Efficient direct plant regeneration from immature leaf roll explants of sugarcane (<Emphasis Type="Italic">Saccharum officinarum</Emphasis> L.) using polyamines and assessment of genetic fidelity by SCoT markers

A rapid and efficient method for in vitro direct plant regeneration from immature leaf roll explants of Saccharum officinarum L. (sugarcane) cv. Co 86032 was developed by the application of exogenous polyamines (PA). The effect of explant source from apical meristems and pre-culture of explants in the dark on shoot regeneration was studied. Adventitious shoot regeneration occurred on the proximal regions of immature leaf roll explants when pre-incubated in the dark for 2 wk and the regeneration response was decreased from the middle to distal end. A higher number of direct shoots (130 primary shoots explant^?1) and multiple shoots (657 secondary shoots explant^?1), were obtained with a combination of spermidine (103.27 μM), spermine (49.42 μM), and putrescine (31.04 μM) along with plant growth regulators. Shoot induction was increased up to twofold and multiplication was increased up to threefold in the medium supplemented with PA. Profuse rooting was observed in putrescine (93.12 μM), spermidine (68.84 μM), and spermine (24.71 μM), with mean number of 57 roots. A twofold increase in the number of roots was observed in medium supplemented with PA with respect to control cultures, which facilitated the successful transplantation and acclimatization process of in vitro propagated sugarcane plants. Histology and scanning electron microscopy analyses supported adventitious direct shoot regeneration from immature leaf roll explants. The genetic stability of in vitro regenerated plants was confirmed using start codon targeted polymorphism marker system.     

The abiotic stress-responsive NAC transcription factor SlNAC11 is involved in drought and salt response in tomato (<Emphasis Type="Italic">Solanum lycopersicum</Emphasis> L.)

Efficient and genotype-independent in vitro regeneration is an essential prerequisite for incremental trait improvement in peanut (Arachis hypogaea L.) via genetic transformation. We have optimized a facile and rapid method to obtain direct shoot organogenesis from cotyledonary node (CN) explants excised from peanut seedlings germinated on cytokinin-supplemented Murashige and Skoog (MS) basal salt medium. Starting with mature embryos, shoot induction occurred in approximately 7 weeks, followed by 4 weeks for rooting of excised shoots and 3 weeks of acclimatization of regenerated plantlets in soil. The regeneration and transformation system described here is time-efficient, yielding greenhouse-acclimatized plantlets within 14 weeks, in contrast to 12–14 months required for initiating and regenerating somatic embryogenic cultures, currently the most tractable method available for peanut transformation. The highest shoot induction frequency and shoot quality was obtained with 6.66 μM 6-benzylaminopurine, followed by adequate root induction at 5.37 μM α-Naphthaleneacetic acid. New Mexican Valencia A was chosen for Agrobacterium-mediated transformation. Stable GUS expression from pWBvec10a was obtained at a transformation rate of 1.25?%. Furthermore, results from genomic PCR and Southern blot analyses showed that 14 out of 576 putative transgenic regenerants contained transgene pSag12::IPT, therefore yielding a total transformation rate of 2.43?%. The cotyledonary node-based direct regeneration system described here is time-efficient and amenable to Agrobacterium-mediated transformation, and therefore should be further explored for peanut transgenic improvement.     

In vitro induction of tetraploid <Emphasis Type="Italic">Ziziphus jujuba</Emphasis> Mill. var. <Emphasis Type="Italic">spinosa</Emphasis> plants from leaf explants

The genetic manipulation of Capsicum has been unsuccessful, and a large bottleneck to transferring the desired genes is due to the difficulty in regenerating whole plants through tissue culture because of its highly recalcitrant and high genotype specificity. This study aimed to investigate and establish rapid shoot regeneration from the proximal ends of the leaves of Capsicum frutescens KT-OC and BOX-RUB varieties. A maximum of 8–10 shoot buds were obtained from the margins of the proximal portion of a cotyledonary leaf explant of C. frutescens variety KT-OC on medium I containing 44.44 µM 6-benzylaminopurine (BA), 5.71 µM indole-3-acetic acid (IAA), 10 µM silver nitrate (AgNO₃) and 1.98 mg L^?1 2-(N-morpholine) ethane sulphonic acid within 4 weeks of incubation, of which 60% of explants responded in terms of shoot buds. Petiole explants (40%) cultured on the same medium produced 2–4 shoots per explant from the distal portion. The cut portions of the cotyledonary leaf proximal portions responded well to shoot bud formation in the presence of 22.20 µM BA and 14.68 µM phenyl acetic acid (PAA), wherein 100% of explants responded in terms of shoot bud formation, with an average of 10?±?1.7 and 8?±?1.9 shoot buds per explant in KT-OC and BOX-RUB varieties, respectively. The differentiated shoots grew well and proliferated in the presence of 14.68 µM PAA?+?22.20 µM BA and 10 µM AgNO₃. Shoot elongation was obtained in presence of 1.44 µM gibberellic acid (GA₃) and 10 µM AgNO₃. These shoots were rooted on plant growth regulator-free half-strength MS medium and upon hardening; field survival rate was 70%. This reproducible regeneration method for C. frutescens, especially the Indian high pungent variety, from proximal portion of cotyledonary leaf and petiole explants, can be used for biotechnological improvement.     

Assessment of the efficacy of amino acids and polyamines on regeneration of watermelon (<Emphasis Type="Italic">Citrullus lanatus</Emphasis> Thunb.) and analysis of genetic fidelity of regenerated plants by SCoT and RAPD markers

A simple and efficient regeneration protocol was developed for watermelon from cotyledonary node explants excised from 7-day-old in vitro grown seedlings. This study describes the effect of amino acids and polyamines (PAs) along with plant growth regulators (PGRs) on multiple shoot induction and rooting. The highest number of multiple shoots (46.43 shoots/explant) was obtained from cotyledonary node and they were also elongated (6.3 cm/shoot) on MS medium supplemented with 1 mg l^??1 N ⁶ –Benzyladenine (BA), 5 mg l^??1 leucine, and 10 mg l^??1 spermidine. The elongated shoots developed profuse roots (23.03 roots/shoot) in MS medium containing 1 mg l^??1 indole-3-butyric acid (IBA), 5 mg l^??1 isoleucine, and 10 mg l^??1 putrescine. All the rooted plantlets were successfully hardened and acclimatized in the greenhouse with a survival rate of 98%. The present study described an efficient method to obtain a 1.5-fold increase in the number of shoots, compared with the available regeneration protocols for watermelon. The plants developed in this study showed fivefold higher photosynthetic pigments compared to the control plants. The genetic fidelity of the regenerated plants was evaluated by SCoT and RAPD marker analyses, and banding patterns confirmed the true-to-type nature of in vitro regenerated plants.     

Effect of polyamines on in vitro somatic embryogenesis in <Emphasis Type="Italic">Momordica</Emphasis><Emphasis Type="Italic">charantia</Emphasis> L.

The effects of exogenous polyamines (PAs) on enhancement of somatic embryogenic calli was investigated in Momordica charantia L. in vitro. Induction of somatic embryogenesis (SE) in leaf explants of M. charantia after 21 days of culture in Murashige and Skoog (MS) medium was determined using scanning electron microscopy. During induction of SE there were high titers of Putrescine (Put) as compared to Spermidine (Spd) and Spermine (Spm), a prerequisite for cell division. Addition of PAs to the embryogenic media resulted in an increase in fresh weights and number of somatic embryos of 21-day old embryogenic calli. Put at a concentration of 1 mM showed maximum increase in fresh weights of embryogenic calli (5 fold) and number of somatic embryos produced per 0.2 g of callus (2.5 fold). Moreover addition of PAs to the embryogenic media resulted in lowering of endogenous free PA level of 21-day old embryogenic calli. Thus, when the media was supplemented with exogenous PAs a positive correlation was found to exist between Somatic Embryogenesis enhancement and decrease in endogenous free PA levels.     

Role of polyamines in adventitious shoot morphogenesis from cotyledons of cucumber <Emphasis Type="Italic">in vitro</Emphasis>

The relationship between polyamines (PAs) metabolism and adventitious shoot morphogenesis from cotyledons of cucumber was investigated in vitro. The endogenous levels of free putrescine (Put) and spermidine (Spd) in the explants decreased sharply, whereas endogenous spermine (Spm) increased during adventitious shoot morphogenesis. The presence of 1–15 mM Put, 1–2 mM Spd, 0.05–1 mM Spm, 5–10 M aminoethoxyvinylglycine (AVG) or 5 M AVG together with 50 M 1-aminocyclopropane-1-carboxylic acid (ACC) in the regeneration medium could promote adventitious shoot formation. Conversely, 1–5 mM D-arginine (D-Arg) or 0.01–0.1 mM methylglyoxal bis-guganylhydrazone (MGBG) inhibited regeneration; and 0.005–0.05 mM ACC displayed little or no evident effects. The explants growing on medium containing 5 M AVG produced higher levels of free Put and Spm, and on medium containing 5 mM Put the explants responded similarly to the AVG-treated explants. However, the exogenous use of 1 mM D-Arg reduced the levels of Put, Spd and Spm, and 0.1 mM MGBG reduced the levels of free Spd and Spm. Moreover, although the explants cultured on medium containing Put and MGBG enhanced ethylene production, AVG and D-Arg inhibited ethylene biosynthesis. This study shows the PAs requirement for the formation of adventitious shoot from cotyledons of cucumber in vitro and the enhanced adventitious shoot morphogenesis may be associated with the elevated level of endogenous free Spm, albeit the promotive effect of PAs on adventitious shoot morphogenesis may not be related to ethylene metabolism.     

A rapid and efficient in vitro shoot regeneration protocol using cotyledons of London plane tree (<Emphasis Type="Italic">Platanus acerifolia</Emphasis> Willd.)

A rapid, prolific and reproducible protocol for in vitro shoot regeneration from mature cotyledons of Platanus acerifolia has been developed. The influences of different plant growth regulator (PGR) combinations and donor seedling ages on shoot regeneration were investigated. The results showed that the application of BA in conjunction with NAA was the most effective PGR combination for the induction of shoot regeneration. When cotyledon explants of 5-day-old seedlings were incubated on MS basal medium supplemented with 4.0 mg L^?1 BA and 0.2 mg L^?1 NAA, 67.6?±?4.9% of the cotyledon segments produced adventitious shoots. These regenerated shoots were initially formed as stunted rosette cluster forms and were encouraged to elongate to produce distinct shoots by transfer onto MS medium containing 0.5 mg L^?1 BA and 0.05 mg L^?1 NAA; the resulting mean number of adventitious shoots per explant was 5.81?±?0.36. The elongated shoots were readily induced to root (i.e. 89.3% of shoots) by incubation on ½-strength MS medium supplemented with 0.1 mg L^?1 IBA. This is the first report of an efficient in vitro shoot regeneration protocol for P. acerifolia through direct organogenesis using cotyledon explants. Hence, this provides a more efficient basis for the Agrobacterium-mediated genetic transformation of Platanus than previously available.     

Role of polyamines on de novo shoot morphogenesis from cotyledons of Brassica campestris ssp. pekinensis (Lour) Olsson in vitro

Summary The promotive effect of ethylene inhibitors (Els), i.e. AgNO₃ and aminoethoxyvinylglycine (AVG) on de novo shoot regeneration from cultured cotyledonary explants of Brassica campestris ssp. pekinensis cv. Shantung in relation to polyamines (PAs) was investigated. The endogenous levels of free putrescine and spermidine in the explant decreased sharply after 1–3 days of culture, whereas endogenous spermine increased, irrespective of the absence or presence of Els. AgNO₃ at 30 M did not affect endogenous PAs during two weeks of culture. In contrast, explants grown on medium containing 5 M AVG produced higher levels of free putrescine and spermine which increased rapidly after three days and reached a peak at 10 days. An exogenous application of 5 mM putrescine also resulted in a similar surge of endogenous free spermine of the explant. More strikingly, shoot regeneration from explants grown in the presence of 1–20 mM putrescine, 0.1–2.5 mM spermidine, or 0.1–1 mM spermine was enhanced after three weeks of culture. However, exogenous PAs generally did not affect ethylene production, and endogenous levels of 1-aminocyclopropane-1-carboxylate (ACC) synthase activity and ACC of the explant. This study shows the PA requirement for shoot regeneration from cotyledons of B. campestris ssp. pekinensis in vitro, and also indicates that the promotive effect of PAs on regeneration may not be due to an inhibition of ethylene biosynthesis.Abbreviations PAs polyamines - AVG aminoethoxyvinylglycine - SAM S-adenosylmethionine - ACC 1-aminocyclopropane-1-carboxylate - Els ethylene inhibitors     

Somatic embryogenesis and plant regeneration of blackberry using the thin cell layer technique

Limonium ‘Misty Blue’ is an interspecific hybrid of Limonium latifolium and L. bellidifolium and has a huge demand in floriculture business as both fresh and dry flowers with stunning purple-blue blooms. The propagation only through vegetative means restrict the popularization of this plant to the flower growers. We therefore optimized an efficient micropropagation protocol for direct organogenesis from root explants, as leaf is not conducible to respond in culture. 61.43% of root explants directly formed shoot buds on their surface after 4-weeks of culture in media containing ½ MS, 43.82 mM sucrose 2.22 µM BA and 1.07 µM NAA. The shoot buds failed to differentiate into healthy shoots unless the previous medium was replaced by full strength MS, and 87.64 mM sucrose along with 0.44 µM BA and 1.07 µM NAA. Encapsulations of juvenile shoots were carried out by 3% sodium alginate and 100 mM CaCl₂ which were again successfully stored at 4?°C for 30 days along with 56.79% of plant recovery in MS?+?0.44 µM BA?+?4.5 µM IBA?+?87.64 mM sucrose containing medium. 150 synthetic seed derived full grown plants were successfully acclimatized in green house, where a total of 101 plants survived after secondary hardening. The ISSR analysis revealed genetic homogeneity of synthetic seed derived hardened plants.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of <Emphasis Type="Italic">Melothria maderaspatana</Emphasis> via indirect organogenesis

An effective protocol was developed for in vitro regeneration of the Melothria maderaspatana via indirect organogenesis in liquid and solid culture systems. Organogenesis was achieved from liquid culture calluses derived from leaf and petiole explants of mature plants. Organogenic calluses (98.2?±?0.36 and 94.8?±?0.71%) were induced from both leaf and petiole explants on Murashige and Skoog (MS) liquid medium containing 6.0 µM 2,4-dichlorophenoxyacetic acid (2,4-D) and 0.5 µM thidiazuron (TDZ); and 6.0 µM 2,4-D and 1.0 µM benzyladenine (BA) combinations, respectively. Adventitious shoot regeneration (68.2?±?0.06 shoots per explant) was achieved on MS medium supplemented with 2.0 µM BA, 4.0 µM TDZ, 10% v/v coconut water and 0.06 mM glutamine from leaf-derived calluses. Petiole-derived calluses produced adventitious shoots (45.4?±?0.09 shoots per explant) on MS medium fortified with 2.0 µM BA, 4.0 µM TDZ, 10% v/v coconut water, and 0.08 mM glutamine. Elongation of shoots occurred in MS medium with 2.0 µM gibberellic acid (GA₃). Regenerated shoots (2–3 cm in length) rooted (74.2?±?0.38%) and hardened (85?±?1.24%) when they were transferred to 1/2-MS medium supplemented with 3.0 µM indole-3-butyric acid (IBA) followed by garden soil, vermiculate, and sand (2:1:1 ratio) mixture. The elongated shoots (4–5 cm in length) were exposed simultaneously for rooting as well as hardening (100%) in moistened [(1/8-MS basal salt solution with 5 µM IBA and 100 mg l^?1 Bavistin® (BVN)] garden soil, vermiculate, and sand (2:1:1 ratio) mixture. Subsequently, the plants were successfully established in the field. The survival percentage differed with seasonal variations.     

Multiple shoot induction and regeneration of whole plants from cotyledonary node and nodal explants of Sterculia urens Roxb., a gum yielding tree

Plant regeneration from the nodal explants of 1-month-old in vitro grown plants and cotyledonary node explants of 15-days-old seedlings of Sterculia urens is reported. Nodal explants were grown on MS medium supplemented with various growth regulators like BA, KIN and TDZ. For shoot induction 13.3 μM BA, 0.9 μM TDZ and 9.3 μM KIN were found optimum. Among the three growth regulators 0.90 μM TDZ was used for the growth of cotyledonary node explants. An average of 8.6 shoots per node and 11.2 shoots per cotyledonary node were observed in 4 to 5 weeks. These shoots were subsequently rooted in vitro on half strength MS medium containing various concentrations of auxins like IBA and NAA. The best concentrations for rooting of shoots were 19.7 μM IBA and 16.1 μM NAA. Plantlets were acclimatized to ex vitro conditions and established in the field.     

Proteomic profile and polyamine contents are modulated by light source to promote in vitro shoot development in Cariniana legalis (Martius) O. Kuntze (Lecythidaceae)

The effect of different light sources on in vitro shoot development in Cariniana legalis, an endangered species from the Atlantic Forest, was evaluated. Cotyledonary and apical nodal explants were subjected to light-emitting diode (LED) lamps with different spectral combinations and fluorescent lamps (control). Shoot growth, endogenous contents of free polyamines (PAs) and proteomic profiles were analyzed at 60 days of development. Treatments consisting of white, low-blue and deep-red, with (W/_lB/_dR/_fR) and without (W/_lB/_dR) far-red spectra, resulted in greater elongation of shoots from cotyledonary nodal explants, and the low-blue and deep-red spectral combination appeared to be a positive factor stimulating shade-avoidance responses. Shoots grown under the W/_lB/_dR LED exhibited greater elongation and higher contents of free putrescine, spermidine and total free PAs compared to those grown under the fluorescent lamp. Comparative proteomic analysis revealed 15 up- and 41 down-regulated proteins in shoots grown under the W/_lB/_dR LED lamp when compared to the control. The differentially up-regulated proteins in shoots grown under the LED lamp are related to cell organization and composition, as well as biological regulation processes, whereas proteins related to stress processes were down-regulated. The LED lamp consisting of white, low-blue and deep-red spectra increased shoot elongation in C. legalis, in association with differential accumulation of proteins and PAs, suggesting the relevance of source light on in vitro shoot development in this species.

     

Development of an efficient,genotype independent plant regeneration and transformation protocol using cotyledonary nodes in safflower (<Emphasis Type="Italic">Carthamus tinctorius</Emphasis> L.)

Safflower is an important oilseed crop with a nutritionally desirable oil composition comprising low levels of saturated fatty acids and high levels of unsaturated fatty acids. In this study, a robust, genotype-independent plant regeneration protocol was developed for geographically diverse safflower genotypes, including one accession each from America, Australia, Egypt, Germany, Kazakhstan and three important Indian genotypes (Sharda, Bhima and PBNS-12). Use of cotyledonary nodes as explants resulted in genotype-independent regeneration on BAP (6-Benzylaminopurine), NAA (Naphthalene acetic acid) and ascorbic acid supplemented MS medium. Histological analysis revealed that multiple shoot apical meristems originated independently from peripheral cortical regions of explants. We developed a highly efficient in vitro micrografting method which enabled successful rooting of 85–90 % of regenerated shoots. An efficient genetic transformation system was also established for three Indian genotypes viz., Sharda, Bhima and PBNS-12 using the Agrobacterium strain, LBA4404 and phosphinothricin as the selection agent. This is the first report on use of phosphinothricin-based selection and cotyledonary nodes as explants for Agrobacterium-mediated transformation of safflower. Use of vacuum infiltration-assisted Agrobacterium infection and inclusion of a pre-culture step significantly increased transformation frequencies in all the three genotypes as seen by GUS assays on transformed calli. Genomic integration and transgene expression were confirmed by PCR, Southern hybridization and GUS assays. Most transgenic plants (90 %) exhibited a normal phenotype when grown under controlled conditions and produced viable seeds. This protocol would be useful for introduction of desirable traits in diverse genotypes of safflower.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation,micromorphological studies and <Emphasis Type="Italic">ex vitro</Emphasis> rooting of cannon ball tree (<Emphasis Type="Italic">Couroupita guianensis</Emphasis> aubl.): a multipurpose threatened species

In vitro propagation methods using seeds and nodal segments of a 21-year old Couroupita guianensis - a medicinally important but threatened tree have been developed. Hundred percent of the seeds germinated on half strength Murashige and Skoog (MS) medium with 2.0 mg l^?1 indole-3 butyric acid (IBA). Nodal segments were found most suitable for the establishment of cultures. About 90 % explants responded and 4.1 ± 0.23 shoots per node were induced after five weeks of inoculation on MS medium +4.0 mg l^?1 6-benzylaminopurine (BAP). Further shoot multiplication was achieved by repeated transfer of mother explants and subculturing of in vitro produced shoots on fresh medium. Maximum number (8.2 ± 0.17) of shoots were regenerated on MS medium with 1.0 mg l^?1 each of BAP and Kinetin (Kin) + 0.5 mg l^?1 α-naphthalene acetic acid (NAA) with additives (50 mg l^?1 of ascorbic acid and 25 mg l^?1 each of adenine sulphate, L-arginine and citric acid). The multiplied shoots rooted (4.3 ± 0.26 roots/shoot) on half strength MS medium with 2.5 mg l^?1 IBA. All the shoots were rooted ex vitro when pulse treated with 400 mg l^?1 of IBA for five min with an average of 7.3 ± 0.23 roots per shoot. Nearly 86 % of these plantlets were acclimatized within 7–8 weeks and successfully transferred in the field. Biologically significant developmental changes were observed during acclimation particularly in leaf micromorphology in terms of changes in stomata, veins and vein-islets, and trichomes. This study helps in understanding the response by the plants towards outer environmental conditions during acclimatization. This is the first report on micropropagation of C. guianensis, which could be used for the large-scale multiplication, restoration and conservation of germplasm of this threatened and medicinally important tree.     

Establishment of long-term proliferating shoot cultures of elite <Emphasis Type="Italic">Jatropha curcas</Emphasis> L. by controlling endophytic bacterial contamination

Leaf explants of the second or third node were collected from field-grown elite Jatropha curcas trees and incubated in Murashige and Skoog’s (Physiol Plant 15:473–497, 1962) medium supplemented with growth regulators. Direct shoot organogenesis was induced when explants were incubated in a medium containing 0.5 mg l^?1 benzyladenine (BA) and 0.1 mg l^?1 indolebutyric acid (IBA). A maximum of seven shoot buds differentiated within 6 weeks of culture incubation. Indirect shoot organogenesis was obtained when explants were incubated in the medium supplemented with 0.5 mg l^?1 BA along with 1.0 mg l^?1 each of 2,4-dichlorophenoxyacetic acid (2,4-D) and indoleacetic acid (IAA). A pulse treatment of 0.5 mg l^?1 thidiazurone (TDZ) and 0.1 mg l^?1 IBA for 5 days was necessary for shoot organogenesis in green compact callus before subculture into 0.5 mg l^?1 BA and 0.1 mg l^?1 IBA containing medium. Leaf explants of J. curcas, collected from the field, contained endophytic bacterial contamination, which expressed itself after 2–3 subcultures. These bacteria were cultured and identified as Enterobacter ludwigii. After staining, these were found as gram-negative bacteria. Their sensitivity against different antibiotics has been tested by culturing them with different antibiotic stabs for 72 h. Finally, Augmentin® was found as the most effective and suitable antibiotic which not only controlled the bacteria within 2–3 subcultures but also supported the regeneration system and growth of the regenerated shoots and such cultures have been grown for a long-term of over 2 years without any contamination.     

Micropropagation, <Emphasis Type="Italic">in vitro</Emphasis> flowering,and tuberization in <Emphasis Type="Italic">Brachystelma glabrum</Emphasis> Hook.f., an endemic species

Brachystelma glabrum Hook.f. is an endemic plant species of Eastern Ghats, India. In this study, efficient protocols for in vitro micropropagation, flowering, and tuberization of this plant were developed. Sterilized shoot tip and nodal explants were cultured on Murashige and Skoog (MS) medium supplemented with different plant growth regulators (PGRs) and additives for shoot induction and multiplication. Both shoot tip and nodal explants showed the best response (90 and 100%, respectively) on MS medium supplemented with thidiazuron (TDZ) at 1.0 mg L^?1. The microshoots multiplied best on MS + TDZ (1.0 mg L^?1) in combination with α-naphthaleneacetic acid (NAA) at 0.5 mg L^?1 and coconut water (CW) at 25%. The highest number of in vitro flowers (4.0 flowers per microshoot) was observed on MS medium supplemented with a combination of N6-benzyladenine (BA) and indole-3-butyric acid (IBA), each at 1.5 mg L^?1. In vitro-derived shoots produced aerial tubers on MS + TDZ (2.0 mg L^?1) + IBA (0.5 mg L^?1) and basal tubers on MS + TDZ at 2.0 mg L^?1. In vitro shoots were best rooted on half-strength (½) MS + NAA at 0.5 mg L^?1. The rooted plantlets were successfully acclimatized in pots with 70% survival after a hardening period of 1 mo. This protocol provides an effective method for the conservation of this endemic plant species.     

Optimization of <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated genetic transformation of shoot tip explants of green gram (<Emphasis Type="Italic">Vigna radiata</Emphasis> (L.) Wilczek)

Shoot tip explants prepared from seedlings of ML-267 genotype of green gram were inoculated on MSB5 medium supplemented with BAP (0–20 μM) individually or in combination with minimal concentration of auxins (NAA/IAA/IBA) for adventitious shoots formation. BAP alone without auxins was observed to be efficient in multiple shoot induction and optimum shoot proliferation was achieved on MSB5 medium containing 10 μM BAP with 100?% shoot induction frequency. 3-day-old explants gave best shoot multiplication response and the mean shoot number decreased significantly in 4-day and 5-day-old explants. The induced shoots rooted profusely on ½ MSB5?+?2.46 µM IBA and about 90?% of the plantlets survived after acclimatization and set seed normally. Shoot tip explants infected with A.tumefaciens (LBA4404) harboring pCAMBIA 2301?+?AnnBj1 recombinant vector. Various factors which influence the competence of transformation were optimized based on the frequency of transient GUS expression in shoot tip explants. Optimum levels of transient GUS expression were recorded at pre-culture of explants for 2 days, infection for 10 min with Agro-culture of 0.8 OD and co-cultivation for 3 days on co-cultivation medium containing 100 µM acetosyringone in dark at 23?°C. Putative transformed shoots were produced on selection medium (shoot inductionmedium with100 mg/l kanamycin and 250 mg/l cefotaxim). PCR analysis confirmed the presence of AnnBj1, nptII, and uidA genes in T₀ plants. Stable GUS activity was detected in flowers of T₀ plants and leaves of T₁ plants. PCR analysis of T₁ progeny revealed AnnBj1 gene segregated following a Mendelian segregation pattern.     

Morpho-histological characterization and direct shoot organogenesis in two types of explants from <Emphasis Type="Italic">Bacopa monnieri</Emphasis> on unsupplemented basal medium

In the present study, high frequency regeneration has been obtained via de novo direct shoot organogenesis from leaf and internode explants in Murashige and Skoog (MS) basal medium without any phytohormone supplementation in Bacopa monnieri, an indigenous traditionally used medicinal herb. Leaves and internodes from different positions were excised from 4-weeks-old in vitro propagated B. monnieri plants and cultured on MS basal medium supplemented with 3% (w/v) sucrose and 0.75% (w/v) agar for 4 weeks. The induction of de novo shoot buds was observed at petiolar cut edges of leaf and both proximal and distal cut ends of internode explants within 10–15 days of culture. The first histological changes could be observed after 4–5 days, with meristematic activity of vascular bundles. Proliferation of epidermal cells gave rise to dome-shaped protuberances followed by shoot apical meristems formation and their vascular connections with explant tissues within 2 weeks of culture. However, a basipetal gradient of shoot regeneration from both types of explants collected along the branch axis was noticed after 4 weeks of culture. Leaf and internode explants near the basal region exhibited significantly higher number of shoot buds and micro shoots (8.8/leaf explant and 15/internode explant). Microshoots (7–12 micro shoots/leaf or internode explants) elongated (shoot length 8–9 cm) within 8 weeks on phytohormone free MS medium. Excised micro shoots rooted (100%) in hormone free MS medium within two weeks of culture. Rooted plants were then acclimatized and transferred to field with 95% survival. This protocol may be used for micropropagation, genetic transformation as well as a model system for evaluation of changes associated with acquisition of competence of differentiated cells in phytohormone free medium.     

Thidiazuron: an efficient plant growth regulator for enhancing <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation in <Emphasis Type="Italic">Petunia hybrida</Emphasis>

Efficient shoot regeneration and Agrobacterium-mediated genetic transformation systems were developed for Petunia hybrida cv. Mitchell. Leaf explants of petunia were cultured on Murashige and Skoog (MS) medium with different concentrations of thidiazuron (TDZ) without auxin. The highest frequency of shoot regeneration (52.1%) and mean number of shoots per explant (4.1) were obtained on medium containing 2 mg l^?1 TDZ. Leaf explants inoculated with Agrobacterium tumefaciens strain EHA101/pIG121Hm harboring ß-glucuronidase (uidA) and hygromycin resistance genes developed putative transformant shoots. The highest frequency of shoot regeneration (22.5%) and mean number of transformant shoots per explant (2.4) were obtained on a selection medium consisting of the above described regeneration medium and containing 25 mg l^?1 hygromycin as the selection agent. Approximately 95% of putative transformant shoots expressed the uidA gene following histochemical ß-glucuronidase (GUS) assay. These were confirmed to be transgenic by PCR analysis and Southern blot hybridization.     

Silver nitrate-induced in vitro shoot multiplication and precocious flowering in <Emphasis Type="Italic">Catharanthus roseus</Emphasis> (L.) G. Don,a rich source of terpenoid indole alkaloids

Catharanthus roseus (L.) G. Don is an economically and medicinally important plant since its leaves and flowers contain terpenoid indole alkaloids. The present study, for the first time, encompasses the influence of silver nitrate (AgNO₃), in consort with cytokinins like N ⁶-benzyladenine (BA) and 6-furfurylaminopurine (kinetin), to regenerate multiple shoots from nodal segments explants and to induce high-frequency precocious flowering of C. roseus under in vitro condition. Synergistic effect of equal concentrations of BA and kinetin was enhanced following the amalgamation of AgNO₃. As high as 98% explants responded to multiple shoot initiation and proliferation in Murashige and Skoog medium supplemented with 3 µM BA, 3 µM kinetin and 0.1 µM AgNO₃. As many as 7 shoots were developed per explant following 12 days of inoculation. Continuous culture in the same medium for 21 days induced precocious flowering from 75% shoots, wherein a maximum of ~?6 (5.67?±?0.88) flowers was observed per in vitro shoot. On the other hand, in the combinations of BA and kinetin excluding AgNO₃, a maximum of 6.67% explants responded and initiated merely 3.33 shoots per explant. Nevertheless, no induction of flower was observed in the media devoid of AgNO₃. Our results on the induction and proliferation of multiple shoots with simultaneous flowering would help the global pharmaceutical industry to produce in vitro shoots and flowers in bulk, as an alternative source of alkaloids.