Induction of Adventitious Buds on Buds of Norway Spruce (Picea abies) Grown in vitro

Resting vegetative buds of Norway spruce, Picea abies (L.) Karst., were induced to form adventitious bud primordia when cultured on medium -containing cytokinin. After transfer of the induced buds to medium lacking cytokinin, adventitious buds developed. The adventitious buds arose from meristems formed de novo in the needle primordia. No differences were found in the ability to form adventitious buds among buds collected from trees ranging from 5–50 years old.     

Effect of Sucrose on Starch Accumulation in and Adventitious Bud Formation on Embryos of Picea abies

Adventitious buds were initiated on embryos of Picea abies (L.)Karst. after a pulse treatment with cytokinin. The initial stagesof bud formation could take place on culture medium lackingsucrose, but sucrose was required for further development ofmeristematic centres into bud primordia and buds. Sucrose atone per cent was optimal for adventitious bud formation. Embryoscultured on media containing sucrose started to accumulate starchduring the first day. Starch accumulation occurred especiallyin the cortex cells where starch grains were frequently presentin the chloroplasts. The starch accumulation increased withhigher sucrose concentrations in the culture medium. Embryoscultured on medium lacking sucrose did not accumulate starchbefore the formation of meristematic centres. Starch accumulationwas never observed in meristematic cells from which adventitiousbud primordia developed. Picea abies (L.) Karst., Norway spruce, adventitious bud, starch accumulation, sucrose concentration     

Micromorphological studies of adventitious bud formation on Picea abies embryos treated with cytokinin

Embryos of Picea abies (L.) Karst were pulse-treated with water or cytokinin for 2 h and then cultured on medium lacking cytokinin. Adventitious buds developed on cytokinin-treated embryos, but not on water-treated embryos. The general appearance and the surface morphology were similar on water and BA (benzyladenine)-treated embryos after 3 days. The epidermal cells were elongating after 6 days on water-treated embryos, while they were dividing on cytokinin-treated embryos. Furthermore, the cells surrounding the stomata had started to proliferate on BA-treated embryos. This was the first micromorphological sign of bud initiation. During the second week prominent meristemoids developed from these cells. A stoma was observed on the top of each meristemoid. The variation in developmental pattern of meristemoids among different embryos as well as within each embryo was small. However, during the subsequent development of bud primordia and buds, the morphological variation was significant. The meristemoids continued to develop into cone-shaped bud primordia, which successively changed shape during the transition to adventitious buds. The epidermal cells divided and the epidermis did not rupture during the formation of adventitious bud primordia. The epidermis was identified as the protoderm of the bud primordium.     

Cytokinins and flower bud formation in vitro in tobacco: role of the metabolites

Explants from flower stalks of Nicotiana tabacum L. were cultured on different cytokinins to induce flower bud formation. All cytokinins tested except zeatin and zeatin-riboside induced the same maximal number of flower buds. Benzyladenine, benzyladenosine, and dihydrozeatin were the most active compounds whereas isopentenyladenosine and isopentenyladenine acted at a 20-fold higher concentration. These data suggest that the active cytokinins bind to the same receptor with different affinities. The presence of benzyladenine in the medium was necessary only during the first 2 days of culture (initiation period). The equilibrium between benzyladenine and its conjugates (the riboside, glucoside, and nucleotides) after a 4-day pulse was independent of the benzyladenine concentration whether it was inductive or noninductive for bud formation. The level of all derivatives was proportional to the benzyladenine concentration in the medium. Isopentenyladenine was used as a competitive inhibitor of benzyladenine conjugation. Isopentenyladenine concentrations that were too low for bud formation led to a synergistic increase in bud number when applied together with benzyladenine. Isopentenyladenine decreased benzyladenine uptake and conjugation. In spite of the lower uptake, the concentration of free benzyladenine inside the explants was higher in the presence of isopentenyladenine than in its absence whereas the concentration of the 7-glucoside of benzyladenine was lower. It was concluded that the free cytokinin base is the main active compound.     

Involvement of Calcium in Adventitious Bud Initiation in Torenia Stem Segments

In Torenia stem segments cultured in vitro, active meristematicdivisions are induced in the epidermis by treatment with cytokinin,resulting in the formation of adventitious buds. Applicationof the calcium ionophore A23187 [GenBank] was found to induce meristematicdivisions in the absence of cytokinin. The induction by A23187 [GenBank] was inhibited by simultaneous addition of auxin, but not byanti-cytokinin. A two hour pre-treatment with A23187 [GenBank] was alsoeffective, but only when it was applied to the explants justafter their excision from mother plants. The A23187 [GenBank] -inducedmeristematic zones developed into dome-shaped structures, butnot into complete adventitious buds. Complete elimination ofcalcium from the culture medium caused 50% inhibition of A23187 [GenBank] -and/or cytokinin-induced initiation of meristematic divisions.When the explants were preincubated with EGTA and then culturedon a Ca-free medium containing EGTA, cytokinin failed to inducebud initiation. Similar inhibition was also obtained by lanthanum,a calcium antagonist, by verapamil, a calcium channel inhibitor,and by trifluoperazine and chlorpromazine, calmodulin inhibitors.These results support the idea that adventitious bud initiationinduced by cytokinin in Torenia stem segments may be mediated,at least partially, by an increase in the level of intracellularCa²⁺. ¹Bioscience Research Center, Mitsui Petrochemical IndustriesLtd., Waki-cho, Kuga-gun, Yamaguchi 740, Japan. (Received May 9, 1985; Accepted October 5, 1985)     

苦瓜离体培养过程中内源激素含量的变化

针对苦瓜(Momordica charantia)离体培养中外植体易于产生愈伤组织而难以再生不定芽的问题,本文采用酶联免疫吸附法, 研究了苦瓜组织培养过程中不同发育阶段各外植体内源激素含量的变化, 以探讨不定芽分化与激素水平变化之间的关系, 以及苦瓜难以再生不定芽的内在制约因素。结果表明: (1)苦瓜外植体中IAA含量较高, 而iPAs含量过低, 是苦瓜易于产生愈伤组织而不定芽再生困难的主要原因;(2)不定芽的分化与IAA/iPAs的变化有密切的关系; (3)在离体培养过程中, 保持外源细胞分裂素类物质(如ZT)的适当浓度并及时继代, 有利于苦瓜不定芽的分化。     

Plant regeneration via adventitious bud formation from cotyledon explants of Panax ginseng C. A. Meyer

Cotyledon explants of ginseng (Panax ginseng C. A. Meyer) produced somatic embryos directly on medium without growth regulators, with 89% of the explants forming somatic embryos. Cytokinin treatment greatly suppressed somatic embryo formation but stimulated the direct formation of adventitious buds. BAP treatment was more effective than the kinetin treatment for adventitious bud formation. Auxin (0.05 mg/l IBA) in combination with cytokinin enhanced adventitious bud formation, with the highest frequency, 40%, at 0.05 mg/l IBA and 5 mg/l BAP. Adventitious buds were mainly formed near the distal portion of the cotyledons, while somatic embryos were formed near the proximal excised margins. Shoots were developed from adventitious buds after transfer to MS medium with 10 mg/l GA₃. Root formation from the shoots was obtained after the shoots were transferred to half-strength MS medium with auxin (IAA). When the plants derived from adventitious buds were transferred to greenhouse soil, 36% were successfully acclimatized. Received: 7 November 1997 / Revision received: 12 January 1998 / Accepted: 7 February 1998     

In vitro morphogenetic studies on three apomictic species of Garcinia

Comparison of morphogenetic potential of three important Indian species of Garcinia??G. indica, G. cambogia and G. xanthochymus has been reported. Apomictic seeds of G. indica were found to be morphogenetically most potential followed by G. cambogia. The explants of G. xanthochymus were highly recalcitrant towards in vitro conditions and failed to induce adventitious buds on any of the media tested. High frequency direct shoot bud differentiation was induced in aseptic seed cultures of G. indica and G. cambogia on MS medium supplemented with cytokinins (BAP, kinetin or TDZ). Amongst the three cytokinins tested, TDZ (0.1?C0.5???M) was most effective for adventitious bud differentiation in both G. indica and G. cambogia, however, the proliferating buds failed to elongate. Substantial number of buds induced on BAP supplemented media elongated into shoots after subculture on elongation medium. Addition of NAA along with cytokinins in the induction medium enhanced callusing without improvement in bud induction response. The induced adventitious buds were elongated on MS basal medium containing 0.2% activated charcoal. Direct rooting was achieved in both G. indica and G. cambogia on auxin supplemented media with best response at 10???M IBA concentration in both the species. The in vitro raised plantlets showed 90% survival in the field when transferred after hardening and acclimatization.     

Effects of Wounding on Adventitious Bud Formation in Torenia Stem Segments Cultured In Vitro

In in vitro cultured stem segments of Torenia fournieri Lind.,the formation of adventitious buds can be induced when the culturemedium contains cytokinin. When long stem segments (2.0 cm ormore) were cultured with cytokinin, a large number of buds wereformed in the marginal regions, namely, within the limits of0.5 cm from the cut ends of explants, while only a few budswere initiated in the middle part of the explants. If a slightinjury was made transversely with a scalpel in the central partof an explant, a significant increase in the number of budswas noted within the limits of 0.5 cm from the wound site. Whena wounding treatment was given lengthwise to an explant, a largenumber of adventitious buds were formed over the entire surfaceof the explant compared to the control. Excision itself of explantsfrom mother plants and the additional wounding given to theexplants seemed to trigger the induction of adventitious buddifferentiation in Torenia stem segments. These wounding treatmentsdid not affect the uptake into explants and/or the distributionpattern of radioactive benzyladenine applied to the culturemedium. Key words: Torenia fournieri, Adventitious bud formation, Cytokinin, Wounding     

Endogenous Cytokinins in Flower Bud Forming Explants of Tobacco

The accumulation of endogenous cytokinins was studied in pedicelexplants of tobacco (Nicotiana tabacumL.) during regenerationof flower buds in vitro. Maximal bud formation was induced onmedia containing 1.0 mmol m^–3 of benzyladenine or dihydrozeatin.No buds were formed in the absence of cytokinin. The levelsof dihydrozeatin, zeatin, and the corresponding ribosides weredetermined in explants cultured in the presence or absence ofcytokinin by means of a competitive ELISA technique. In explantsincubated without a cytokinin, only the dihydrozeatin concentrationincreased significantly during the first day of incubation anddecreased during the second day. No increase was observed inexplants incubated in the presence of benzyladenine. The concentrationof dihydrozeatin in these bud-forming explants was only 10 to15% of the concentration built up in explants cultured on dihydrozeatininstead of benzyladenine. This suggests that the endogenouscytokinins only play a minor role in the regeneration of flowerbuds in vitro. Key words: cytokinin, flower bud development, tissue culture, tobacco     

The influence of cytokinin pulse treatments on adventitious bud formation on vegetative buds of Picea abies

Resting vegetative buds of Picea abies collected from phytotron-grown rooted cuttings of 24-year-old trees or a 12-year-old hedge were tested for their capacity to form adventitious buds after various cytokinin treatments. The most effective method for obtaining a high yield of adventitious buds within 8 weeks was to pulse treat the buds in 250 M BA for 3 h and then culture them on medium containing 5 M each of BA and kinetin for 1 week. The developmental pattern for adventitious bud production, with the formation of 10 to 20 adventitious buds per bud, was similar for all tested genotypes, although the number of buds giving rise to adventitious buds varied significantly. The capability of some clones to form adventitious buds was correlated to endogenous cytokinin content. The clone which contained most endogenous cytokinin in its resting bud had the highest potential for adventitious bud formation.     

Another evidence for inhibitory effect of auxin in adventitious bud formation of decapitated flax (Linum usitatissimum L.) seedlings

Adventitious buds were formed on the hypocotyls of decapitated flax seedlings. Scanning electron and light microscopic examinations of hypocotyls showed that epidermal cells divided to produce meristematic spots from which several leaf primordia were formed. Between leaf primordia and the original vascular tissues of hypocotyls, new xylem cells were formed which connected them. About 10, 30 and 60% of adventitious buds were formed on upper, middle and basal parts of hypocotyls of decapitated seedlings, respectively. Removal of apical meristem together with longer hypocotyl zero to four cm long below the apical meristem) induced higher percentage of adventitious bud formation in the remaining hypocotyl. When the entire hypocotyl was cut into 16 segments (0.25 cm each) and these segments were cultured on MS medium containing 3% sucrose and 0.8% agar, adventitious buds were mainly formed in the lowest five segments. These results suggested that there was a gradient of inhibitory factor(s) from apical to basal part of hypocotyl with respect to adventitious bud formation. Auxin transport inhibitors, morphactin and TIBA induced adventitious bud formation on intact seedlings by suppressing the basipetal movement of auxin.     

金桔组织培养中愈伤组织和芽形成的组织细胞学观察

用金桔茎段为外植体,培养在附加1.0毫克/升BA和0.l毫克/升IBA的MS培养基上,诱导愈伤组织和芽形成。观察了愈伤组织和芽形成过程中的组织细胞学变化。培养一周后,在茎组织切口两端开始膨大,细胞增大和开始分裂。培养两周后,开始形成瘤状愈伤组织。在愈伤组织中有形成层状分生组织、维管组织结节和分生细胞团。培养四周后,表层的分生细胞团分化形成大量芽原基,同时愈伤组织深层也出现分生细胞团。带节茎段可从切口两端的愈伤组织分化形成芽,亦可从叶腋的潜伏芽直接形成芽。     

The accumulation and metabolism of plant growth regulators during organogenesis in cultures of thin cell layers of Nicotiana tabacum

The accumulation and metabolism of exogenously applied and endogenously produced auxins and cytokinins were studied in relation to organogenesis in thin cell layers of Nicotiana tabacum L. It was shown that, in order to obtain maximal flower bud formation, both exogenous auxin and cytokinin needed to be present during the first 4 days of culture (to the formation of a subepidermal meristematic zone) whereas cytokinins needed to be present for at least 4 days more (until formation of organogenic centres). Explants taken from floral branches have higher endogenous indole-3-acetic acid (IAA) levels compared with explants from the basal part of the stem which form only vegetative buds. This might be related to a different IAA metabolism in these two types of explants as was shown by the different accumulation of exogenously applied IAA. Both 'floral' and 'vegetative' cells layers contained comparable amounts of zeatin riboside (ZR) as their major cytokinin. Free bases, zeatin (Z) and dihydrozeatin [(diH)Z], given exogenously, were largely metabolised to their respective ribosides. The observation that Z was less effective than (diH)Z in the induction of flower buds could be related to (diH)ZR apparently not being a substrate for cytokinin oxidase.     

Induction of flower bud formation in vitro by dihydrozeatin

Flower stalk explants of tobacco cultured on a medium with an auxin and cytokinin regenerate flower buds within 14 days. The optimal medium concentrations of dihydrozeatin (DHZ) and benzyladenine (BA) were both 1 μM. The presence of DHZ in the culture medium was only essential during an initiation period of 7 days, whereas BA was needed only during the first 4 days. The difference in length of the initiation period is neither explained by the unequal uptake rates of the cytokinins nor by differences in their conjugation. At the medium concentration optimal for bud formation, the internal concentration of DHZ was two to three times the internal concentration of BA, which could be attributed to faster uptake of DHZ. It is concluded from the combined data that DHZ is less active in inducing flower bud formation than BA and that the exogenous cytokinins play only a role during the initiation phase of bud regeneration.     

HISTOLOGICAL ANALYSIS OF ADVENTITIOUS BUD FORMATION IN CULTURED DOUGLAS FIR COTYLEDON

Initiation of adventitious bud formation in vitro from Douglas fir cotyledons required both cytokinin and auxin at concentrations of 5 μM BAP and 5 nM NAA. Histological observations showed that these adventitious buds arose de novo from cells residing in hypodermal layers. Development of adventitious buds in culture was characterized by the sequential appearance of four anatomically distinguishable structures: 1) meristemoid, 2) bud primordium, 3) shoot apex with needle primordia, and 4) adventitious bud. The anatomical structure of tissue culture-produced buds was similar to that of vegetative buds produced on intact plants. Cultured cotyledons capable of producing adventitious buds (bud culture) were compared with bud-callus and callus cultures initiated by 5 μM BAP plus 5 μM NAA and 5μM NAA alone without BAP, respectively. Results showed that, during early stages of the culture period (i.e., prior to the appearance of meristemoid structure), cell division of bud culture was mainly located in hypodermal layers, whereas for the other culture types, bud-callus and callus cultures, cell division occurred randomly in all tissues.     

Induction of flower bud formation in vitro by dihydrozeatin

Flower stalk explants of tobacco cultured on a medium with an auxin and cytokinin regenerate flower buds within 14 days. The optimal medium concentrations of dihydrozeatin (DHZ) and benzyladenine (BA) were both 1 M. The presence of DHZ in the culture medium was only essential during an initiation period of 7 days, whereas BA was needed only during the first 4 days. The difference in length of the initiation period is neither explained by the unequal uptake rates of the cytokinins nor by differences in their conjugation. At the medium concentration optimal for bud formation, the internal concentration of DHZ was two to three times the internal concentration of BA, which could be attributed to faster uptake of DHZ. It is concluded from the combined data that DHZ is less active in inducing flower bud formation than BA and that the exogenous cytokinins play only a role during the initiation phase of bud regeneration.     

Root-to-shoot primordium conversion on Sesbania rostrata Brem. stem explants

The morphogenetic responses of cultured stem explants of Sesbaniarostrata Brem. from various positions along the stem axis wereanalysed after treatment with four growth regulators (BAP, NAA,kinetin, and GAJ. Internodal explants formed adventitious shootbuds when cultured on a Murashige and Skoog basal medium withoutadded growth regulators. Histological studies of regenerated shoot buds revealed thatapproximately 30% of the buds resulted from the conversion ofa preformed root primordium (characteristic of this species)into a shoot bud without a callogenesis phase. Each bud whichoriginated from a single root primordium grew into a leafy shoot.Preformed root primordia of stem explants of Sesbania rostratamay constitute an excellent model for physiological researchon plant differentiation. Key words: Organogenesis, adventitious bud, preformed root primordium, conversion, Sesbania rostrata     

Formation of adventitious buds in needle primordia isolated from embryonic shoots of adult picea abies

Needle primordia were isolated from embryonic shoot expiants of 88 year oldPicea abies (Norway spruce) in order to develop a method for micropropagation using adult mother trees. The isolation of needle primordia in combination with frequent subculture, stimulated the formation of peripheral meristematic tissue in expiants cultured on a modified Murashige & Skoog medium supplemented with cytokinin. Transfer of isolated needle primordia with peripheral meristematic tissue to medium without growth regulators, and with a reduced ratio of NH+4/ NO?3, resulted in the formation of adventitious buds.     

Hormonal Control of Differentiation of Shoots, Roots and Embryos in Leaf and Stem Cultures of Petunia inflata and Petunia hybrida

Factors influencing adventitious bud and root development, callus induction and embryogenesis were investigated in stem and leaf cultures of Petunia inflata R. E. Fries and Petunia hybrida cv. Cascade and cv. Rose du ciel grown on a synthetic nutrient medium. Indoleacetic acid caused limited callus development and root formation whereas naphthaleneacetic acid Induced abundant roots. 2,4-Dichlorophenoxyacetic acid promoted callus growth and differentiation of embryos which eventually developed into plantlets. Cytokinins such as benzyladenine, zeatin and kinetin induced bud development. A combination of auxins and cytokinins caused an interaction which was manifested in altered morphogenetic response. Thus 2,4-dichlorophenoxyacetic acid in conjunction with benzyladenine caused suppression of bud development and retarded differentiation of embryos. Likewise, when benzyladenine was used with indoleacetic acid root development was totally inhibited and abundant buds were produced.