Factors affecting in vitro microrhizome production in turmeric

In vitro microrhizome production was obtained in turmeric (Curcuma longa Linn.). Freshly sprouted buds with small rhizome portions excised from stored mature rhizomes were cultured on semi-solid culture initiation medium –- MS basal medium + 0.88 M BAP (6-benzylaminopurine) + 0.92 M kinetin + 5% coconut water + 2% sucrose + 0.5% agar –- resulting in bud elongation. Multiple shoots were produced from these elongated buds by culturing in liquid shoot multiplication medium –- MS basal medium + 2.2 M BAP + 0.92 M kinetin + 5% coconut water + 2% sucrose –- at 25±1°C and 16-h light (at 11.7 mol m^–2 s^–1)/8-h dark cycles. Clumps of four to five multiple shoots/single shoots were used in various experiments. Cultures were incubated in the dark at 25±1°C. Half strength MS basal medium supplemented with 80 g l^–1 sucrose was found to be optimal for microrhizome production. Cytokinin BAP had an inhibitory effect on microrhizome production. At the highest concentration of BAP tried (35.2 M) microrhizome production was totally inhibited. Microrhizome production depended on the size of the multiple shoots used. Microrhizomes produced were of a wide range in size (0.1–2.0 g) and, readily regenerated when isolated and cultured in vitro on culture initiation medium or shoot multiplication medium. Under in vivo conditions, small (0.1–0.4 g), medium (0.41–0.8 g) and big (>0.81 g) microrhizomes regenerated. Plantlets developed from big microrhizomes grew faster.     

A simple method for maintaining high multiplication of Narcissus shoot cultures in vitro

A simple method for stimulating and maintaining high in vitro multiplication of Narcissus shoot clump cultures was developed. Shoot clumps were subjected either to normal cutting where leaves were trimmed to 20 mm in length at the beginning of each culture passage or to severe cutting where shoot clumps were cut down to the basal plate region removing all green tissue. Severe cutting at the beginning of each culture passage initially doubled the leaf multiplication, compared to normal cutting, but the difference between cutting treatments declined in successive passages. The improvement in leaf multiplication was maintained when shoot clumps were subjected to severe cutting only at every other culture passage, with no cutting in the alternate recovery passages. In vitro multiplication was increased by severe cutting in all seven Narcissus cultivars which were tested.Abbreviations NAA-1 naphthylacetic acid - BAP benzylaminopurine     

In vitro propagation of olive (Olea europaea L.) cv. Koroneiki

Single node explants of 'Koroneiki' olive trees werecultured for one month on a modified Driver-Kuniyuki for Walnut medium, lackinggrowth regulators. The explants were subcultured once a month on a mediumsupplemented with zeatin riboside, 6-(--dimethylallylamino)purine,6-benzyladenine or thidiazuron. Zeatin riboside proved to be superior to othercytokinins in inducing shoot proliferation. The combination of olive knotextract at 25 or 50 mg l^–1 with cytokininssuppressed shoot proliferation. After two months at the proliferation stage,theexplants were cultured for one week in the dark in 1 ml liquidWoody Plant Medium supplemented with IBA, -NAA or IBA+-NAA. Theexplants were then transferred to the same solid medium lacking growthregulators, with a small layer of perlite on the surface. The combination ofthetwo auxins at 1+1 mg l^–1 resulted in almost 76%rooting. The combination of olive knot extract at 50 mgl^–1 with auxins increased the rooting percentage up toalmost 87%. Artificial infection of explants with the bacteriumPseudomonas savastanoi pv. savastanoiinhibited rhizogenesis, even in the presence of auxins. Rooted explants weresuccessfully acclimatised under a mist system, with the survival rate reachingalmost 75%.     

Micropropagation of Telopea speciosissima R. Br. (Proteaceae). 2: Rhizogenesis and acclimatisation to ex vitro conditions

Conditions affecting rhizogenesis in vitro and ex vitro and subsequent acclimatisation of Telopea speciosissima (waratah) were investigated. Clonal selections were successfully rooted in vitro in agar, on filter paper bridges or using crushed quartz-sand, the last substrate resulting in superior growth of roots. The in vitro substrates were impregnated with half-strength MS, 7.5 gl^-1 sucrose and various concentrations of IBA. For the quartz-sand, an IBA concentration of 50 M was optimal, 70% of microcuttings were rooted. No plantlets rooted in vitro were acclimatised to ex vitro conditions (using mist, fog or humidity tent regimes). Microcuttings (25–45 mm in length) were rooted ex vitro in a fog humidity regime (droplet size <10 m) using an IBA powder dip (3 g IBA kg^-1). Neither a mist nor a humidity-tent regime was suitable for rooting of waratah microshoots ex vitro. A peat and perlite mixture was superior to crushed quartz-sand or potting mix for the rooting of microshoots; this appeared to be related to the air-filled porosity (>20%) of the mixture, measured after the medium was saturated and then drained for 24h. Plantlets must be left under the high humidity regime until shoot growth resumes (four to eight weeks) otherwise plant mortality increase significantly. In vitro-produced leaves abscised between eight and 12 weeks after transfer to ex vitro conditions, indicating that these structures did not acclimatise ex vitro.Abbreviations BA benzyladenine - GA₃ gibberellic acid - IBA indole-3-butyric acid - LSD least significant difference - MS Murashige and Skoog medium     

Tissue culture propagation of Mongolian cherry (<Emphasis Type="Italic">Prunus fruticosa</Emphasis>) and Nanking cherry (<Emphasis Type="Italic">Prunus tomentosa</Emphasis>)

In vitro culture establishment, shoot proliferation and ex vitro rooting responses of Mongolian cherry (Prunus fruticosa L.), and Nanking cherry (Prunus tomentosa L.), were examined using various combinations of growth regulators. Dormant buds, taken during winter months, were used as explants. In both species, Murashige and Skoog Minimal Organic (MSMO) solid medium supplemented with 0.49 M indole-3-butyric acid (IBA) and either 4.44 or 8.88 M 6-benzylaminopurine (BA), was the best for culture initiation, and with 8.88–15.16 M BA for shoot proliferation. Good rooting responses were also obtained with shoots produced on media containing 0.91 M thidiazuron (TDZ). Auxin treatments were required for ex vitro rooting of approximately 20 mm long shoots in peat/perlite (1:1 v/v) mixture, at 25 °C, under mist. The best rooting (79%) was obtained with IBA/NAA (naphthaleneacetic acid) (9.80/2.69 M) combination. A commercial rooting powder, Rootone F, containing IBA/NAA (0.057/0.067%), was also effective (73%). The ex vitro rooted plantlets did not require any additional acclimatization prior to transplanting to the regular greenhouse conditions.     

Factors influencing the growth of micropropagated shoots and in vitro flowering of gentian

About 70% of the shoots developed from nodal explants ofGentiana triflora flowered in vitroondouble strength WPM medium containing 3% (w/v) sucrose, 0.5mg/l BA after 12 weeks of culture in a growth room at 22°Cwith continuous illumination (PPFD=60molm^–2 s^–1). The influences oninvitro shoot development and flowering of several factors includingthe position of the explant, requirements for sucrose, cytokinin orGA₃, variations of pH and photosynthetic photon flux density (PPFD)were investigated. In vitro flowering but not shootdevelopment of G. triflora decreased notably withincreaseddistance from the apex of the shoot, indicating the presence of a floralgradient in the micropropagated shoots. Conversely, as little as 0.01mg l^–1 GA₃ in the medium promotedshootdevelopment but even up to 0.2 mg l^–1GA₃ did not induce in vitro flowering.Even though BA could substitute GA₃ for a high level of shootdevelopment, it also promoted a high level of in vitroflowering at the PPFD of 60 molm^–2 s^–1. Sucrose was required for shootdevelopment and flowering in vitro and higher levels ofPPFD could not compensate effectively for the omission of the sugar from themedium. In general, the effects of different concentrations of BA in the mediumor variations of pH on shoot development and flowering invitro were found to be influenced by PPFD. A novel observation isthat precocious flowering of micropropagated gentian shoots did not occur ifthey were first cultured for 5 weeks in the dark before transfer to the lightcondition.     

Micropropagation of the Mediterranean species Viburnum tinus

In vitro propagation of the Mediterranean species Viburnum tinus L. was established from an outdoor-grown shrub. Two standard macrosalt formulations (Margara N30K and Murashige and Skoog), a range of benzyladenine and sucrose concentrations were tested for their effect on shoot multiplication. The cytokinin concentration was the most important factor affecting shoot multiplication. The highest shoot multiplication rate was obtained from single-node explants cultured on Murashige and Skoog medium supplemented with 4.4 M benzyladenine. Cytokinin concentration and an interaction of macrosalts and benzyladenine influenced shoot length on the multiplication stage: best shoot growth was observed on MS medium containing 1.1 M benzyladenine. In addition, sucrose concentrations of 87.6–146.0 mM gave the highest multiplication rates and improved shoot growth. Following a shoot ellongation stage, single shoots were rooted on media containing naphtaleneacetic acid (1.3–5.4 M). Although enhanced in vitro rooting was obtained on media containing 5.4 M naphtaleneacetic acid, reducing the auxin concentration to 1.3 M during the in vitro rooting stage improved acclimatisation frequency and further plant growth in a horticultural substrate.     

Micropropagation of Cunila galioides,a popular medicinal plant of south Brazil

Axillary buds of field plants of Cunila galioides Benth. were used to evaluate the effect of growth regulators and culture media on the in vitro shoot proliferation and growing. The highest multiplication rate was obtained using Murashige and Skoog (MS) medium supplemented with 8.8 M of benzyladenine. Repeated subcultures of shoot tips and single nodes at 4-week intervals for eight months on the above medium enabled mass multiplication of shoots without any evidence of decline. The best conditions for rooting were MS medium plus 0.5 to 2.5 M of indolebutyric acid. The rooted plants were successfully transferred to soil, exhibiting a normal development.     

In vitro micropropagation of Acacia nilotica subsp. indica Brenan via cotyledonary nodes

Cotyledonary node explants of Acacia nilotica subspecies indica Brenan, differentiated multiple shoots on Gamborg et al.' s medium (B₅, Gamborg et al. 1968) supplemented with cytokinins like N⁶-benzyladenine, 6-(, -Dimethylallylamino)-purine, kinetin or zeatin. Of the four, BA supported maximum multiple shoot differentiation; the highest average number of shoots (6.3) per expiant was in 1.5 mg/l. The number of shoots was further enhanced by (i) using nodal explants of in vitro regenerated shoots as microcuttings, and (ii) repeated subculture of the original expiants (stumps) on the same medium after excising the shoots. Thus, over seven hundred shoots could be obtained from a single cotyledonary node explant. Individual shoots, when transferred to 2 mg/l indole-3-acetic acid augmented medium organised healthy roots in 100% cultures. Such test tube grown plantlets have been successfully transferred to soil, where they grow well up to eight weeks.Abbreviations 2iP 6-(, -Dimethylallylamino)-purine - AC activated charcoal - B₅ Gamborg et al. 's medium with 0.8% agar + 3 % sucrose - BA,N⁶ benzyladenine - CW coconut water - FAA formalin-aceticacid-alcohol - IAA indole-3-acetic acid - IBA indole-3-butyric acid - Kn kinetin - NAA -naphthaleneacetic acid - NOA -naphthoxyacetic acid     

Direct plant regeneration from leaf explants of Plumbago species

Direct plant regeneration was achieved from leaf explants of Plumbago rosea and Plumbago zeylanica on Murashige and Skoog (MS) medium supplemented with 6.7 M 6-benzylaminopurine (BA), 1.4 M indole-3-acetic acid (IAA), 370 M adenine sulfate (Ads) and 3% (w/v) sucrose. The shoot initials developed within 2–3 weeks on the leaf margin as well as from the cut surface of the leaf. High frequency shoot-bud regeneration was achieved on similar medium in subsequent subcultures. The semi-mature leaves produced more shoot-buds as compared to the younger leaves. Mature leaves did not show any response for shoot bud initiation. More than 85% of the semi-mature explants produced shoot-buds per leaf explant within 4 weeks of culture. Shoots rooted on half-strength basal MS medium supplemented with 1.2 M indole-3-butyric acid (IBA) and 2% (w/v) sucrose; approximately 90% of the in vitro raised plantlets survived in the greenhouse. The regenerated plantlets looked morphologically similar to the mother plants. This protocol might be useful for genetic improvement programs.     

In vitro branching in relation to repeated subculture in two cultivars of Potentilla fruticosa

The in vitro branching pattern of two ornamental cultivars of Potentilla fruticosa L. was analyzed quantitatively with respect to repeated subculture. In both cultivars, in vitro multiplication occurred predominately by axillary branching. There was little callus and few adventitious shoots were produced. In the more vigorous cultivar, Snowbird, there were up to 5 orders of branching. In the other cultivar, Pink Whisper, there were rarely more than 3 orders of branching. In both cultivars, apical dominance was weak in vitro and all but the youngest axillary buds were released. Differences in branching appeared to be related to the degree of apical control of lateral shoot growth. In Snowbird, where control was weak, lateral branches grew vigorously producing several bud sites for higher order branching. For both cultivars, shoot multiplication was at its maximum at the beginning of the experiment and then declined to a more or less steady level. These patterns indicated that apical control was weakest at the beginning of the experiment and then increased during repeated subculture. Nevertheless, in Snowbird, there was evidence of a gradual increase in multiplication rate toward the end of the experiment.Contribution no. 908.     

High frequency of shoot multiplication and bulblet formation of garlic in liquid cultures

In vitro shoot proliferation and bulblet production of garlic (Allium sativum L.) was studied in liquid cultures. Shoots grown in vitro were used as explants and were cultured in MS medium supplemented with 2% (w/v) sucrose and 0.5 mg l^–1 2-iP. Three culture methods (semi-solid, liquid-immersion and raft) were compared for shoot proliferation. Explants in liquid (immersion) culture exhibited an increased multiplication rate and fresh weight of shoots after 3 weeks of culture as compared with the other treatments. Bulblet formation and growth were studied in liquid medium with different concentrations of sucrose (2–13%). MS medium containing 11% (w/v) sucrose was optimal for bulblet development and bulblets developed in this medium within 9 weeks in culture. The highest multiplication rate was (135 bulblets/explant) found when explants were cultured in bulbing medium (MS medium containing 0.1 mg l^–1 NAA+11% (w/v) sucrose) supplemented with 10 M JA. Growth retardants CCC, B-9, ABA also promoted induction and growth of bulblets. Darkness promoted the bulblet induction and growth compared to light conditions (16-h photoperiod of 50 mol m^–2 s^–1). The dormancy of bulblets was broken by cold treatment at 4 °C for 8 weeks.     

Micropropagation of Bauhinia variegata and Parkinsonia aculeata from nodal explants of mature trees

In vitro propagation protocols were established for two leguminous trees, Bauhinia variegata and Parkinsonia aculeata. In each case axillary shoot proliferation was achieved from nodal explants from mature (6-2-8 years) trees using Murashige & Skoog's medium supplemented with 2.22–31.1 M of 6-benzyladenine. Subsequent rooting of the regenerated shoots was achieved on medium containing 2.46–14.8 M of indole-3-butyric acid. Successful transfer of the regenerants to soil has been accomplished.     

Micropropagation of Tamarix gallica from nodal explants of mature trees

Tamarix gallica L. was micropropagated from four-to six-node explants taken from mature trees. Shoot proliferation was induced on Linsmaier and Skoog medium containing 30 g l^-1 sucrose, 7 g l^-1 agar, 200 mg l^-1 reduced glutathione (basal medium) and supplemented with 3.3 M benzyladenine. Adding 0.5 or 1.0 M indole-3-butyric acid (IBA) to the basal medium increased lateral shoot formation and ease of rooting. Microcuttings repeatedly subcultured on 1.0 M IBA produced well-developed roots, a high number of axillary shoots and could be acclimatized in the greenhouse.     

Factors influencing the production of hardened glaucous carnation plantlets in vitro

Medium type, its water status and the relative humidity in the culture vessel modified carnation leaf development in vitro. Carnation shoot apices cultured on liquid or on 0.8% agar solidified media developed into plantlets having succulent and translucent leaves which are not transplantable to non-aseptic conditions. Increasing the agar and/or sucrose concentration in the medium as well as decreasing the relative humidity in the culture vessel by a desiccant promoted glaucous leaf production. Increased water status (H₂O and relative humidity) increased shoot proliferation and translucency of leaves. Decreased water status reduced shoot proliferation but induced the formation of glaucous leaves. The culture of apices for 5–6 days on liquid medium prior to their sub-culture to 1.5% agar medium improved shoot proliferation and normal leaf development. An agar slant prevented the submergence of apices in water accumulating on the medium and thus reduced leaf translucency. Survival was further increased by the transfer of plantlets in uncapped culture vessels to a desiccator for 1–2 weeks prior to transplanting to soil.     

Morphological Alterations in Sterile Mutant of Pisum Sativum Obtained Via Somatic Embryogenesis

A sterile mutant of pea (Pisum sativum L. line HM-6) with a number of morphological alterations was found after plant regeneration via somatic embryogenesis. Embryogenic callus was derived from the whole immature zygotic embryo on medium with 2.26 M 2,4-dichlorophenoxyacetic acid. Morphological changes included altered leaflet shape, one pair of leaflets only, altered stipule morphology, shortened internodia, irregular or opposite leaf position on the stem, shortened flower stalk, and aborted flowers resulting in complete sterility. If the isolation of the shoot apex and axillary buds from evidently sterile plant and their culture in vitro resulted in morphologically normal and fertile regenerated plants, the chimaeric nature of R₀ mutant is considered.     

Influence of carbon source and concentration on the in vitro development of olive zygotic embryos and explants raised from them

The influence of sucrose or mannitol on in vitro zygotic embryo germination, seedling development and explant propagation of olive tree (Olea europaea L.) was compared. Embryos germinated without sucrose in the medium but for adequate development of the seedlings to yield viable plants, a carbohydrate supply was necessary; both sucrose and mannitol were equally suitable for this purpose. However, when explants obtained from in vitro germinated embryos were cultured with mannitol or sucrose, then the polyalcohol promoted significantly more growth than sucrose by increasing shoot length, pairs of leaves formed, and breaking apical dominance. This improved the in vitro culture of olive plant material, thus allowing new olive clonal lines to be obtained in shorter times. This will assist in future breeding experiments with the species.     

<Emphasis Type="Italic">In vitro</Emphasis> micropropagation of endangered <Emphasis Type="Italic"> Rhododendron ponticum</Emphasis> L. subsp. <Emphasis Type="Italic">baeticum</Emphasis> (Boissier &; Reuter) Handel-Mazzetti

In vitro propagation of Rhododendron ponticum L. subsp. baeticum, an endangered species present in limited and vulnerable populations as a Tertiary relict in the southern Iberian Peninsula, was attained. Several cytokinin:IAA ratios and a range of zeatin concentrations were evaluated for their effect on shoot multiplication from apical shoots and nodal segments. The type of cytokinin and the origin of the explant were the most important factors affecting shoot multiplication. The highest shoot multiplication rate was obtained from single-nodal explants on medium supplemented with zeatin. Increasing zeatin concentration promotes shoot multiplication independently of explant type, although this effect tends to decrease with higher zeatin concentration. Shoot growth was higher in apical shoots and it was not stimulated by the presence of auxin. A number of experiments were conducted to identify suitable procedures for rooting of in vitro produced shoots. The best results in terms of in vitro rooting were obtained with Andersons modified medium with macrosalts reduced to one-half, regardless of the auxin or its concentration in the medium. Although rooting frequency rose to 97% by basal immersion of shoots in auxin concentrated solution followed by in vitro culture on an auxin-free medium, the survival of the plants after 6 months of acclimatization was poor (50%). Best results (100% rooting and survival) were observed for ex vitro rooting. The micropropagated plants from this study were successfully reintroduced into their natural habitat (87% of survival after 8 months).     

A survey of the response of Rhododendron to in vitro culture

The responses of 7 genotypes of Rhodendron to culture conditions and their establishment as shoot cultures are described. The genotypes represent a broad genetic diversity in the genus. After sterilization and an acclimation period of 3 to 12 months, all the selections were established as shoot cultures on Woody Plant Medium (WPM) supplemented with N⁶(-²-isopenteny) adenine (2iP). Plants with strong episodic growth cycles required the longer acclimation periods. Utilizing shoots from these cultures, the response to a cytokinin series of 0 to 32 M 2iP or BAP (6-Benzylaminopurine) was analyzed. BAP proved toxic to all but the elipidote and lepidote rhododendrons (R. mucronulatum, R. x Boule de Neige, and R. x PJM); however, even with these selections, 2iP stimulated greater shoot multiplication rates. The optimum 2iP level for shoot multiplication varied little with the genotype and levels of 4 to 16 M generally proved optimal, depending on the specific selection. Adventitious shoot production was observed in 3 selections (R. canadense, R. x Boule de Neige and R. x PJM), but only at 2iP levels above 8 M. Shoot multiplication rates of 7 to 21 times were observed, depending on the selection. Using an average utilizable shoot production rate of 40 shoots per culture per 6 week subculture period, some 75,000 shoots can be generated per square meter of culture space per year. The harvested shoots (microcuttings) rooted readily out-of-culture and the resultant plants grew like seedlings.     

Antifungal activities of origanum oil against Candida albicans

The antimicrobial properties of volatile aromatic oils from medicinal as well as other edible plants has been recognized since antiquity. Origanum oil, which is used as a food flavoring agent, possesses a broad spectrum of in vitro antimicrobial activities attributed to the high content of phenolic derivatives such as carvacrol and thymol. In the present study, antifungal properties of origanum oil were examined both in vitro and in vivo. Using Candida albicans in broth cultures and a micro dilution method, comparative efficacy of origanum oil, carvacrol, nystatin and amphotericin B were examined in vitro. Origanum oil at 0.25 mg/ml was found to completely inhibit the growth of C. albicans in culture. Growth inhibitions of 75% and >50% were observed at 0.125 mg/ml and 0.0625 mg/ml level, respectively. In addition, both the germination and the mycelial growth of C. albicans were found to be inhibited by origanum oil and carvacrol in a dose-dependent manner. Furthermore, the therapeutic efficacy of origanum oil was examined in an experimental murine systemic candidiasis model. Groups of mice (n = 6) infected with C. albicans (5 × LD₅₀) were fed varying amounts of origanum oil in a final vol. of 0.1 ml of olive oil (vehicle). The daily administration of 8.6 mg of origanum oil in 100 l of olive oil/kg body weight for 30 days resulted in 80% survivability, with no renal burden of C. albicans as opposed to the group of mice fed olive oil alone, who died within 10 days. Similar results were obtained with carvacrol. However, mice fed origanum oil exhibited cosmetically better clinical appearance compared to those cured with carvacrol. The results from our study encourage examination of the efficacy of origanum oil in other forms of systemic and superficial fungal infections and exploration of its broad spectrum effect against other pathogenic manifestations including malignancy.