High Frequency Direct Organogenesis, Genetic Homogeneity, Chemical Characterization and Leaf Ultra-Structural Study of Regenerants in <i>Diplocyclos palmatus</i> (L.) C. Jeffrey
<i>Diplocyclos palmatus</i> (L.) C. Jeffrey, commonly referred to as “Shivalingi” or “Lollipop climber” is a valuable medicinal plant with a climbing growth habit used in traditional medicine. It is reputed to have antiarthritic, anti-diabetic properties and to be useful in various skin...
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Formato: | article |
Lenguaje: | EN |
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MDPI AG
2021
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Materias: | |
Acceso en línea: | https://doaj.org/article/156a4e7873d041c386bfc4e701e5c8c7 |
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Sumario: | <i>Diplocyclos palmatus</i> (L.) C. Jeffrey, commonly referred to as “Shivalingi” or “Lollipop climber” is a valuable medicinal plant with a climbing growth habit used in traditional medicine. It is reputed to have antiarthritic, anti-diabetic properties and to be useful in various skin and reproductive problems. Overexploitation of wild plants and low seed germination have resulted in the decline of the species in the wild. Thus, the present investigation was aimed to establish an effective in vitro propagation procedure for its large-scale production and conservation. Nodal explants, obtained from an established mother plant were grown on MS basal medium augmented with various cytokinins, alone or in combination with auxins, to study the morphogenic response. A maximum of 8.3 shoots/explants with an average shoot length of 7.2 cm were produced after six weeks on MS containing benzylaminopurine 5.0 µM + 1-naphthaleneacetic acid 2.0 µM. After 4 weeks of transfer, microshoots rooted well on a low nutrient medium of ½ MS + 1.0 µM indole-3-butyric acid, with a maximum of 11.0 roots/microshoot and an average root length of 7.4 cm. With an 80% survival rate, the regenerated plantlets were effectively acclimatized to natural conditions. DNA-based molecular markers were used to investigate the genetic uniformity. Scanning Electron Microscopic examination of leaves indicated the adaptation of the plantlets to natural, as evidenced by the formation of normal stomata. Gas chromatography-mass spectrometry analyses of mother and micropropagated plants were performed to identify essential secondary metabolites. The results obtained show that the in vitro propagation system can be adopted for preservation, large-scale production and secondary metabolites’ production in <i>D. palmatus</i>. |
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