The present study describes the plant propagation via indirect organogenesis from in vitro derived leaf and internode explants of Plectranthus bourneae, an endemic plant to south India. Leaf and internodal explants successfully callused on Murashige and Skoog medium (MS) supplemented with different concentrations of auxins [2,4-D (2, 4-dichlorophenoxyacetic acid), NAA (α-naphthalene acetic acid), IAA (indole-3 acetic acid), IBA (indole-3-butyric acid) and PIC (Picloram); 0.1-2.0 mg/l] in combination with BA (6-benzyladenine) (0.5 mg/l). Maximum callus induction (98 %) was achieved from leaf explant followed by internodal explant (89 %) at 1.0 mg/l NAA, 0.5 mg/l BA. Leaf derived callus showed better shoot regeneration (29.71 shoots) on MS medium containing 1.0 mg/l KN (kinetin), 0.7 mg/l NAA, and 50 mg/l CH (casein hydrolysate) followed by internodal callus (19.71). A maximum of 19.14 roots/shoot was observed at 1.0 mg/l IBA. The rooted plantlets were successfully hardened and transferred to greenhouse condition with 80 % survival. This system could be utilized for large-scale multiplication of P. bourneae by tissue culture.
An efficient protocol of in vitro propagation of Plectranthus bourneae Gamble (Lamiaceae), a valuable medicinal important and endemic Red listed plant of Western Ghats, (Tamil Nadu, India) was standardized by improved shoot multiplication from axillary bud explant. An in vitro propagation system has been reconnoitered on MS with the effective concentration BA (0.7 mg/l) followed by a combination of BA (0.7 mg/l) and TDZ (1.0 mg/l) which promoted high number of shoots. The multiple shoot rate was enhanced further by adding AdS (50 mg/l). Beneficial shoot length was achieved when cultured on MS containing GA3 (0.5 mg/l). Rooting was increased on MS augmented with IBA (1.5 mg/l). Micropropagated plants were acclimatized and the survival rate was 80%. Acclimatized P. bourneae plants can be used as substitute alternative to natural populations. Using this protocol the propagated plants can be used for conservation strategies.Plant Tissue Cult. & Biotech. 25(2): 273-284, 2015 (December)
Objective: The present investigation focuses on the use of Cardiospermum halicacabum L. in their phytochemical and biological activities.
Methods: In this study, in vivo stem and in vitro callus ethanolic extracts of C. halicacabum were tested for their phytochemical attributes by qualitative method, Fourier transform infrared (FTIR), antioxidant, antibacterial, and bioactive compound properties. The bactericidal activity of the in vivo stem and in vitro callus extract has been evaluated in both Gram+ve and Gram-ve microorganisms using the disk diffusion method.
Results: The highest frequency (78%) of well developed, dark green organogenic callus was induced from stem explant on Murashige and Skoog (MS) medium supplemented with 0.7 mg/l 2,4-Dichlorophenoxyacetic acid (2, 4-D) and 0.5 mg/l benzyl adenine (BA). The results of FTIR spectra confirmed the presence of functional groups in wild stem and in vitro callus extract of C. halicacabum with various peaks. The total phenolic content in ethanolic extract of in vivo plant and in vitro callus was 80.46 mg gallic acid equivalent (GAE)/g dry weight and 76.4 mg GAE/g dry weight, respectively. The highest percentage of tannins was measured at 78.03 in wild stem ethanol extracts followed by 75.22 in callus extract. The antioxidant activity of 2,2-diphenyl-2- picrylhydrazyl (DPPH) ethanol extract was found to be 206.54 μg/ml. IC50 values of the stem extracts of C. halicacabum are 306 μg/ml and 286 μg/ml in callus extract, respectively. Antibacterial activity of the ethanol extract was higher for Staphylococcus aureus (S. aureus) with a 17 mm zone of inhibition.
Conclusion: The present investigation recommended that the callus ethanolic extract function as a good source of biologically active compounds and natural antioxidants.
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