Sucrose,benzylaminopurine and photoperiod effects on in vitro culture of Kaempferia galanga Linn

Abstract

Kaempferia galanga is a monocotyledonous plant of the Zingiberaceae family, commonly utilized for medicinal purposes. This study evaluates the effect of different concentrations of sucrose, benzylaminopurine (BA) and photoperiod on in vitro propagation of K. galanga. Murashige and Skoog (MS) medium supplemented with 5 mg L^?1 BA and 30 g L^?1 sucrose, and a photoperiod with 4 h of light induced the highest shoot proliferation (7.4 ± 1.0 shoots/explant) and the highest number of roots/shoot (31.3 ± 3.2). On the contrary, the maximum shoot height (4.7 ± 0.7 cm) and the highest number of leaves/shoot (4.7 ± 0.2) were obtained from cultures using MS medium supplemented with 30 g L^?1 sucrose but without BA, and exposed to 16 h of light. Hence MS medium supplemented with 5 mg L^?1 BA and 30 g L^?1 sucrose, and incubated under a 4 h light/20 h dark photoperiod was chosen as the optimal protocol for mass multiplication of K. galanga. This in-vitro technique can facilitate the production of a large number of uniform plants of K. galanga, irrespective of the seasonal factor, and could be used as a tool for conservation of the species.     

<i>In vitro</i> Germination and Micropropagation of <i>Aconitum vilmorinianum</i>: An Important Medicinal Plant in China

Aconitum vilmorinianum, a well-known traditional Chinese herb, is recently being threatened by overexploitation and environment disturbance. This study was conducted to provide propagation methods through in vitro germination and explant cultivation. Germination was stimulated up to 66.00% on Murashige and Skoog (MS) medium containing 2.0 mg L⁻¹ 6-benzylaminopurine (BAP), 0.1 mg L⁻¹ 1-napthaleneacetic acid (NAA), and 30 g L⁻¹ sucrose. Three bacteria (Pantoea agglomerans, Erwinia persicina, and Pseudomonas tolaasii) would be responsible for consistent contamination during germination. The latter two were effectively eradicated after disinfected. The influence of explant types and hormone combinations on direct and indirect organogenesis was evaluated in the present work. The frequency of shoot induction from axillary bud explants was 100% on the MS fortified with 2.0 mg L⁻¹ BAP and 0.3 mg L⁻¹ NAA. Shoots multiplication was optimized on MS medium supplemented with 0.1 mg L⁻¹ thidiazuron (TDZ) and 0.1 mg L⁻¹ NAA. High callus induction percentage (96.67%) was obtained from stem segments on MS medium with 2.0 mg L⁻¹ 2,4-D, then successfully regenerated into shoots on MS medium in the presence of 0.1 mg L⁻¹ TDZ and 0.2 mg L⁻¹ NAA. The present work could be useful for the utilization and conservation of this valuable species.     

<Emphasis Type="Italic">Cytisus aeolicus</Emphasis> Guss. ex Lindl. <Emphasis Type="Italic">in vitro</Emphasis> cultures and genistin production

Cytisus aeolicus Guss. ex Lindl. (Fabaceae family, subfamily Faboideae) is an endangered endemic species of the Aeolian Islands, Sicily. In vitro multiplication of C. aeolicus shoots was described in this work and cell cultures were established from cotyledons and hypocotyls to investigate their potential production of isoflavones. Aseptically germinated seeds, cultivated on LS modified basal medium, gave the initial explants used both to induce axillary propagation and callus cultures. The LS (Linsmaier and Skoog) basal medium, supplemented with 0.1 mg L^?1 of 6-benzylaminopurine were used to induce axillary propagation. The callus induction was performed using the basal medium added with 5 mg L^?1 2,4-dichlorophenoxy acetic acid and 5 mg L^?1 kinetin (control medium). Basal medium was also added with 2000 mg L^?1 casein hydrolysate (CH) or 900 mg L^?1myo-inositol (MI). C. aeolicus callus cultures on CH and MI media produced an unique compound, the isoflavone genistein 7-O-ß-D-glucopyranoside (genistin), which has not previously been isolated from wild plants. Callus cultures grown on the medium containing myo-inositol produced the greatest amount of genistin. C. aeolicus tissue culture procedures could provide suitable plant material both for germplasm preservation (by micropropagation) and for biotechnological selective isoflavone production (by callus culture).     

Use of bioreactors for large-scale multiplication of sugarcane (Saccharum spp.), energy cane (Saccharum spp.), and related species

The objective of this study was to set up a plant micropropagation facility to mass propagate sugarcane, energy cane, and related clonally propagated species. An efficient methodology for micropropagation of energy cane and perennial grasses using temporary immersion bioreactors was developed. Several different methods of tissue culture initiation, multiplication, and rooting were evaluated for several varieties of sugarcane (Saccharum officinarum L.) and sugarcane-related species such as Erianthus spp., Miscanthus spp., and Sorghum spp. × sugarcane hybrids, all from a germplasm collection. Apical meristem cultures were initiated for all genotypes that were micropropagated, when liquid or semisolid Murashige and Skoog (MS) medium was used, which was supplemented with 0.1–0.2 mg L⁻¹ BAP, 0.1 mg L⁻¹ kinetin, 0–0.1 mg L⁻¹ NAA, and 0–0.2 μg L⁻¹ giberellic acid. These cultures produced shoots between 4 and 8 wk after initiation. Shoot regeneration from leaf rolls or immature inflorescences was observed as early as 4 wk after initiation. Shoot multiplication was successful for all genotypes cultured in MS medium with 0.2 mg L⁻¹ BAP and 0.1 mg L⁻¹ kinetin. Energy cane had a significantly higher combined multiplication rate when grown under four or five LED lamps than when grown under three LED lamps, or under fluorescent lights in a growth chamber. The addition of 2 mg L⁻¹ NAA produced faster and better rooting in all of the genotypes tested. Shoots produced well-developed roots after one cycle of 15–21 d in the bioreactors. The maximum number of plantlets produced per bioreactor was 1080. Plantlets developed a vigorous root system and were ready to be transplanted into the field after 2 mo. A protocol was standardized for different energy cane clones that were recommended for their biomass production and cell wall composition. Different tissues were used to speed up or facilitate tissue culture initiation. Visual assessment of micropropagated plants in the field did not show any off-types, based on gross morphological changes of plant morphology or disease reaction, compared to plants of the same genotype derived from a traditional propagation method (stem cuttings). This is the first report of energy cane and Miscanthus spp. micropropagation using the SETIS bioreactor.

     

Somatic embryogenesis to overcome low seed viability and conserve wild banana (Ensete superbum (Roxb.) Cheesman)

The seed viability, ex vitro germination, and percentage of in vitro zygotic embryo germination were found to be very low in Ensete superbum (Roxb.) Cheesman. Only 33.33% of seeds were viable, and the ex vitro germination percentage was only 5%, while the percentage of in vitro zygotic embryo germination was 33%. Somatic embryogenesis experiments produced competent callus on Murashige and Skoog (MS) medium supplemented with 2.5 mg L⁻¹ 2,4-D and 3 mg L⁻¹ BAP from inflorescence explants. The embryogenic callus produced the maximum number of somatic embryos on MS basal medium kept in a dark chamber for 15 wk. Half-strength MS medium supplemented with 500 mg L⁻¹ glutamine was optimal for somatic embryo germination and development of plantlets. Regenerated plants had 80 to 90% survival rate. Therefore, somatic embryogenesis can be considered as an efficient method to overcome a drastic reduction in population and to achieve germplasm conservation.

     

Induced Activity of Superoxide Dismutase and Peroxidase of in vitro Plants by Low Concentrations of Ethanol

A rapid micropropagation protocol was established for Aloe vera L. var. chinensis (Haw.) Berger, Chinese Aloe. The effects of three factors, namely BA, NAA and sucrose, on bud initiation were evaluated by L₉ (3⁴) orthogonal design. The variance analysis of the experimental results showed that the actions of the three factors were all considerable. Among the three factors, sucrose was the most important for bud initiation followed by BA, and NAA had the weakest effect. The best medium for bud initiation was semi-solid MS supplemented with 2.0 mg l^–1 BA, 0.3 mg l^–1 NAA, 30 g l^–1 sucrose and 0.6 g l^–1 PVP (pH 5.8), on which Chinese aloe could multiply 15 times in 4 weeks. Some shoots rooted spontaneously on 1/2 strength MS medium, but the rooting percentage was improved in the presence of 0.2 mg l^–1 NAA. Rooted plantlets were acclimatized to greenhouse conditions. The young plantlets from tissue culture were transplanted successfully. In vitro propagation can be a useful tool in the conservation of this endangered medicinal species.     

Development of an efficient tissue culture protocol for callus formation and plant regeneration of wetland species <Emphasis Type="Italic">Juncus effusus</Emphasis> L.

Wetland species mat rush (Juncus effusus L.) is an important economic plant, but no information is available regarding plant regeneration, callus induction, and its proliferation from in vitro seed grown plantlets. The present study investigates the effects of growth regulator combinations and medium innovation on tissue culture system of five mat rush varieties. Addition of N6-benzyladenine (BA) and 2,4-dichlorophenoxyacetic acid (2,4-D) in Murashige and Skoog (MS) medium showed significantly positive effect on callus proliferation, plant regeneration, and its multiplication compared to the medium devoid of BA. The highest callus induction frequency (80.95%, 90.48%, 75.40%, 70.83%, and 83.33%) was observed in MS medium containing 0.5 mg L⁻¹ (2.2 μM) BA in Yinlin-1, Nonglin-4, Gangshan, Taicao, and Taiwan green, respectively. Various growth regulator combinations with successive subculture (medium replacement) were found essential to develop organogenic calluses and to regenerate shoots. The combination of 0.1 mg L⁻¹ BA (0.4 μM) and 2 mg L⁻¹ 2,4-D (9.0 μM) in MS medium was found best for callus proliferation for all the varieties under trial. The plant regeneration required two steps involving successive medium replacements as well as optimal hormonal balances. Successful plant regeneration (over 70%) was observed only by transferring the organogenic callus from regeneration medium I [MS medium containing 0.5 mg L⁻¹ BA (2. μM) and 1.0 mg L⁻¹ kinetin (KT; 4.6 μM)] to the regeneration medium II [MS medium containing 0.5 mg L⁻¹ BA (2.2 μM), 1.0 mg L⁻¹ KT (4.6 μM) and 3.0 mg L⁻¹ indoleacetic acid (IAA; 17.1 μM)]. Our results confirmed the importance of the ratio of auxin (IAA) to cytokinin (BA and KT) in the manipulation of shoot regeneration in J. effusus L. The maximum plant survival frequency and multiplication rates (90.97% and 5.40 and 94.23% and 8.25) were recorded in the presence of 0.5 mg L⁻¹ BA (2.2 μM) in the 1/2 MS multiplication medium for the varieties of Nonglin-4 and Taicao, respectively. About 100% survival rate was also observed for all the varieties in soil conditions. The efficient plant regeneration system developed here will be helpful for rapid micropropagation and further genetic improvement in J. effusus L.     

Genetic homogeneity and high shoot proliferation in banana (Musa acuminata Colla) by altering medium thiamine level and sugar type

To enhance the multiplication rate in Musa acuminata Colla (banana; ‘Grand Nain’) organogenesis, higher amounts of thiamine along with different sugar types and concentrations were evaluated at the proliferation phase. Thiamine at 1, 10, 50, 100, and 200 mg L⁻¹ was compared with 0.1 mg L⁻¹ thiamine found in conventional Murashige and Skoog (MS) medium. Maximum proliferation of banana was induced with 100 mg L⁻¹ thiamine. Additionally, 15, 30, and 45 g L⁻¹ sucrose, glucose, fructose, and sorbitol combined with regular and optimal levels of thiamine were tested. Glucose at 30 g L⁻¹ most improved shoot proliferation alone and enhanced shoot proliferation further, when combined with 100 mg L⁻¹ thiamine, followed by sucrose and fructose, whereas sorbitol completely inhibited growth and caused tissue browning. All evaluated vegetative traits were significantly affected by sugar type and concentration, and thiamine levels, unlike the photosynthetic pigments. Moreover, genetic stability of the plants recovered from the enhanced protocol was confirmed by inter-simple sequence repeats (ISSR) and randomly amplified polymorphic DNA (RAPD) analysis. A total of 230 bands generated by both marker types were monomorphic for the randomly selected regenerated plants, compared with their mother plant. Thus, the proliferation medium supplemented with 30 g L⁻¹ glucose and 100 mg L⁻¹ thiamine could be recommended for banana organogenesis. Results herein are of great importance and helpful in enhancing the commercial in vitro propagation protocols of banana, without the need of increasing the number of subcultures, which can cause somaclonal variation.

     

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.     

Micropropagation ofDendrobium fimbriatum Hook. by green pod culture

Present studies have demonstrated that immature seeds obtained from green pod ofDendrobium fimbriatum Hook., an endangered epiphytic forest orchid having horticultural importance, can be germinated asymbioticallyin vitro for rapid micropropagation. Vacin and Went medium containing 0.1 mg L^-1 NAA and 15% coconut water was found most effective for high percentage (80-90%) seed germination and seedling development. This method can be exploited for their rapid micropropagation and conservation.     

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     

Age and Physiological Condition of Donor Plants Affect in vitro Morphogenesis in Leaf Explants of Passiflora edulis f. flavicarpa

The regeneration potential of D.alata L. germplasm preserved in vitro was compared with the micropropagation of fresh material. Nodal cuttings were conserved for 9 months in different treatments based on D-571 culture medium modified, using several variable components (mannitol, benzylaminopurine and activated charcoal). Regeneration at 8 weeks, assessed by means of percentage of explant regenerating and the multiplication at 5 weeks through the shoot length and de novo bud count formation per explant were determined. The results showed high rates (100 and 98%) of explant regeneration and micropropagation from in vitro material maintained in D-571 medium with 1.5% of mannitol + 0.1 or 1 mg l^–1 of benzylaminopurine + 2 g l^–1 of activated charcoal, respectively.     

A simple,economical, and high efficient protocol to produce in vitro miniature rose

Due to its high commercial value, many studies on rose (Rosa hybrida L.) micropropagation have been published. However, there are a limited number of studies on rose in vitro flowering. These studies only focused on the roles of plant growth regulators in the formation and morphogenesis of flowers. In this protocol, cytokinin was confirmed to positively function in the induction of in vitro rose flowers. In fact, more than 40% of in vitro shoots were induced to flower when they were grown on a medium supplemented with benzylaminopurine (BA) (2 mg L⁻¹) and IAA (0.1 mg L⁻¹). In addition, this study showed that the growth medium supplemented with only coconut water (15 or 20% v/v) was very efficient to induce flowering of in vitro miniature rose plants (> 70%) after 60 d of subculture. In addition, the in vitro flowers were normal and almost similar to ex vitro flowers in terms of flower shape and color. Based on these results, a detailed procedure for in vitro miniature rose flower production is provided.

     

An efficient callus-based in vitro regeneration protocol for Warburgia Ugandensis Sprague,an important medicinal plant in Africa

Warburgia ugandensis Sprague is a woody species in the family Canellaceae and an important source of medicines in Africa. Natural propagation of W. ugandensis is problematic due to its recalcitrant seeds and lack of an efficient in vitro regeneration system for this species. This study describes an efficient regeneration protocol. Petiole bases and shoot tips were used as explants. Callus tissue developed when the explants were cultured on Murashige and Skoog medium containing 30 g L⁻¹ sucrose and 7 g L⁻¹ agar (MS30 medium), supplemented with 1.0 mg L⁻¹ indole-3-butyric acid (IBA), 1.6 mg L⁻¹ 6-benzylaminopurine (BA), and 0.1 mg L⁻¹ thidiazuron (TDZ). Adventitious buds were efficiently induced from the callus when the MS30 medium was supplemented with 0.8 mg L⁻¹ BA and 0.2 mg L⁻¹ IBA. Root induction occurred within 7–10 d on half-strength MS30 medium supplemented with 0.8–1.0 mg L⁻¹ 1-napthalene acetic acid (NAA), 0.2 mg L⁻¹ IBA, and 0.03% (w/v) activated charcoal (AC). Roots were followed by root elongation on the same medium but lacking NAA and IBA. Approximately 50% of the plantlets cultured produced roots, while more than 80% of the plantlets survived and successfully grew to maturity.

     

In vitro zygotic embryo culture of an endangered forest tree Givotia rottleriformis and factors affecting its germination and seedling growth

Summary This study reports a protocol for germination of Givotia rottleriformis (var. Tel. Thella Poniki) using zygotic embryo culture. A 100% germination was obtained by culturing the embryos on Murashige and Skoog medium containing 30 gl^&#x2212;1 sucrose. A sucrose concentration lower or higher than 30 gl^&#x2212;1 resulted in lower germination or promoted callus formation. The seedling growth was promoted by the addition of 100 mgl^&#x2212;1 tyrosine in the medium. Seedlings germinated in the presence of 0.2&#x2013;0.4 mgl^&#x2212;1 &#x03B1;-naphthaleneacetic acid and 0.3&#x2013;0.5 mgl^&#x2212;1 indole-3-butyric acid were abnormal, showing a slender stem with slender roots or forming callus with stout roots. Germination also affected embryo orientation in culture; placing embryos upright on the medium was most beneficial for germination. The in vitro-germinated seedlings were acclimatized in soil under shady conditions with a survival rate of 60&#x2013;70%. These plants were phenotypically normal, healthy, and similar to donor plants. This protocol will be useful for overcoming seed dormancy and for rapid multiplication and conservation of G. rottleriformis using zygotic embryo culture.     

Analysis of potential sources of variation in tissue culture derived celery plants

Somaclonal variation derived from tissue culture is a potential source of variation that can be used in crop improvement programmes. The characteristics of this variation are first shown in the regenerant generation and their heritability is then confirmed by examination of the progeny. There would be savings of time, space and labour if this variation could be detected in vitro using easily assessed visual cues. The aim of this study was to relate variation in the source of explant and the morphology of the newly initiated callus to the characteristics of the regenerant plant, of which the most important was resistance to leaf spot disease caused by Septoria apiicola. Associations were investigated by isolating four stem explants from each of 564 surface sterile seedlings, var. Celebrity, on a callus initiation medium (MS medium, 30 g litre‘¹sucrose, 0.5 mg litre’¹2,4-D, 0.6 mg litre‘¹kinetin) and assessing the morphology and colour of the callus. After this initial culture (8 wk), each callus was transferred to a regeneration medium (MS medium, 30 g litre“¹sucrose). Plantlets were regenerated from many of the callus cultures and these were transferred to the glasshouse. When all of the surviving regenerant plants (276) were mature, leaf shape, amount and composition of the essential oils and resistance to late blight were assessed. Statistical analysis revealed that the character of the newly initiated callus (width, height, colour, organogenesis) showed poor correlation with all aspects of the regenerated plant measured. However, it was shown that increased variation resulted from different seedlings more than from plants derived from within seedlings or within callus.     

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 Propagation and Conservation of Atropa acuminata Royle ex Lindl -An Indigenous Threatened Medicinal Plant

A micropropagation method has been developed for multiplication and conservation of Atropa acominata by induction of axillary shoot proliferation from shoot tips and nodal explants using Murashige and Skoog (MS) medium supplemented with BAP ( 1 mg I^-1) and IBA (1 mg I^-1). Revised tobacco (RT) medium with IAA (1 mg I^-1) was found most suitable for shoot elongation. Rooting was highest on full strength RT medium containing IBA (1 mg I^-1). In vitro raised plantlets were hardened and transferred to soil.     

Direct shoot regeneration from immature inflorescence cultures of <Emphasis Type="Italic">Chlorophytum arundinaceum</Emphasis> and <Emphasis Type="Italic">Chlorophytum borivilianum</Emphasis>

Direct shoot regeneration was achieved from immature inflorescence explants of Chlorophytum arundinaceum and C. borivilianum on half-strength Murashige & Skoog (MS) medium supplemented with 3.0 mg L⁻¹ BA, 150 mg L⁻¹ Ads, 0.1 mg L⁻¹ NAA and 3% (w/v) sucrose under a 16-h photoperiod. The shoot buds developed within 2–3 weeks of culture. High frequency of shoot bud regeneration was achieved when cultured on similar medium in subsequent subcultures. The apex portion (Type I) of the inflorescence produced more shoot buds as compared to the middle ones (type II). More than 75% of the terminal segment explants produced shoot buds within 4-week of culture. Response of basal portion (Type III) was negative for shoot bud initiation. Shoots rooted on half-strength basal MS medium supplemented with half-strength MS medium, 0.1 mg L⁻¹ IAA and 2% (w/v) sucrose. Micropropagated plantlets were hardened in the green house and successfully established in the soil where 90% of the plants survived. This protocol would be useful for commercial micropropagation and genetic improvement prograrmme.     

Antioxidant activity of in vitro plantlets and callus cultures of Randia echinocarpa,a medicinal plant from northwestern Mexico

Randia echinocarpa, an endemic plant to Northwest Mexico, is used as food and in traditional medicine, and several of its biological activities have been demonstrated (antioxidant, antimutagenic, antidiabetic, and immunomodulatory). Plant tissue culture is a safe and scalable system for plant propagation and production of bioactive compounds. Therefore, this study aims to establish protocols for seed germination and callus culture of R. echinocarpa and to evaluate the antioxidant activity of methanol extracts (ME) of plantlets and calli via the 2,2-diphenyl-1-picrylhydrazyl (DPPH) and 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) methods. Seeds were cultured in media with different concentrations of Murashige and Skoog (MS) salts and sucrose, and a higher germination rate and plantlet growth was observed in half-strength MS medium with 15 g L⁻¹ of sucrose. Calli were obtained from cotyledon and hypocotyl explants cultured in MS media with different concentrations of benzyl aminopurine (BAP) and indole-3-acetic acid (IAA). All treatments induced callus formation in 100% of explants; however, the medium containing 1 mg L⁻¹ BAP + 1 mg L⁻¹ IAA was selected because it produced calli with higher biomass and friable texture. The ME of cotyledons showed the highest antioxidant activity values (μmol Trolox per 100 g dry weight) in DPPH (345.5) and ABTS (1166.4) assays, whereas the ME of calli from hypocotyls showed a higher antioxidant activity than the ME of calli from cotyledons in both antioxidant assays. The tissue culture protocols established here will be useful for R. echinocarpa germplasm conservation and propagation, as well as for the production of bioactive compounds.