Organogenesis from shoot segments and via callus of endangered <Emphasis Type="Italic">Kosteletzkya pentacarpos</Emphasis> (L.) Ledeb.

Efficient plant regeneration systems both from shoot segments and via callus organogenesis were developed for Kosteletzkya pentacarpos (L.) Ledeb., a rare and endangered Eurasian species. In the experiments with existing meristems, factors affecting shoot proliferation, including explant type, i.e. decapitated and intact shoots, and plant growth regulators, indole-3-acetic acid or kinetin, were investigated. Shoot proliferation was significantly affected by the type of explant, the hormones and their interaction. The highest shoot multiplication rate was obtained from decapitated shoots. Increasing kinetin concentration promoted shoot elongation regardless of explant type. In intact shoots, shoot length was also affected by increasing auxin concentration, although this effect tends to decrease with higher concentration. Decapitated shoots were not responsive to the addition of auxin. Micropropagation through organogenesis from callus was also investigated. Calli were obtained from leaf, stem internode and root explants. Only the leaf-derived calli produced shoots and indole-3-acetic acid favoured increased numbers of shoots. A number of experiments were conducted for rooting of in vitro produced shoots. All of them induced high rooting frequency, the number and the length of roots being dependent on the strength of the basal medium. The use of 1–2 mg l⁻¹ indole-3-butyric acid resulted in refining the optimal concentration for root elongation. The regenerated plants (70%) survived and flowered in their first vegetative period.     

Biochemical and histological changes during in vitro rooting of microcuttings of <Emphasis Type="Italic">Bacopa monnieri</Emphasis> (L.) Wettst.

The present study was conducted to investigate the biochemical changes vis-à-vis histological changes during adventitious rooting of microcuttings of Bacopa monnieri (L.) Wettst. The rooting in these microcuttings was induced on basal MS medium and medium supplemented with different concentrations of indole-3-acetic acid and indole-3-butyric acid (IBA). Presence of lower auxin concentration (1.0 µM) in the medium enhanced rooting and significantly improved number of roots per shoot but maximum root length was observed on basal MS medium. Histological studies were conducted to identify different phases of rooting in these microcuttings. The root meristemoids with distinct polarity become visible after 3 days and mark the beginning of in vitro root initiation phase. It was followed by primordia elongation, root emergence and visible rooting on the 5th day of culture on medium supplemented with auxins. Biochemical studies were also conducted from basal portions of microcuttings cultured on MS medium supplemented with 1.0 µM IBA and control (basal MS medium) from 0 to 7 days. Total carbohydrate content was lower during initial periods (up to day 1) and was found to increase during root initiation and primordia development, which reflects high energy demands for active cell divisions. A significantly higher level of phenols was recorded in microcuttings on medium supplemented with IBA. Polyphenol oxidase, peroxidase (POX), ascorbate peroxidase activities were also found to vary during different phases of rhizogenesis. Early phases were also marked with the lower activities of POX and IAAO. This study revealed significant role of enzymes, sugars and phenols during different phases of rooting.     

Adventitious root formation in woody plant tissue: The influence of light and indole-3-butyric acid (IBA) on adventitious root induction in <Emphasis Type="Italic">Betula Pendula</Emphasis>

Summary The effects of auxin concentration and photoperiod on rooting were examined with a view to establishing a rooting regime for Betula pendula shoots cultured in vitro. Optimum concentrations of indole-3-butyric acid (IBA) were determined: the effects of a 16-h photoperiod and a pretreatment of 8d total darkness were examined. Maximum rooting rates and rooting densities (root number) were achieved using relatively low levels of IBA (0.39–0.74 μM). Both the dark and the light regimes produced roots, higher yields occurring with the latter. Maximum rooting percentage was reached after 30 d growth. in the light-treated cultures.     

In vitro rooting of sentang shoots (Azadirachta excelsa L.) and acclimatization of the plantlets

Summary In vitro proliferated sentang shoots were cultured onto half-strength Murashige and Skoog (MS) medium containing combinations of 1-naphthyleneacetic acid (NAA) and indole-3-butyric acid (IBA). Sentang shoots were unable to root in the absence of both auxins. A combination of 0.5 mg NAA per and 1 mg IBA per 1 induced the most shoots to form roots. With the addition of 2.5 g activated charcoal per 1 into half-strength MS medium containing 0.5 mg NAA per 1 and 1 mg IBA per 1, roots were more numerous and longer. Substances like gelrite and phloroglucinol and sugar content which would commonly influence in vitro rooting were inhibitory to adventitious root formation of sentang. Maximal rooting of 100% was achieved in “Culture Pack,” made of fluorocarbon polymer film containing charcoal-free medium with 0.5 mg NAA per 1 and 1 mg IBA per 1. Rooted shoots were acclimatized for 4 wk. Overall survival was 80%. These findings suggest the use of Culture Pack as the culture vessels, with 0.5 mg NAA per 1 and 1 mg IBA per 1 in half-stength MS media to effectively induce roots in sentang shoots.     

Ex Vitro Rooting of Micropropagated Shoots of Stackhousia Tryonii

Micropropagated shoots of Stackhousia tryonii were exposed (individually or in combination) to indole-3-acetic acid (IAA), indole-3-butyric acid (IBA), and 1-naphthalene acetic acid (NAA) at concentrations 1, 2 or 4 g dm^–3 with the view to induce rooting under ex vitro conditions. The treated microshoots were grown in a mist room for four weeks and assessed for survival, rooting percentage, number of roots and root length. The results showed that IBA at 2 g dm^–3 was most effective in inducing roots. Mixing of two or more auxins markedly reduced rooting percentage indicating antagonistic effects. The results demonstrated the potential of combining ex vitro rooting and hardening in one step, with view to reducing costs of multiplying plants via micropropagation.     

Micropropagation of Mandevilla moricandiana (A.DC.) Woodson

A protocol was developed for micropropagation of Mandevilla moricandiana (A.DC.) Woodson, a native plant from Brazil. Shoots, obtained from in vitro plantlets were used as source of nodal segments for shoot production from axillary buds. The nodal segments were grown on Murashige and Skoog medium supplemented with different concentrations of 6-benzyladenine and/or indole-3-acetic acid to induce axillary bud elongation. After a 2-mo culture period, the medium supplemented with 1.0 mg?L^?1 6-benzyladenine gave the largest number of nodal segments per explant. The nodal segments obtained from plants developed under these conditions were grown on medium supplemented with different concentrations indole-3-acetic acid, ??-naphthaleneacetic acid, and indole-3-butyric acid. The use of the medium supplemented with indole-3-acetic acid and indole-3-buryric induced shoot elongation and shoot development, formation of basal callus, and/or indirect organogenesis of roots. Following transfer of shoots to soil, the plants with only basal callus showed 10% survival and developed roots from callus, while in vitro-rooted plants had a maximum 40% survival rate ex vitro. Regardless of the auxin added to the rooting medium, the acclimatization period allowed the plants rooted in vitro to develop their shoots fully. The protocol developed here is suitable for the production of shoots and rooted plantlets of M. moricandiana.     

In vitro rooting of almond (Prunus dulcis Mill.)

Summary Shoot cultures of the paper shell almond (Prunus dulcis Mill.) cultivars ‘Ne Plus Ultra’ and ‘Nonpareil’ were subcultured for 4 wk at 4°C on growth regulator-free basal medium under low light conditions. Elongated shoots were excised and their response to a range of rooting treatments determined. Various concentrations of indole-3-butyric acid (IBA) and α-naphthaleneacetic acid were compared over a range of incubation periods to determine the optimum auxin for root formation. In addition, the effect of shoot base shading, phloroglucinol (PG), and basal salt composition were examined. The treatment resulting in the best rooting of both cultivars was shoot insertion for 12 h into water-agar (0.6% w/v) with 1.0 mM IBA, followed by 2 wk in basal medium without auxin but with 100.0 μM PG. Explants were maintained under dark conditions for 3 d at the start of the treatment period, then exposed to light. Extending the darkening period did not improve rooting ability. Whilst half-strength Murashige and Skoog basal medium was suitable for rooting “Ne Plus Ultra’ shoots, full-strength Almehdi and Parfitt medium resulted in the best rooting of ‘Nonpareil’. Under these conditions, 60.0% of explants developed adventitious roots.     

Potential use of new diphenylurea derivatives in micropropagation of Capparis spinosa L.

A protocol for in vitro multiplication of caper (Capparis spinosa L. subsp. rupestris) from nodal segments collected from mature plants was developed. For shoot multiplication, one auxin (indol-3-butyric acid, IBA) and cytokinins of two different classes were used: the N6-substituted adenine derivatives 6-benzylamino purine (BAP), and the two synthetic phenylurea derivatives N-phenyl-N′-benzothiazol-6-ylurea (PBU) and N-phenyl-N′-(1,2,3-thidiazol-5-yl) urea (thidiazuron, TDZ). Maximum shoot production was achieved from explants cultured with the adeninic cytokinin BAP (4 μM) and the auxin IBA (0.5 μM). New shoots longer than 1 cm were used for rooting. To induce root formation, three auxins [indole-3-butyric acid (IBA), 1-naphthaleneacetic acid (NAA) and 3-Indoleacetic acid (IAA)] and two synthetic phenylurea derivatives [N,N-bis-(2,3-methylenedioxyphenyl)urea (2,3-MDPU) and N,N-bis-(3,4-methylenedioxyphenyl)urea (3,4-MDPU)] were used. All rooting compounds tested stimulated the formation of roots. However, the best result in terms of a high percentage of rooted shoots having a well-developed root system with many lateral roots was achieved with the synthetic phenylurea 2,3-MDPU (1 μM) with 93.7% of well rooted plantlets. About 80% of rooted plantlets were successfully acclimatized and transferred to the greenhouse.     

Plant regeneration from mesophyll protoplasts in Isatis indigotica

Protoplasts of an accession of Isatis indigotica Fort. were isolated from mesophyll tissue by enzymatic digestion and cultured using a feeder cell system. Shoot regeneration efficiency was 100% via organogenesis among 627 isolated calluses within 30–37 days. Among these shoot initiating calluses, 162 (22.6%) developed normal shoots with multiple (2–5) shoots per callus. The remaining calluses developed only vitreous shoots. High concentration (5 μM) of indole-3-butyric acid had a positive effect on rooting compared to low concentration (0.5 μM) of indole-3-butyric acid and α-naphthalene-acetic acid. The average rooting efficiency of regenerated shoots of two experiments was higher on LS medium with 5 μM indole-3-butyric acid than on LS medium without growth regulators. Twenty-nine plantlets, with 2–3 expanded leaves and roots were potted in soil and 22 developed normally to maturity in the glasshouse. This revised version was published online in June 2006 with corrections to the Cover Date.     

Factors affecting induction and development of in vitro rooting in apple rootstocks

Shoots of apple rootstocks raised in vitro were transferred to various rooting media to study the effect of different factors on root initiation and development. Various concentrations of indole-3-butyric acid (IBA) initiated rooting but maximum rooting percentage was found with 2.0 and 2.5 mg l(-1) of IBA in M7 and with 1.0 mg l(-1) of IBA in MM106. The drawback was that the roots were thick, short and with profuse callus. The presence of activated charcoal (AC) in the rooting medium improved the rooting quality but reduced the rooting percentage in both the rootstocks. In high auxin dip of 70, 80 and 90 mg l(-1) IBA for 2, 2 and 1 hr showed 75-85 per cent rooting in M7, but lacked reproducibility of the results. Whereas in MM106, 66 - 70 % rooting was achieved with 70 mg l(-1) of IBA dip for 3 h. Root induction in shoots in IBA containing liquid medium (LM) in dark for few days and root elongation in IBA--free medium in light proved most effective. On the other hand, continuous light treatment showed reduced rooting. Reduction of MS salts and sucrose in root elongation medium showed decreased rooting. Plantlets from two--stage rooting procedure showed more rapid growth and satisfactory survival during hardening of plants and on transfer to field.     

The effects of in vitro and ex vitro root initiation on subsequent microcutting root quality in three woody plants

In vitro- and ex vitro-rooted microcuttings of Acer rubrum L. Red Sunset, Betula nigra L., and Malux x- domestica Borkh McIntosh were distinguished by several important anatomical and morphological properties which continued to regulate both root system and whole plant quality in later stages of production. In vitro microcuttings formed adventitious roots in greater number and more quickly than ex vitro microcuttings. Roots produced in vitro were characterized by extremely enlarged cortical cells and, consequently, had a much greater diameter than ex vitro roots. However, the vascular system of in vitro roots was underdeveloped (primary vascular tissues only) as compared to ex vitro roots, which produced vascular cambium and secondary growth during the same early stage of production. At least 50% of the post-transplant in vitro adventitious roots either died immediately, or temporarily persisted during acclimatization without producing any further growth. For the surviving in vitro-produced roots, the cortex partially collapsed after transplant, and new root extensions with ex vitro-like structure were produced. Only then did the in vitro portion of the root begin to form secondary vascular tissues. Shoots from in vitro treatments continued to grow vigorously during adventitious root initiation and during acclimatization, so that the plants were significantly taller and had a greater shoot area than those receiving comparable ex vitro rooting treatment. In vitro rooting led to a horizontal root morphology which continued to distinguish these treatments from ex vitro rooted plants during later stages of production, when anatomical differences in the roots could no longer be detected.Abbreviations BA benzyladenine - IBA indole-3-butyric acid - MS Murashige and Skoog medium - NAA naphthaleneacetic acid - PPF photosynthetic photon flux - TDZ thidiazuron - WPM woody plant medium     

Inhibition of maize root growth by high nitrate supply is correlated with reduced IAA levels in roots

The plant root system is highly sensitive to nutrient availability and distribution in the soil. For instance, root elongation is inhibited when grown in high nitrate concentrations. To decipher the mechanism underlying the nitrate-induced inhibition of root elongation, the involvement of the plant hormone auxin in nitrate-dependent root elongation of maize was investigated. Root growth, nitrogen and nitrate concentrations, and indole-3-acetic acid (IAA) concentrations in roots and in phloem exudates of maize grown under varying nitrate concentrations were analyzed. Total N and nitrate concentrations in shoots and roots increased and elongation of primary, seminal and crown roots were inhibited with increasing external nitrate from 0.05 to 5 mM. High nitrate-inhibited root growth resulted primarily from the reduced cell elongation and not from changes in meristem length. IAA concentrations in phloem exudates reduced with higher nitrate supply. Inhibition of root growth by high nitrate was closely related to the reduction of IAA levels in roots, especially in the sections close to root tips. Exogenous NAA and IAA restored primary root growth in high nitrate concentrations. It is concluded that the inhibitory effect of high nitrate concentrations on root growth may be partly attributed to the decrease in auxin concentrations of roots.     

Relations between auxin and cytokinin contents and in vitro rooting of tree Peony (Paeonia suffruticosa Andr.)

In this work, a combined HPLC-ELISA technique was used to associate in vitro rooting capacity of tree peony micro-cuttings with contents of cytokinin and auxin; the cytokinin mainly detected corresponded to the N⁶-benzyladenine which had been added to the multiplication medium. Rooting capacity of explants was favoured by a preliminary accumulation of endogenous IAA only when levels of the BA absorbed from the multiplication medium had decreased. Main shoots coming from a 5-weeks subculture fulfilled these hormonal conditions and were the best microcuttings for rooting (87% rooting). Main shoots coming from shorter cycles or axillary shoots coming from a 5-weeks cycle always contained high benzyladenine levels and had a low rooting capacity (25–55% rooting). Root induction was associated with an early peak of indole-3-acetic acid followed by a 10-fold lower peak of endogenous ribofuranosyl-isopentenyladenine. Only a low and transitory accumulation of isopentenyladenine occurred during root development, and this could explain the lack of shoot development. Root development was efficient, especially in a medium containing activated charcoal, which led to an almost 3-fold decrease of IAA contents in roots.Abbreviations AC activated charcoal - BA N⁶-benzyladenine - ELISA enzyme linked immunosorbent assay - HPLC high performance liquid chromatography - IAA indole-3-acetic acid - IBA indole-3-butyric acid - iP N⁶-(²-isopentenyl)adenine - RDM root development medium - RIM root induction medium - 9RIP 9--d-ribofuranosyl-iP - 9RZ 9--d ribofuranosyl-zeatin - Z zeatin     

Improvements in rooting regenerated safflower (Carthamus tinctorius L.) shoots

A continuing obstacle for regenerating safflower (Carthamus tinctorius L.) plants from cultured explants or callus has been a reliable method for rooting shoots. For shoots directly regenerated from primary explants, 76% of shoots rooted after a 7-d exposure to 10 mg/1 indole-3-butyric acid. Auxin source, concentration or exposure time did not greatly affect root formation or morphology, but strongly affected callus production. Shoots infected with Agrobacterium rhizogenes produced massive numbers of fibrous roots, but shoots did not elongate or survive transfer to soil. Shoot hyperhydricity symptoms were reduced by including 1 g/1 activated charcoal in rooting media. The optimal protocol for inducing root formation consisted of a 7-d exposure to 10 mg/l indole-3-butyric acid in root induction media, followed by incubation in media containing 15 g/l sucrose and 1 g/1 activated charcoal for 21 d.Abbreviations IBA indole-3-butyric acid - MS Murashige and Skoog (1962) medium - NAA anaphthalene acetic acid - POP 2,3,5-trichloro--phenoxypropionic acid     

Effect of Agar, MS Medium Strength, Sucrose and Polyamines on in vitro Rooting of Syzygium Alternifolium

This paper describes the effect of agar, MS basal medium strength, sucrose and polyamines on the in vitro rooting of Syzygium alternifolium realized by a two step procedure involving root initiation (RI) and root elongation (RE). RI was carried out on solidified MS medium supplemented with 1.0 mg dm⁻³ indole-3-butyric acid (IBA) for 3 weeks, and RE following transfer to half-strength MS medium devoid of growth regulators for another 3 weeks. Agar and MS basal medium concentrations played important role on rooting response as well as on health of rooted shoots. Sucrose concentration was positively correlated with the rooting percentage, root number per shoot and root length. The combination of polyamines and 1.0 mg dm⁻³ IBA increases rooting percentage compared to media containing only 1.0 mg dm⁻³ IBA. Optimum rooting was attained with half-strength MS medium containing 1.0 mg dm⁻³ IBA, 2 % sucrose, 10 μM spermine and 0.8 % agar. This revised version was published online in June 2006 with corrections to the Cover Date.     

Rapid multiplication of Sapium sebiferum Roxb. by tissue culture

Multiple shoots formation and elongation was induced from stem explants of Sapium seedlings on media containing cytokinins. Leaf explants produced callus on a medium containing cytokinins, auxin, casein hydrolysate and coconut milk, which could be induced to form multiple shoots on transfer to a medium lacking casein hydrolysate, coconut milk and auxin. Rooting of isolated shoots by treatment with an auxin mixture (indole-3-acetic acid, indole-3-butyric acid and indole-3-propionic acid) and transfer of the plantlets to field have also been successful.     

Auxins and polyamines in relation to differential in vitro root induction on microcuttings of two pear cultivars

The internal levels of indole-3-acetic acid (IAA) and polyamines (PAs) and the metabolism of indole-3-butyric acid (IBA) were studied in relation to the in vitro rooting process of two pear cultivars, the easy-to-root Conference and the difficult-to-root Doyenne d'Hiver. Doyenne d'Hiver required about a 10 times higher concentration of IBA to achieve a rooting percentage similar to that of Conference. One- or two-day exposures to IBA were sufficient to stimulate rooting but with different efficiency for each cultivar. Longer exposure to auxin strongly increased the root number in Conference, whereas root elongation was inhibited in both cultivars. The metabolism of IBA in both cultivars was not significantly different when IBA was used at a high concentration to stimulate maximal rooting in Doyenne d'Hiver. IBA was mainly conjugated into IBA glucose, which was accumulated, and a small amount was converted into free IAA in both cultivars. However, in Doyenne d'Hiver this metabolic pathway appears to be active only at a higher exogenous IBA concentration. At a high IBA concentration more callus was formed by Doyenne d'Hiver, indicating that the cells of Doyenne d'Hiver are not capable of responding to the hormone in the same manner as Conference cells. Anatomic observations indicated that the capacity to induce initial dividing cells was more efficient in Doyenne d'Hiver, but subsequently the number of root primordia formed and root development were much reduced relative to Conference. A possible correlation between these processes and an early increase followed by a decrease of free IAA was seen in Conference. By day 4, a significant increase in IAA conjugates and free putrescine was observed in Doyenne d'Hiver. This higher putrescine content may be related to the lower amount of root development. Together with previous studies these results indicate that differences in the uptake and metabolism of applied auxins may affect rooting ability and the subsequent development of adventitious roots in microcuttings of pear.Abbreviations IBA indole-3-butyric acid - IAA indole-3-acetic acid - PA(s) polyamine(s) - HPLC high pressure liquid chromatography - GC-MS gas chromatography-mass spectrometry - TCA trichloroacetic acid dansyl, 1-dimethylaminonaphthalene-5-sulfonyl - TLC thin layer chromatography - TBA terbutilic alcohol - IBAGluc IBA glucose - IAAGluc IAA glucose - IAAsp IAA aspartate     

A three-stage micropropagation system for a novel color morph of the wildflower, <Emphasis Type="Italic">Porteranthus trifoliatus</Emphasis> (L.) Britt

A three-stage micropropagation system was devised for Porteranthus trifoliatus ‘Pink Profusion’, a cultivar distinguished from the wild type by its pink flowers, purple stems and darker reddish leaves. Nodes of young shoots were used as explants, disinfested, and placed on several different Murashige and Skoog’s (MS) media formulations containing two levels of indole-3-butyric acid (IBA) and four levels of benzylaminopurine (BAP) in a factorial combination. An optimal number of commercially-usable shoots was achieved with BAP concentrations between 10 μM and 30 μM, while the addition of IBA made no significant difference in the number of shoots produced. Proliferated shoots could be rooted ex vitro without auxin treatment.     

Triacontanol-supported micropropagation of woody plants

 The effectiveness of triacontanol in the micropropagation of two woody, economically important fruit plant species was investigated. Triacontanol was added to the routine multiplication and rooting media of apple (Malus domestica cv. JTE-E4) and sour cherry (Cerasus fruticosa cv. Probocskai) rootstocks at concentrations of 2, 5, 10 and 20 μg/l. It was found to increase the number of shoots and the fresh weight of apple in the multiplication phase and to enhance root number and chlorophyll content in the rooting phase. The addition of indole-3-butyric acid (IBA) to the media further improved the effect of triacontanol. A less pronounced effect could be seen in the multiplication phase of sour cherry, although there was an enhancement of shoot proliferation. In the rooting phase, however, the application of triacontanol caused a significant increase in the number of roots per plant, and this effect was further improved when triacontanol was combined with 0.5 mg indole-3-butyric acid/l. Received: 29 March 2000 / Revision received: 1 September 2000 / Accepted: 4 September 2000     

In vitro propagation ofSalix tarraconensis Pau ex Font Quer,an endemic and threatened plant

Summary Salix tarraconensis Pau ex Font Quer, an endemic willow species from northeast Spain, was micropropagated with nodal segments. Shoot multiplication was obtained with different cytokinins, either on Murashige and Skoog medium or woody plant medium. Best results for shoot formation were obtained on Murashige and Skoog medium containing 4.9 μM of 6-γ-γ-dimethylallylaminopurine. Shoots showed strong apical dominance, and some cultures displayed apical necrosis. Benzyladenine gave the worst results; shoots displayed very slow growth, deformed leaves, and hyperhydrity. Good rooting of shoots was obtained with different auxins or without plant growth regulators on woody plant medium. The best results (90-100%) were obtained within 20 d. On rooting media with indole-3-butyric acid or indoleacetic acid, shoot elongation was good (35-40 mm length). Apical necrosis was observed in elongating shoots on rooting medium, but this disturbance favored axillary bud sprouting and formation of new shoots. Shoot length and quality of roots decreased gradually as the concentration of naphthaleneacetic acid increased. Plant survival was 90% 4 weeks after removal fromin vitro conditions.