Abstract
Habitat destruction and over-harvesting have resulted in the gradual
disappearance of many medicinally important plants from their natural habitat. At
present, their number is highly reduced in the wild. To conserve the genetic stocks of
such plants, in vitro propagation can be utilized successfully. One such medicinally
important plant that needs to be conserved is Pseudarthria viscida (L.) Wight & Arn. It
is a perennial viscid pubescent semi-erect, diffuse undershrub belonging to the family
Fabaceae. It is an essential component of many famous Ayurvedic formulations like
Dashamoola, Mahanarayana taila, and Dhantara taila. The root is the most important
part of the plant with high medicinal value. Major chemical compounds reported to be
present in the roots are 1,5 dicaffeoyl quinic acid, oleic acid, tetradecanoic acid, rutin,
quercetin, gallic acid, ferulic acid, and caffeic acid. The present study focused on in
vitro regeneration and mass propagation of P. viscida. Fresh young leaves, nodes, and
internodal segments were used as explants. Murashige and Skoog medium (MS
medium), Gamborg’s (B5
) medium, and White’s mediums were selected for in vitro
regeneration and mass propagation. Among the various media used, the MS medium
gave a successful result in in vitro culture by showing a response within four weeks,
and the percentage of response was also high compared to B5
and White’s medium. The
leafy explant was found to be more suitable for profuse callus induction, somatic
embryogenesis, and indirect organogenesis than that of internodal and nodal explants,
whereas nodal explant was best for direct organogenesis in P. viscida. Of the different
combinations tried, NAA (Naphthalene acetic acid) + BAP (6-Benzyl aminopurine)
combinations were best for callus induction, somatic embryogenesis and indirect
organogenesis. 2.5 mg/L BAP was best for shoot induction from nodal explants,
whereas 2.5 mg/L NAA was best for root induction from in vitro regenerated micro
shoots as explants. Well-developed plantlets were transferred to greenhouse and later to
natural conditions. This study thus reports an efficient protocol for plant regeneration,
and this could be vital for the multiplication and field transfer of this ethnomedicinal
plant. Based on the ethnomedicinal potential, there is an urgent need for organized
cultivation of this vulnerable plant for its conservation and sustainable utilization.