Shoot proliferation and rooting treatments influence secondary metabolite production and antioxidant activity in tissue culture-derived Aloe arborescens grown ex vitro

Aloe species are valuable plants with great ornamental and medicinal value. Although micropropagation protocols have been developed to meet the increasing global demand, the effects of the series of events during micropropagation on the phytochemical and pharmacological efficacy of ex-vitro plants remains poorly understood. Thus, we evaluated the effects of cytokinin and rooting compounds used during the shoot regeneration and rooting phases respectively, on secondary metabolite production in greenhouse-grown in vitro-derived Aloe arborescens. Shoots derived from meta-methoxytopolin (MemT)-containing medium and rooted with either smoke–water (SW) or indole butyric acid (IBA) had higher levels of total phenolics and flavonoids than those rooted on plant growth regulator (PGR)-free medium. Iridoid content was significantly reduced in cytokinin-regenerated shoots rooted with IBA in comparison to PGR-free regenerated shoots rooted with IBA. Conversely, the use of SW for rooting in cytokinin-regenerated shoots significantly increased iridoid content when compared to PGR-free regenerated shoots rooted with SW. These findings suggest an antagonistic interaction between cytokinins used in this study and IBA as well as a possible synergistic or additive interaction of the cytokinins with SW on iridoid production. Significantly higher antioxidant activity was recorded in shoots regenerated from meta-topolin riboside (mTR) and MemT and rooted with IBA or SW when compared to those rooted without PGR. Overall, the type of cytokinin and rooting treatments individually and interactively had a significant carry-over effect on secondary metabolite production and antioxidant potential of tissue culture-derived A. arborescens. Therefore, when micropropagating plants for medicinal uses, it is prudent to select the right cytokinin and rooting compound for optimal production of secondary metabolites and ultimately the pharmacological efficacy of acclimatized plants.     

Improved plant regeneration in Capsicum annuum L. from nodal segments

Multiple shoots were induced by culturing nodal explants excised from 1-month-old aseptic seedlings of red pepper (Capsicum annuum L. cv. Pusa Jwala) on Murashige and Skoog (MS) medium supplemented with (0.1–10 μM) thidiazuron (TDZ). The rate of multiple shoot induction per explant was maximum (14.4 ± 0.06) on MS medium supplemented with 1.0 μM TDZ. Regenerated shoots were elongated well on growth regulator free MS medium. Adventitious roots were induced two weeks after transfer of elongated shoots to MS medium supplemented with auxins (IAA, IBA or NAA) in different concentrations. Optimum root formation frequency was obtained in medium containing 1.0 μM IBA. Ex-vitro rooting was also achieved by pulse treatment with 300 μM IBA for 10 min. Rooted shoots were transplanted in plastic pots containing garden soil (with 90 % survival rate), where they grew well and attained maturity. Regenerated plants were phenotypically and cytologically normal.     

Rhizogenesis and root growth ofCarica papaya L.in vitro in relation to auxin sensitive phases and use of riboflavin

High rooting percentages and high-quality adventitious root systems for papaya (Carica papaya L.) were obtainedin vitro by appropriate auxin source, duration of exposure to auxin and use of riboflavin. Root initiation of papaya shoots was higher using IBA than IAA, NAA or PCPA. Maximum rooting percentage (96%) was achieved by exposure of shoots to a medium containing 10 µM IBA for 3 days before transfer to a hormone-free medium. However, the resultant plants had small shoots and callused roots. Shoot and root growth were improved when shoots were transferred after 2 days from medium containing 10 µM IBA to hormone-free medium containing 10 µM riboflavin. Good root initiation, and root and shoot growth were also obtained when shoots were incubated for 2 days in darkness on a medium containing 10 µM IBA and 31 µM riboflavin before transfer to light. Alternatively, cultures could be placed in the light on medium containing 10 µM IBA, and after 1 day the medium overlaid with 300 µM riboflavin (1 ml over 10 ml of medium).     

Improvement of shoot morphogenesis in vitro and assessment of changes of the activity of antioxidant enzymes during acclimation of micropropagated plants of Desert Teak

The aim of the study was to develop an improved and rapid regeneration system via axillary shoot proliferation for Tecomella undulata, an important endangered medicinal tree in India. The Murashige and Skoog (MS) medium augmented with different concentrations (0.1, 0.3, 0.5, 0.7, 1.0, 2.5, 5.0, 7.5 and 10.0 μM) of Thidiazuron (TDZ) was tested for the ability to induce axillary shoot development from cotyledonary node explants excised from 7-day-old sterile seedlings. Among the tried concentrations of TDZ, 0.7 μM showed optimum response in inducing maximum number (25.00 ± 2.30) of shoots and shoot length (4.06 ± 0.58 cm) after 3 weeks of incubation. The regenerated shoots when subcultured on MS medium lacking TDZ gave twofold shoot multiplication rate with maximum number (43.00 ± 2.86) of shoots per explant and longer shoot length (7.40 ± 0.34 cm) during the fourth subculture passage. Attempts were also made to study the morphogenetic effect of medium pH and sucrose concentration on axillary shoot induction and proliferation. The highest efficiency of shoot regeneration was recorded in MS medium supplemented with 0.7 μM TDZ and 3% sucrose at pH 5.8 after 3 weeks of culture. Different concentrations of Indole-3-butyric acid (IBA) were tested to determine the optimum conditions for ex vitro rooting of microshoots. The best result was accomplished with IBA (200 μM) pulse treatment given to the basal end of the microshoots for 30 min followed by their transfer in plastic cups containing soilrite and eventually established in natural soil with 80% survival rate. During acclimatization of plants, catalase (CAT) activity increased reaching maximum at 28th day after transplantation, while superoxide dismutase (SOD) activity increased reaching a maximum in the 21 days. Likewise, changes in the glutathione reductase (GR) and Ascorbate peroxidase (APX) were also detected. The observed changes reflect the plant’s capacity to develop antioxidant mechanisms during acclimatization which determine the ability to survive in oxidative stress. The standardized protocol for mass propagation of Tecomella undulata should eliminate the dependence on natural stands of plants for pharmaceutical purposes, and will also serve as a means of conservation as the species is highly overexploited.     

Micropropagation of <Emphasis Type="Italic">Sapindus trifoliatus</Emphasis> L. and assessment of genetic fidelity of micropropagated plants using RAPD analysis

An efficient in vitro propagation system has been developed for rapid micropropagation of Soapnut (Sapindus trifoliatus Linn.), a medicinally and economically important tree from nodal (axillary bud) segments of seedlings. The frequency of shoot regeneration from seedling node explant was influenced by the age of the seedlings, growth regulators and successive transfer of the mother explant. Explants from 4-week-old seedlings yielded the maximum shoot regeneration frequency (97.22%) on full-strength MS medium supplemented with 1.0 mg l⁻¹ of 6-benzylaminopurine (BAP). After harvesting the newly formed shoots, the mother explants transferred to same medium subsequently produced a maximum of 5.16 shoots per explant after third passage. Further improvement in the morphogenic response occurred when the nodal explants excised from in vitro regenerated shoots were employed, and 6.89 shoots per explant were obtained on the same medium after the third subculture. Optimal rooting (91.67%) was obtained by placing the micro-shoots in liquid MS medium with 1.0 mg l⁻¹ IBA for 24 h and then transferring to the agar solidified MS medium devoid of IBA. The micropropagated shoots with well-developed roots were acclimatized and successfully transplanted to soil with 90% survival rate. Genetic stability of the regenerated plants was assessed using random amplified polymorphic DNA (RAPD). The amplification products were monomorphic in micropropagated plants and similar to those of mother plant. No polymorphism was detected revealing the genetic integrity of micropropagated plants. This is the first report of an efficient protocol for regeneration of S. trifoliatus through organogenesis, which can be applied for further genetic transformation assays and pharmaceutical purposes.     

Involvement of polyamines in the adventitious rooting of micropropagated shoots of the apple rootstock MM106

Apple rootstock MM106 shoots, raised in vitro, rooted at 96.7% after culture on a medium supplemented with an auxin for 5 d in darkness followed by culture on a second medium without growth regulators for 25 d in light. In control conditions (in absence of auxin in the first medium), these shoots did not root. Putrescine (PUT), spermidine (SPD), cyclohexylamine (CHA), and aminoguanidine (AG) enhanced rooting when applied during the first d of culture in the absence of IBA; on the contrary, α-difluoromethylornithine (DFMO) added to the first medium with IBA inhibited rooting. The endogenous levels of indole 3-acetic acid (IAA) and indole 3-acetylaspartic acid (IAAsp) increased up to a maximum concentration at days 2 and 3, respectively, in initial rooting conditions. PUT, when added with IBA, did not affect the typical IAA and IAAsp increase; when applied alone, it provoked an increase of their levels. Similar results were recorded with CHA. SPD, AG, and DFMO did not induce an increase of IAA and IAAsp in nonrooting conditions. The levels of endogenous PUT increased to a maximum at day 2 in rooting conditions; it was slightly affected by exogenous PUT and CHA application but reduced by SPD, AG, and DFMO. In rooting conditions, if the first medium was supplemented with SPD or AG, a small increase in peroxidase activity was observed, similar to that obtained with PUT treatment. The present work indicates an involvement of polyamines in the control of rooting and an interaction with auxins during the physiological phase of rooting. The consequence of this relationship was a different rooting expression, according especially to the content of these regulators in the culture medium.     

Relationship of indole-3-butyric acid and adventitious rooting in M.26 apple (Malus Pumila mill.) shoots cultured in vitro

The role of indole-3-butyric acid (IBA) in adventitious root formation was studied by analyzing the uptake and subsequent metabolism of IBA in shoots of M.26 apple (Malus pumila Mill.) rootstock grown in vitro. Roots were induced by exposing shoots to 4 M IBA and [³H]IBA for 5 days in the dark and then transferring them to plant growth regulator (PGR)-free medium in the light until roots formed. Approximately 50% of the total radioactivity applied was taken up from the agar medium by the shoots during the 5-day incubation period in IBA. Indole-3-butyric acid metabolism was studied by extraction and high-performance liquid chromatographic (HPLC) separation of [³H]IBA and metabolites from the basal sections of treated shoots. The major [³H]IBA metabolite co-eluted with authentic [¹⁴C]indole-3-acetic acid (IAA) suggesting that IBA was converted to IAA in the shoots. The proportion of newly synthesized IAA present as conjugates was higher at the end of the 5-day IBA treatment period than after 13 days in PGR-free medium. There appeared to be no conjugation of IBA at any time.     

Micropropagation of Pinus peuce

In Pinus peuce zygotic embryo culture grown on Gresshoff and Doy (1972; GD) basal medium, 2.22 μM benzyladenine (BA) was superior in promoting adventitious bud induction during 4 weeks comparing to kinetin or BA + kinetin. Shoot elongation was achieved on half-strength GD medium devoid of plant growth regulators and containing activated charcoal. Pulse treatment with 1 mM indole-3-butyric acid (IBA) for 2 h, followed by transfer to half-strength GD medium, produced the most efficient rooting. Rooted shoots were transplanted to the greenhouse and plantlets continued to grow and developed into phenotypically normal plants. Up to 10 plants per explant can be obtained within 36 weeks from culture initiation.     

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.     

An improved micropropagation of Terminalia bellirica from nodal explants of mature tree

An efficient and improved in vitro propagation method has been developed for Terminalia bellirica, a medicinally important tree from nodal explants of 10-year-old mature tree. Shoot multiplication was influenced not only by cytokinin types, their concentrations and their interaction with auxin but also by successive transfer of mother explants for different passages, subculture of excised shoots on fresh medium and different medium composition. MS medium containing 2.22 μM BAP was found to be the best for shoot multiplication in a single step. After excision of newly formed shoots, mother explants successively transferred to the same medium produced maximum shoots per explant after IV passage. Further enhancement in morphogenetic response occurred when excised shoot clumps (2–3 shoots) were subcultured on MS medium supplemented with 2.22 μM BAP, 1.16 μM Kn and 0.57 μM IAA. Half-strength MS medium supplemented with 24.60 μM IBA and 100 mg l⁻¹ AC was most effective for rooting of the shoots. To reduce labor, cost and time, an experiment on ex vitro rooting was also carried out and it was observed that highest percent shoots rooted ex vitro when treated with 2,460 μM IBA for 5 min. Plantlets rooted in vitro as well as ex vitro were acclimatized successfully under the green house conditions. In comparison to plantlets developed from in vitro rooted, percent survival of plants those rooted ex vitro was significantly higher. Use of ex vitro rooting technique for plant production serves as a more economical option; therefore, present method can be used for large-scale commercial production of this medicinally important tree.     

Potential role of cytokinin–auxin synergism, antioxidant enzymes activities and appraisal of genetic stability in Dianthus caryophyllus L.—an important cut flower crop

The regeneration potential, antioxidative enzyme activities, and genetic stability among micropropagated plantlets of Dianthus caryophyllus L. were evaluated. Multiple adventitious shoots were induced from leaf explants on Murashige and Skoog medium incorporated with various combinations and concentrations of plant growth regulators (PGRs). The highest leaf explant response (90%), number of shoots per explant (15.30?±?1.19), and shoot length (6.75?±?0.63 cm) was recorded in response to a combination of 2.5 μM 6-benzyladenine and 0.5 μM α-naphthaleneacetic acid (NAA) after 8 wks culture. Subsequent subculturing for five passages, on a medium with the same composition of PGRs, induced the highest shoot number (42.50?±?1.44), with an average shoot length of 8.06 cm after the fourth subculture. Different concentrations of indole-3-butyric acid (IBA) were tested to determine the optimum conditions for ex vitro rooting of microshoots. The best result was accomplished with a pulse treatment of IBA (100 μM) applied to the basal end of the microshoot for 30 min, followed by transfer to plastic cups containing soilrite, and eventually established in natural soil with an 85% survival rate. The determination of activities of antioxidative enzymes (superoxide dismutase, ascorbate peroxidase, catalase, and glutathione reductase) revealed involvement of these enzymes in shoot differentiation and development. All of these activities were interlinked with each other and played significant roles in the scavenging of toxic free radicals. Intersimple sequence repeat DNA analysis was carried out using five primers. The amplification products were monomorphic in micropropagated plants, similar to those of the mother plant. No polymorphisms were detected revealing the genetic integrity of the micropropagated plants.     

Micropropagation of <Emphasis Type="BoldItalic">Embelia ribes</Emphasis> Burm f. through proliferation of adult plant axillary shoots

Micropropagation of Embelia ribes was achieved through proliferation of axillary shoots obtained from mature plants. Nodal shoot segments, collected March–May, exhibited high-frequency (75%) shoot initiation when cultured on Murashige and Skoog (MS) basal medium supplemented with thidiazuron (TDZ) at 1.13 μM and indole-3-butyric acid (IBA) at 0.49 μM. Subculture of sprouted shoots from the original explants on medium containing TDZ (1.13 and 0.45 μM) during the first and second subcultures was found essential for further shoot proliferation, while inhibition of shoot elongation by TDZ could be overcome by transferring shoot cultures onto MS medium containing 6-benzylaminopurine (BAP; 11.10 μM) for the third subculture. Treating the explants with an antioxidant mixture of 568 μM ascorbic acid, 119 μM citric acid, and 307 μM glutathione prior to inoculation, coupled with subculture at 2-wk intervals onto fresh medium, both helped to reduce browning of the explants and facilitated production of five to six shoots/explant. MS medium supplemented with BAP (4.44 μM) and IBA (0.49 μM) induced shoot multiplication, producing five to six shoots/explant with a shoot length of 3 to 4 cm over a 4-wk culture period. Shoots of 3 to 4 cm in length exhibited 100% rooting within 4 wk after transfer to media containing half the nutrient salt concentration of MS medium with 3.69 μM IBA. Ex vitro rooting in the greenhouse from the in vitro shoots treated with 4.93 μM IBA for 30 min exhibited 95% rooting in soilrite™ medium in a 4-wk period. About 85% of micropropagated plants were established successfully in root trainers. Three-month-old, hardened plants could further be successfully established in the field. In 1 yr, by using the above protocol, 3,200 plants could be produced from a single shoot and 2,700 could be established in the field.     

Soluble sugar,starch and phenolic status during rooting of easy- and difficult-to-root magnolia cultivars

The aim of the study was to determine the effect of indole-3-butyric acid (IBA) and exogenous sucrose concentrations on in vitro rooting, soluble sugar, starch and phenolic production, and ex vitro survival of four magnolia cultivars. There was a significant linear increase in rooting of most magnolia genotypes with an increase in IBA concentration in the medium from 1 to 6 mg L^?1. A further increase of IBA concentration to 10 mg L^?1 decreased (‘Elizabeth’, ‘Burgundy’) or had no effect on rooting frequency (‘Spectrum’). The effect of IBA on rooting of magnolia shoots was modified by sucrose supply. The three out of four magnolia cultivars showed the highest rooting efficiency in the presence of 6 mg L^?1 IBA and 30 g L^?1 of sucrose. Generally, decreasing and increasing the sucrose supply from 30 g L^?1 significantly lowered the rooting frequency. In ‘Yellow Bird’, sucrose at 40 g L^?1 totally blocked root formation. It has been found that the poor rooting ability of ‘Yellow Bird’ coincided with a low soluble sugar content, and high production of starch and phenolics in the shoot bases during the whole rooting period as compared to easy-to-root cultivars. After 5 weeks of the growth on IBA medium, rooted and unrooted shoots were transferred to ex vitro conditions. Both types of shoots showed a high survival and rooting rate (85.4–100%), but they differed in their growth activity and quality. Sucrose concentration in the rooting medium had a post-effect on ex vitro root formation and survival of magnolia plantlets. Ex vitro establishment (13.3%) of recalcitrant ‘Yellow Bird’ was obtained only when the shoots were taken from rooting medium containing the lowest level of sucrose (20 g L^?1).

     

Changes in activity of antioxidant enzymes and photosynthetic machinery during acclimatization of micropropagated Cassia alata L. plantlets

The stimulatory effect of thidiazuron (TDZ) has been investigated in shoot multiplication for a simple, efficient, rapid, and commercially applicable regeneration protocol of an important medicinal plant, Cassia alata. Furthermore, the effects of an increased photosynthetic photon flux density (PPFD) on photosynthesis, the functioning of the photosynthetic apparatus, and the response of the antioxidant enzymatic system were studied during the ex vitro establishment of micropropagated plantlets. Multiple shoots were induced by culturing nodal explants excised from an aseptic seedling on Murashige and Skoog (MS) medium supplemented with various concentrations (1.0, 2.5, 5.0, 7.5, or 10.0 μM) of TDZ for different treatment durations (2, 3, 4, or 6 wk). The highest number of shoots (17.9?±?0.3) and longest shoot length (4.6?±?0.1 cm) were achieved when explants were exposed to 5.0 μM TDZ for 4 wk and subsequently subcultured on growth regulator-free MS medium for 8 wk. In vitro rooting of isolated shoots was best achieved on full-strength MS medium containing 0.5 μM indole-3-butyric acid (IBA). The micropropagated shoots with well-developed roots were successfully established in pots containing Soilrite? followed by garden soil and grown in greenhouse with an 85% survival rate. During the acclimatization period, significant changes in the activity of the antioxidant enzymatic system were observed. An increase in superoxide dismutase (SOD) activity was measured throughout the acclimatization period. Likewise an upregulation of catalase (CAT), ascorbate peroxidase (APX), and glutathione reductase (GR) enzyme activities were also observed. Pigment (chlorophyll a and b and carotenoids) content in ex vitro-formed leaves was significantly higher compared with those grown in vitro. These observed changes reflected the ability of plants to develop an antioxidant enzymatic defense system aiding in survival against oxidative stress and in reducing release of free radicals.     

In vitro propagation of Lagerstromia parviflora Roxb. from adult tree

A micropropagation protocol based on axillary bud proliferation has been developed from mature Lagerstromia parviflora adult tree. Nodal segments cultured on woody plant medium supplemented with 5.0 microl. BAP and 0.25 microm IAA gave maximum (86.9%) morphogenetic response. Proliferated shoots (10.7 per explants) were elongated to 3.9 cm within 6 weeks. In vitro produced micro-shoots were subjected to an IBA treatment (500 ppm for 2 min. dip) and placed under misting conditions for rooting. Misting beds were prepared with sand: soil (3:1) for 80.6% rooting and was acclimatized. Shoot length seems to be important to induce adventitious roots. The highest (91.7%) rooting was recorded on shoots ranging a length between 3.1-4.0 cm. Rooted and hardened plants were later transferred to poly bags and maintained in shadenet house. The protocol has the realizes capacity to produce 260 plants from a single explants within 10 months multiplication cycle.     

Sequential rooting media and rooting capacity of Sequoiadendron giganteum in vitro. Peroxidase activity as a marker

The rooting capacities of tips of seedling, juvenile and mature shoots of Sequoiadendron giganteum were compared on different rooting media (inductive and expressive media) after passage on an elongating medium. None of the cuttings rooted when continuously kept on medium containing the auxin NAA and vitamin D2. Peroxidase activity of all those cuttings on NAA+D2 first increased during the 7–9 first days and decreased in the days after. Rooting was obtained by transfer of the cuttings after periods longer than 7–9 days from the NAA+D2 inductive medium to a basal medium supplemented or not with rutin (expressive medium). The rooting capacity was emphasized by rutin treatment and was in correlation with the peroxidase peak reached on the NAA+D2 medium. Seedlings, characterised by the highest peroxidase activity, were most performing in rooting.Abbreviations BM basal medium - D2 ergocalciferol - NAA naphtaleneacetic acid     

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.     

High frequency axillary bud multiplication and ex vitro rooting of Wedelia chinensis (Osbeck) Merr.--a medicinal plant

An efficient protocol was achieved for rapid propagation of Wedelia chinensis (Osbeck) Merr. through axillary bud proliferation and ex vitro rooting. Murashige and Skoog (MS) medium supplemented with benzyladenine (BA; 8.87 microM) and indole-3-butyric acid (IBA; 2.46 microM) was optimal for axillary bud proliferation, which developed a mean of 8.3 shoots/node. Excision and culture of node segments from in vitro shoots on medium supplemented with the same concentration of growth regulators developed more than 30 shoots within 40 days. Excision and culture of nodes in succession enhanced the number of shoots. Shoot multiplication did not exhibit decrease in the number of shoots even at 10th subculture. Nevertheless, the shoots exhibited a tendency towards stunted nature. But reduction of BA to 4.44 or 2.22 microM resumed normal growth of shoots. Half strength MS medium fortified with IBA (2.46 microM) induced the highest number of roots. All in vitro rooted shoots survived in field. Dipping of the basal end of shoots collected from multiplication medium in IBA (2.46 microM) solution for 7 days induced roots and its transfer to small pots facilitated the survival of all rooted shoots (100%). Rooting ex vitro by direct transfer of shoots from multiplication medium exhibited 89.2 per cent survival. Use of commercial sugar and tap water and also the omission of in vitro rooting reduce the propagation cost 50-70 per cent. The protocol enables to harvest more than 50,000 plantlets within 150 days starting from a single node explant.     

Tissue Culture Propagation of Elite Plant of Aloe vera Linn

Micropropagation protocol for an elite selection of Aloe vera syn A. barbadensis through enhanced axillary branching was standardized. Murashige and Skoog medium containing 1 mg l^?1 BA and 0.2 mg l^-1 IBA gave highest multiplication. Citric acid at 10mg l^-1 and liquid medium improved the shoot multiplication. Hundred per cent microshoots produced rooted plantlets within 15 days of culture on hormone-free agar medium. Liquid medium during rooting stage decreased the number of shoots showing rooting response. The plants were successfully transferred in the soil and were morphologically similar to mother plants.