Sulekha Hazra

Effect of TDZ and 2, 4-D on peanut somatic embryogenesis and in vitro bud development

Failure of peanut somatic embryos to convert into plantlets is attributed to the abnormal development of the plumule. Thidiazuron (TDZ) was effective in the conversion of peanut somatic embryos to plantlets by triggering morphogenetic activity in the abnormal plumules of the rooted somatic embryos. The present study aimed to induce normal embryo differentiation by culturing the embryogenic masses in embryo development medium containing 2,4-D and various concentrations of TDZ. Although this was not achieved due to restricted somatic embryo development in the presence of TDZ, bud-like projections appeared in the embryogenic masses when these were cultured in media containing combinations of 2,4-D and TDZ. These projections developed into buds, which subsequently formed shoots and plantlets. The response varied with the concentration and exposure of TDZ. At lower concentrations, the buds appeared in a defined row in the equatorial region of the explant, and with extended incubation, more and more buds appeared in rows alongside the initial row. Induction of multiple buds in a defined row in this specific site (equatorial region) suggested the presence of potent cells around this region. At higher concentrations, these projections appeared in large numbers spread over the whole upper part of the embryogenic mass starting from the equatorial region. The ability of embryogenic mass to convert into organogenic mass and to produce large number of organogenic buds provides an excellent system for basic studies and for the genetic transformation of peanut.

Effect of thidiazuron in germinating tamarind seedlings

SummaryTamarind, a multipurpose tropical tree species, is economically important for sustainable development of wasteland due to its hardy nature and adaptability to various agroclimatic ocnditions. Reports on in vitro morphogenesis in this species are limited, due to its recalcitrant and callogenic nature. To overcome these limitations, an attempt was made to induce meristematic activity in seedling explants. Seedlings were germinated in medium with or without thidiazuron (4.54, 9.08, 13.12, 18.16 μM). This growth regulator restricted the differentiation of the apical meristem to form shoots. It triggered proliferation of the meristematic tissue at the cotyledonary node and a large number of meristematic buds appeared in a ridial pattern around the node. The meristematic activity extended to the junction of the epicotyl and hypocotyl, giving rise to buds in the form of protuberances in all sides of the junction. These buds differentiated to form shoot primordia and subsequently to shoots in medium devoid of growth regulators. Plants developed by micrografting of these shoots on seedling-derived rootstocks survived in soil.

INFLUENCE OF EXPLANTS, GENOTYPES AND CULTURE VESSELS ON SPROUTING AND PROLIFERATION OF PRE-EXISTING MERISTEMS OF COTTON (GOSSYPIUM HIRSUTUM L. AND GOSSYPIUM ARBOREUM L.)

SummaryA simple and efficient method for multiple shoot induction and proliferation was achieved in six Indian cotton cultivars from the pre-existing meristems of 21-d-old in vitro-grown seedlings. Combinations of naphthalene acetic acid (0.3–10.7 μM) and 6-benzylaminopurine (BA; 2.2 or 4.4 μM) were used for induction of shoots. The shoots proliferated and were maintained on MS (Murashige and Skoog) medium supplemented with 4.4 μM BA. Simultaneous elongation of shoots was obtained in the same medium. Optimum multiplication was observed in cv. LRK-516 (19.7±4.6), in cotyledonary nodes isolated from the adjoining node and cultured individually in 250 ml flasks. This indicates lateral inhibition of adjoining meristems. A positive influence of culture flasks as opposed to test tubes on the proliferation of multiple shoots was observed in all six cultivars tested. The morphogenic response varied with genotype and the nature of explants. Rooting of elongated shoots was achieved on MS medium devoid of growth regulators. The plantlets were transferred to the field after hardening in the greenhouse. All plants flowered and formed bolls on maturity.

Synthesis of gold nanoparticles by various leaf fractions of Semecarpus anacardium L. tree

Gold nanoparticles (NPs) were synthesized using Semecarpus anacardium leaf extracts in water and the green biomass. Extract prepared at ambient condition by crushing the leaves in deionized water is identified as ‘green extract’, and that by boiling the leaf pieces as ‘boiled extract’. The mass remaining after separating the ‘green extract’ is identified as ‘green biomass’. These components triggered rapid reduction of Au(III) to Au (0) in HAuCl4 solution indicating the natural ability of the leaves of S. anacardium to synthesize NPs in ambient conditions. Green extract produced more NPs compared to the boiled extract suggesting denaturization of some of the useful factors due to boiling. NPs were quantified using UV and ICP-AES analysis. These were characterized using Transmission electron microscopy, Fourier transform infrared spectroscopy and X-ray diffraction. TEM images of the particles formed with green extract, boiled extract and green biomass showed that the particles were of different shapes and sizes.

USE OF GREEN FLUORESCENT PROTEIN AS A NON-DESTRUCTIVE MARKER FOR PEANUT GENETIC TRANSFORMATION

SummaryThe ability to non-destructively visualize transient and stable gene expression has made green fluorescent protein (GFP) a most efficient reporter gene for routine plant transformation studies. We have assessed two fluorescent protein mutants, enhanced GFP (EGFP) and enhanced yellow fluorescent protein (EYFP), under the control of the CaMV35S promoter, for their transient expression efficiencies after particle bombardment of embryogenic cultures of the peanut cultivar, Georgia Green. A third construct (p524EGFP.1) that expressed EGFP from a double 35S promoter with an AMV enhancer sequence also was compared. The brightest and most dense fluorescent signals observed during transient expression were from p524EGFP. 1 and EYFP. Optimized bombardment conditions consisted of 0.6 μm diameter gold particles, 12410 kPa bombardment pressure, 95 kPa vacuum pressure, and pretreatment with 0.4 M mannitol. Bombardments with p524EGFP.1 produced tissue sectors expressing GFP that could be visually selected under the fluorescence microscope over multiple subcultures. Embryogenic lines selected for GFP expression initially may have been chimeric since quantitative analysis of expression sometimes showed an increase when GFP-expressing lines, that also contained a hygromycin-resistance gene, subsequently were cultured on hygromycin. Transformed peanut plants expressing GFP were obtained from lines selected either visually or on hygromycin. Integration of the gfp gene in the genomic DNA of regenerated plants was confirmed by Southern blot hybridization and transmission to progeny.

THIDIAZURON-INDUCED MORPHOGENESIS IN TAMARIND SEEDLINGS

SummaryGermination of tamarind seeds in medium containing thidiazuron (TDZ) resulted in induction of nodular protrusions in and around the cotyledonary node meristem. The structures developed radially in well-defined circles and subsequently spread towards the cotyledonary bridge and also in the proximal part of the hypocotyl. The structures developed into shoots on transfer to medium devoid of growth regulators. Histological studies revealed that the protrusions initiated from the nodal meristem and extended to the non-meristematic region between the two meristems and also in the proximal part of the hypocotyl in seedlings germinated in 9.08 μM TDZ. Newly formed cell layers and less-differentiated meristematic protrusions were also seen. With the increase in the distance from the meristem, the buds were less differentiated; in the proximal part of the hypocotyl only the multiple layers of meristematic cells were noted. With extension of the period of incubation, the TDZ-induced meristematic activity extended laterally in circles towards the neighboring region. The radial spread of the meristematic activity from the center of the nodal meristem was also evident at 18.16 μM TDZ. From the pattern of the morphogenic development and the histological studies it may be hypothesized that in tamarind, TDZ influences the existing meristems specifically. Subsequently de novo organogenesis is triggered in the neighboring cells.

Induction of multiple shoots and plant regeneration from 'accessory buds' of nodal segments from field-grown mature cotton plants (Gossypium hirsutum L.)

SummarySprouting of a single shoot was obtained from nodal segments of field-grown cotton plants (Gossypium hirsutum L. cv. DCH-32 and NHH-44) when cultured on Murashige and Skoogs (MS) basal medium devoid of plant growth regulators. Pruning of the sprouted shoot followed by re-culturing of the explant on MS basal medium supplemented with 2.22 μM benzylaminopurine triggered the dormant ‘accessory buds’ present in the node to proliferate and differentiate into multiple shoots. The shoots elongated on the same medium and rooted on MS basal medium devoid of growth regulators. Plantlets were hardened under greenhouse conditions and transferred to the field. Flowering and boll formation were observed in these plants at maturity. This technique for successful clonal propagation from mature cotton tissues should permit the rapid multiplication of plants selected based on specific phenotypic or genotypic characteristics.