TDZ-induced high frequency plant regeneration through multiple shoot formation in witloof chicory (<Emphasis Type="Italic">Cichorium intybus</Emphasis> L.)

A very efficient and rapid regeneration system via multiple shoot formation was developed for Cichorium intybus L. when leaf explants excised from sterile seedlings were cultured on medium supplemented with different concentrations and combinations of various plant growth regulators. In a comparison of leaf lamina and petiole explants, lamina explants produced over three times more shoots than petiole explants, with a mean of 7.5 shoots compared to 2.4. Of the combinations of KIN/IAA, KIN/NAA, BAP/IAA, or BAP/NAA, 0.5 mg l⁻¹ KIN combined with 0.3 mg l⁻¹ IAA was the most effective, producing a mean of 19.7 shoots per lamina explant while the control treatment involving no plant growth regulators produced no shoots at all. When either cytokinin was used alone, BAP was found nearly twice more successful than KIN. However, the most effective treatment of all was the combination of 0.01 mg l⁻¹ TDZ and 1.0 mg l⁻¹ IAA, producing as many as 35.8 shoots per lamina explant. This rate of shoot regeneration is remarkably higher than those previously reported for C. intybus, most likely due to the highly inductive effect of TDZ, which was tested for the first time in this species. Rooting of the shoots was readily achieved on medium containing different concentrations of IAA or IBA. IAA was more effective than IBA and resulted in the highest frequency of shoots that rooted (100%) and mean number of roots per shoot (4.2) when used at 0.5 mg l⁻¹. Hardening off process resulted in a production of more than 80% healthy plantlets.     

Adventitious shoot regeneration from leaf, stem and root explants of commercial cultivars of Gentiana

Several culture conditions were examined for promoting efficient plant regeneration from explants of Gentiana. Adventitious shoot regeneration from leaf explants of cv. WSP-3 was very superior on MS medium, compared to B5 medium, supplemented with four cytokinins (TDZ, 4PU-30, BA and zeatin). An auxin / cytokinin combination was required for regeneration. TDZ was the most effective cytokinin, while NAA was more effective than IAA or 2,4-D. Optimum conditions for regeneration from explants (leaf, stem and root) of cv. WSP-3, evaluated in terms of regeneration frequency and number of regenerated shoots per explant, were TDZ and NAA in combination, 5–10 mg/l and 0.1 mg/l for leaf and stem explants, and 10 mg/l and 1 mg/l for root explants, respectively. Application of these conditions to eight other commercial cultivars resulted in 30–100% regeneration from leaf explants. The number of chromosomes in each of ten regenerated plants of each cultivar was diploid, 2n=26. Shoots regenerated in vitro were rooted in phytohormone-free medium and transferred to soil.Abbreviations MS medium Murashige and Skoog's medium (Murashige and Skoog 1962) - B5 medium Gamborg B5 medium (Gamborg et al. 1968) - BA 6-benzylaminopurine - TDZ N-phenyl-N'-1,2,3-thiadiazol-5-yl urea - 4PU-30 N-(2-chloro-4-pyridyl)-N'-phenylurea - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - NAA 1-naphthaleneacetic acid     

In Vitro Regeneration of Achillea millefolium L from Shoot-tips and Root Segments of Seedlings

This report describes, for the first time, an efficient plant regeneration system for Achillea millefolium L (yarrow), a medicinal plant, via shoot multiplication from shoot-tips and adventitious shoot regeneration from root segments. Higher numbers of shoots were obtained when shoot-tips were cultured on MSMO medium supplemented with 3.0 mg l^?1 BA and 0.5 mg l^?1 IAA, or 5.0 mg l^?1 KIN and 1.0 mg l^?1 IBA, producing 17.3 and 17.0 shoots per explant at 100% frequency, respectively. For adventitous shoot regeneration, only root segments developed shoots when cultured on medium containing a combination of 1 mg l^?1 TDZ, 0.5 mg l^?1 IAA and 0.5 mg l^?1 GA3 (18.9 shoots per explant at 100% frequency), while other types of explants (i.e., cotyledons, leaf lamina and petiole segments) or hormonal combinations tested were found ineffective. Regenerated shoots rooted readily on MSMO medium containing different concentrations of IAA, IBA, NAA or 2,4-D, however, NAA at 0.5 mg l^?1, or IBA at 0.5 or 1.0 mg l^?1 were found to be the most productive. Nearly all of the regenerated plants (98%) survived through the hardening process when the rooted plantlets were kept at 55–65% relative humidity for 2 weeks, which were then planted in pots containing potting soil and kept at 25–35% humidity.     

An efficient in vitro regeneration system for Lythrum salicaria

This report describes an efficient plant regeneration system for the medicinal plant Lythrum salicaria via direct adventitious shoot development from leaf and stem explants. Leaf explants were much more responsive to regeneration than stem segments. Of the hormonal combinations tested, those involving thidiazuron (TDZ; 0.1, 0.3 or 0.5 mg dm⁻³) were more effective than the combinations of other hormones and 0.1 mg dm-3 TDZ combined with either indole-3-acetic acid (IAA) or indole-3-butyric acid (IBA) was the most productive. Rooting was readily achieved when multiple shoots were singled out and cultured on medium containing different auxins. IAA was the most effective on root development in terms of both the number of roots per shoot and the frequency of rooted shoots. More than 90 % of the regenerants survived after hardening for four weeks at gradually decreased air humidity.     

Thidiazuron stimulates adventitious shoot regeneration in different safflower explants

Adventitious shoot regeneration from root, hypocotyl, cotyledon and primary leaf explants of safflower (Carthamus tinctorius L.) was studied. Shoot regeneration was promoted by benzyladenine (BA) + naphthaleneacetic acid (NAA), BA + indole-3-butyric acid (IBA), kinetin + NAA and thidiazuron (TDZ) + NAA incorporated in Murashige and Skoog (MS) basal medium. High frequency of shoot regeneration and high number of shoots per regenerating explant were obtained on a wide range of TDZ + NAA combinations. Proliferated shoots were elongated in MS + 0.5 mg dm⁻³ kinetin and well-developed shoots were rooted in half strength MS + 0.5 mg dm⁻³ NAA. Rooted shoots were successfully acclimatized and established in soil.     

Efficient in vitro regeneration of fireweed,a medicinal plant

Epilobium angustifolium L. (fireweed) is a medicinal plant that has been used to treat diarrhea, mucous colitis, irritable-bowel syndrome, skin problems, prostate problems, menstrual disorders, asthma, whooping cough, and hiccups. A highly efficient and rapid regeneration system via multiple shoot formation was developed for fireweed. Explants (leaf, petiole, root, and stem segments) excised from sterile seedlings were cultured on medium supplemented with different concentrations and combinations of various plant growth regulators. Explant browning, a major problem for regeneration, was overcome by adding 100 mg/l ascorbic acid to all prepared media containing growth regulator combinations. Root explants formed more shoots than other explants. Best shoot proliferation was obtained from root explants cultured on media with 0.1 mg/l BA and 0.5 mg/l IAA. Regenerated shoots were transferred to rooting media containing different concentrations of IAA, IBA, NAA or 2,4-D. Most shoots developed roots on medium with 0.5 mg/l IAA. Rooted explants were transferred to vermiculate in Magenta containers for acclimatization and after 3 weeks they were planted in to plastic pots containing potting soil and maintained in the plant growth room.     

In vitro culture of Safflower L. cv. Bhima: initiation,growth optimization and organogenesis

Callus induction and in vitro plantlet regeneration systems for safflower (Carthamus tinctorius L.) cv. Bhima using root, hypocotyl, cotyledon and leaf explants were optimized by studying the influence on organogenesis of seedling age, media factors, growth regulators and excision orientation. Supplementation of the medium with an auxin: cytokinin ratio < 1 enhanced the growth rate of callus cultures; however, for 2,4-D the ratio was > 1.34–11.41 μM concentrations of growth regulators (IAA, NAA, BA and Kinetin) in the medium were found effective for callus induction and regeneration in all explants. The calli could be maintained over 32 months. BA (4.43 μM) combined with casein hydrolysate (10 mg l-1) yielded the highest rate of shoot production on hypocotyl (3–6) and cotyledon (5–7) explants and cotyledonary derived callus (4–8). More shoots were produced on explants cut from the most basal region of cotyledons from 5 to 7-day-old seedlings than from older seedlings or more distal cut sites. Apolar placement of explants, inhibited shoot regeneration. The shoot regeneration potential remained upto 7 months in calli developed on NAA + BA. Of three media tested, MS was superior to SH-M and B5. Rooting of shoots was not efficient; 42% of the shoots were rooted on MS medium containing sucrose (7–8%) + IAA (2.8–5.7 μM). Capitula induction was observed in both callus mediated shoots on cotyledons and shoots on rooting medium with sucrose, IAA, NAA and IBA. Well developed plantlets were transferred to the field with a 34% success rate. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration of non-toxic Jatropha curcas—impacts of plant growth regulators, source and type of explants

Jatropha curcas is an oil bearing species with multiple uses and considerable economic potential as a biofuel plant, however, oil and deoiled cake are toxic. A non-toxic variety of J. curcas is reported from Mexico. The present investigation explores the effects of different plant growth regulators (PGRs) viz. 6-benzyl aminopurine (BAP) or thidiazuron (TDZ) individually and in combination with indole-3-butyric acid (IBA), on regeneration from in vitro and field-grown mature leaf explants, in vitro and glasshouse-grown seedlings cotyledonary leaf explants of non-toxic J. curcas. In all the tested parameters maximum regeneration efficiency (81.07%) and the number of shoot buds per explants (20.17) was observed on 9.08 μM TDZ containing Murashige and Skoog’s (MS) medium from in vitro cotyledonary leaf explants. The regenerated shoot buds were transferred to MS medium containing 10 μM kinetin (Kn), 4.5 μM BAP and 5.5 μM α-naphthaleneacetic acid (NAA) for shoot proliferation. The proliferated shoots could be elongated on MS medium supplemented with 2.25 μM BAP and 8.5 μM IAA. Rooting was achieved when the basal cut end of elongated shoots were dipped in half strength MS liquid medium containing different concentrations and combinations of IBA, IAA and NAA for four days followed by transfer to growth regulators free half strength MS medium supplemented 0.25 mg/l activated charcoal. The rooted plants could be established in soil with more than 90% survival rate.     

Plant regeneration through the direct induction of shoot buds from petiole explants of Jatropha curcas: a biofuel plant

An efficient and reproducible method for the regeneration of Jatropha curcas plants has been developed. The method employed direct induction of shoot buds from petiole explants, without the formation of an intervening callus using a Murashige and Skoog (MS) medium supplemented with different concentrations of thidiazuron (TDZ). The best induction of shoot buds (58.35%) and the number of shoot buds per explant (10.10) were observed when in vitro petiole explants were placed horizontally on MS medium supplemented with 2.27 µM TDZ after 6 weeks. The induced shoot buds were transferred to MS medium containing 10 µM kinetin (Kn), 4.5 µM 6-benzyl aminopurine (BAP) and 5.5 µM α-naphthaleneacetic acid (NAA) for shoot proliferation. The proliferated shoots could be elongated on MS medium supplemented with different concentrations and combinations of BAP, indole-3-acetic acid (IAA), NAA and indole-3-butyric acid (IBA). MS medium supplemented with 2.25 µM BAP and 8.5 µM IAA was found to be the best combination for shoot elongation and 3.01–3.91 cm elongation was achieved after 6 weeks. However, significant differences in plant regeneration and shoot elongation were observed among the genotypes studied. The orientation (horizontal or vertical) and source (in vitro or in vivo) of explants also significantly influenced plant regeneration. The elongated shoots could be rooted on half-strength MS medium supplemented with 2% sucrose, different concentrations and combinations of IBA, IAA and NAA, and 0.25 mg L⁻¹ activated charcoal. Half-strength MS medium supplemented with 2% sucrose, 15 µM IBA, 5.7 µM IAA, 5.5 µM NAA and 0.25 mg L⁻¹ activated charcoal was found to be the best for promoting rooting. The rooted plants could be established in soil with more than 90% survival.     

Highly Efficient and Rapid Plant Regeneration in Citrus sinensis

Sweet orange (Citrus sinensis L Osbeck, var Nagpur) was explored for efficient multiple shoot regeneration and rooting in different media. The influence of phytohormones and carbon source on the in vitro morphogenesis of sweet orange epicotyl explants was investigated. Among the various concentrations and combinations of auxins (IAA and NAA) and cytokinins (BAP, Kn, Zn, and TDZ) tried, MT (Murashige and Tucker) medium fortified with benzylaminopurine (BAP) at 1 mg l^?1 without auxin had a strong promotive effect on shoot regeneration, and elucidated best morphogenic response from one-month-old etiolated epicotyl explants. A 100% regeneration frequency was obtained, and multiple shoots with an average of 8.24 shoots per explant were produced on all of the explants. Root formation was seen in response to all the three auxins viz. IBA, NAA and IAA, but the best response with rapid induction was observed under the influence of indole butyric acid (IBA) at 1 mg l^?1. Sucrose was observed to be at par with maltose as carbon source to support shoot regeneration. This study provided promising results, holds potential to be routinely employed for in vitro regeneration of important cultivars of Citrus spp, and can be incorporated for genetic transformation studies in citrus.     

Plant regeneration through callus cultures derived from immature-cotyledon explants of oleaster (Elaeagnus angustifolia L.)

Efficient plant regeneration was achieved from callus derived from immature-cotyledon explants of oleaster (Elaeagnus angustifolia L.). Calli were obtained on MS media containing 3% sucrose and different concentrations of TDZ. The highest rate of green, compact and nodular callus was formed on MS medium supplemented with 1 mg/l of TDZ. Shoot organogenesis was achieved when the callus was transferred onto MS media containing 3% sucrose and BA alone (05–4 mg/l) or BA (0.5 and 1 mg/l) combined with NAA or IAA (0.5 and 1 mg/l). Maximum organogenesis was obtained with 1 mg/l BA in combination with 0.5 mg/l NAA. Rooting of the shoots was achieved on MS medium supplemented with 0.2 mg/l IBA. Regenerated plantlets were acclimatized and successfully transplanted to soil.     

采用俄罗斯橄榄叶片和茎段诱导产生不定芽的高效再生方法

俄罗斯橄榄(Elaeagnus angustifolia L.)是一种具有很重要药用价值和生态意义的植物。以俄罗斯橄榄一年生幼苗的叶片和茎段为实验材料,探讨了细胞分裂素类(6-BA和Zt)和生长素类(NAA和IBA)两类激素不同组合以及不同配比对植株再生的影响,最后建立了一个高效的俄罗斯橄榄再生方法。结果表明,MS 培养基+ 0.5 mg/L 6-BA +0.2 mg/L NAA更适合叶片的再生,平均每个外植体能产生多达4.3个不定芽;而在MS培养基 + 1.0 mg/L Zt +0.5 mg/L NAA的条件下,茎段外植体再生出来的不定芽最多可以达到平均3.6个;再生芽在含有0.5 mg/L NAA的1/2 MS培养基上生根率达到100%。体外再生苗移栽到装有灭菌混合土(土∶泥炭∶沙子=1∶1∶1)的花盆中锻炼驯化,最后有77%的再生植株存活下来。此结果不仅对俄罗斯橄榄种质资源保护有重要的促进作用,另外也为其将来的遗传转化奠定了基础。     

<Emphasis Type="Italic">In vitro</Emphasis> adventitious shoot regeneration of the medicinal plant meadowsweet (<Emphasis Type="Italic">Filipendula ulmaria</Emphasis> (L.) Maxim)

Filipendula ulmaria (L.) Maxim (meadowsweet) is a medicinal plant that is claimed to have several biological activities, including anti-tumor, anti-carcinogenic, anti-oxidant, anti-coagulant, anti-ulcerogenic, anti-microbial, anti-arthritic, and immunomodulatory properties. This report describes, for the first time, an efficient plant regeneration system for F. ulmaria via adventitious shoot development from leaf, petiole, and root explants cultured on Murashige and Skoog’s minimal organics medium containing different concentrations of thidiazuron (TDZ), benzyladenine, and kinetin either alone or in combination with different auxins. Relatively extensive/prolific shoot regeneration was observed in all three explant types with TDZ in combination with indole-3-acetic acid (IAA). Gibberellic acid (GA₃), TDZ, and IAA combinations were also tested. The best shoot proliferation was observed among root explants cultured on media supplemented with 0.45 μM TDZ + 2.85 μM IAA + 1.44 μM GA₃. Regenerated shoots were transferred to rooting media containing different concentrations of either IAA, indole-3-butyric acid (IBA), naphthalene acetic acid, or 2,4-dichlorophenoxyacetic acid. Most shoots developed roots on medium with 2.46 μM IBA. Rooted explants were transferred to vermiculite in Magenta containers for a 2-wk acclimatization period and then finally to plastic pots containing potting soil. The plantlets in soil were kept in growth chambers for 2 wk before transferring to greenhouse conditions.     

Adventitious shoot regeneration from leaf explants of almond (Prunus dulcis mill.)

Summary A method has been developed to facilitate shoot formation from leaf explants of almond. Leaves were dissected from micropropagated shoot cultures of the commercial cultivars Nonpareil and Ne Plus Ultra, and sections incubated on Almehdi and Parfitt's (1986) basal medium (AP) with varied plant growth-regulator conditions. Three auxins, 2,4-dichlorophenoxyacetic acid (2,4-D), α-naphthaleneacetic acid (NAA), and indole-3-butyric acid (IBA), in combination with two cytokinins, benzylaminopurine (BA) and thidiazuron (TDZ), were tested at various concentrations along with casein hydrolysate (CH) to determine, the conditions most conducive to adventitious shoot regeneration. Response to the tested plant growth-regulator conditions varied with genotype. Of the three auxins tested, NAA and IBA induced adventitious shoots from Ne Plus Ultra explants, but only IBA was effective for Nonpareil. For the cytokinins, shoot development from Ne Plus Ultra occurred in the presence of either BA or TDZ, whereas for Nonpareil only TDZ was effective unless CH was incorporated in the basal medium. The inclusion of CH (0.1% w/v) improved callus morphology, and increased regeneration frequencies for both cultivars. Maximum regeneration frequencies for Ne Plus Ultra (44.4%) and Nonpareil (5.5%) were achieved on AP basal salts supplemented with CH, IBA (9.8 μM), and TDZ at 22.7 and 6.8 μM, respectively.     

Establishment of an efficient and rapid method of multiple shoot regeneration and a comparative phenolics profile in in vitro and greenhouse-grown plants of psophocarpus tetragonolobus (L.) DC

An in vitro method of multiple shoot induction and plant regeneration in Psophocarpus tetragonolobus (L.) DC was developed. Cotyledons, hypocotyls, epicotyls, internodal and young seedling leaves were used as explants. MS media supplemented with various concentrations of either thidiazuron (TDZ) or N6-benzylaminopurine (BAP) along with NAA or IAA combinations were used to determine their influence on multiple shoot induction. MS media supplemented with TDZ induced direct shoot regeneration when epicotyls and internodal segments were used as explants. TDZ at 3 mg L⁻¹ induced highest rate (89.2 ± 3.28%) of regeneration with (13.4 ± 2.04) shoots per explant. MS media supplemented with BAP in combination with NAA or IAA induced callus mediated regeneration when cotyledons and hypocotyls were used as explants. BAP (2.5 mg L⁻¹) and IAA (0.2 mg L⁻¹) induced highest rate (100 ± 2.66%) of regeneration with (23.2 ± 2.66) shoots per explant. Mature plants produced from regenerated shoots were transferred successfully to the greenhouse. In a comparative study, the phenolics contents of various parts of greenhouse-grown plants with that of in vitro-raised plants showed significant variations.     

Shoot organogenesis and plant regeneration in <Emphasis Type="Italic">Metabriggsia ovalifolia</Emphasis>

An efficient propagation and regeneration system via direct shoot organogenesis for an endangered species, Metabriggsia ovalifolia, was established. High activity cytokinins [6-benzyladeneine (BA) and thidiazuron (TDZ)] and low activity auxins [α-naphthaleneacetic acid (NAA), indole-3-butyric acid (IBA) and indole-3-acetic acid (IAA)] could directly induce adventitious shoots from leaf or petiole explants within 5 weeks. Cytokinins (TDZ or BA) combined with auxin (NAA) in the induction media induced more adventitious shoots than when auxins or cytokinins were used alone. Adventitious shoots could be induced and also mass-propagated on media containing 2.5–5.0 μM TDZ (or BA) and 0.25–0.5 μM NAA. Adventitious roots differentiated at the proximal end of shoots on rooting media containing half-strength MS salts and 0.5 μM IBA, 0.5 μM NAA, 0.1% activated charcoal or no plant growth regulators. Over 90% of plantlets survived following acclimatization and transfer to a potting mixture (1:1, sand:vermiculite) in basins.     

Shoot regeneration from cotyledonary leaf explants of <Emphasis Type="Italic">Jatropha curcas</Emphasis>: a biodiesel plant

A simple, high frequency, and reproducible method for plant regeneration through direct organogenesis from cotyledonary leaf explants of Jatropha curcas was developed using Murashige and Skoog (MS) medium supplemented with different concentrations of thidiazuron (TDZ) or 6-benzyl aminopurine (BAP). Medium containing TDZ has greater influence on regeneration as compared to BAP. The induced shoot buds were transferred to MS medium containing 10 μM kinetin (Kn), 4.5 μM BAP, and 5.5 μM α-naphthaleneacetic acid (NAA) for shoot proliferation. The proliferated shoots could be elongated on MS medium supplemented with different concentrations and combinations of BAP, indole-3-acetic acid (IAA), NAA, and indole-3-butyric acid (IBA). MS medium with 2.25 μM BAP and 8.5 μM IAA was found to be the best combination for shoot elongation. However, significant differences in plant regeneration and shoot elongation were observed among the genotypes studied. Rooting was achieved when the basal cut end of elongated shoots were dipped in half strength MS liquid medium containing different concentrations and combinations of IBA, IAA, and NAA for 4 days, followed by transfer to growth regulators free half strength MS medium supplemented 0.25 mg l⁻¹ activated charcoal. Elongated shoot treated with 15 μM IBA, 5.7 μM IAA, and 11 μM NAA resulted in highest percent rooting. The rooted plants could be established in soil with more than 90% survival rate. The method developed may be useful in improvement of J. curcas through genetic modification.     

The influence of thidiazuron on shoot regeneration from leaf explants of fifteen cultivars of Rhododendron

The influence of cytokinin thidiazuron (TDZ) and auxin indole-3-acetic acid (IAA) on in vitro shoot organogenesis of fifteen Rhododendron genotypes was investigated and a protocol for high frequency adventitious shoot regeneration from leaf explants was developed. High genotypic variation was observed and regeneration frequencies ranged from 0 to 100 %. Genotype Ovation had the highest number of shoots (26.4 per explant) after 12 weeks on medium with 0.57 μM IAA and 1.20 μM TDZ, but only 65 % of explants regenerated. Catawbiense Grandiflorum had 17.7 shoots per explant and 75 % regeneration on medium with 5.70 μM IAA and 0.45 μM TDZ and Van Werden Poelman had 14.3 shoots per explant and 100 % regeneration on medium with 0 57 μM IAA and 0.45 μM TDZ.     

Shoot Regeneration from Cultured Leaf Explants of Lycium barbarumand Agrobacterium-Mediated Transformation1

A method for fast plant regeneration via organogenesis directly from Lycium barbarumleaf explants has been developed. The key factor for shoot regeneration was the presence of benzyladenine (BA) in the medium. NAA could only induce root formation and explant callusing. Murashige and Skoog (MS) medium supplemented with 2 mg/l BA and 0.5 mg/l NAA is the most efficient condition for shoot formation, with up to 92.6% shoot regeneration and no callus formation. All adventitious shoots cultured on MS medium supplemented with 1 mg/l IAA formed an extensive root system. Regenerated plants were morphologically normal and were also proved to be diploid (2n = 24). Using the optimized regeneration system, the genetic transformation of L. barbarumwas carried out mediated by Agrobacterium tumefaciensEHA101(pIG121Hm). 11.8% leaf explants produced kanamycin-resistant shoots after infection by A. tumefaciens.The putative transgenic nature of plants was confirmed by GUS assay and PCR analysis. Expression of the nptIIgene in the regenerated plants was also detected by observing the callus formation by leaf pieces on MS medium containing 0.2 mg/l 2,4-D and 0–100 mg/l kanamycin.     

Effect of 1,2-benzisoxazole-3-acetic acid on adventitious shoot regeneration and in vitro rooting in apple

 The effect of 1,2-benzisoxazole-3-acetic acid (BOA), compared to 1-naphthaleneacetic acid (NAA), on adventitious shoot formation in leaf portions and compared to indolebutyric acid (IBA), on in vitro rooting in the apple (Malus domestica Borkh) cultivars McIntosh and Gala, and one rootstock, Jork 9, was investigated. BOA at 43.0 μm or 2.7 μm at NAA in combination with 17.8 μm benzyladenine (BA), induced the highest number of explants to produce adventitious shoots in Jork 9. In Gala, the combination of 21.5 μm BOA with 1.0 μm thidiazuron (TDZ) or with 22.0 μm BA induced the highest regeneration percentages, 58 and 54%, respectively, giving more satisfactory results than NAA (where only 42% of leaf explants exhibited shoot formation). In McIntosh, the highest percentage of regeneration was obtained with 1.3 μm NAA and 22.0 μm BA, while 51% was the highest response obtained with the BOA treatment. The combination of BOA with TDZ completely inhibited regeneration activity in leaf portions of this cultivar. The shoots of all the genotypes obtained with the most morphogenetic NAA or BOA treatments were excised, multiplied and successfully rooted and hardened. The results demonstrate that the synthetic auxin BOA is active in inducing shoot regeneration from leaf explants of apple and that the activity of BOA in plant regeneration is genotype dependent. When BOA was used to induce rooting in apple microcuttings, lower rooting percentages were obtained than with IBA, showing that the effect of BOA in inducing root formation is very low and that it cannot be used routinely to replace IBA in the in vitro rooting of microcuttings. Received: 18 June 1998 / Revision received: 4 January 1999 / Accepted: 29 January 1999