1 mg/liter IAA and 2 mg/liter BA were subcultured to media containing 2 mg/liter BA and 15% coconut milk. Under these conditions, up to 75% of calli formed shoots that subsequently were rooted and established in soil.