In-vitro callus regeneration and rhizogenesis in Diploknema butyracea: a valuable tree borne oilseed
Journal Title: Indian Journal of Research in Pharmacy and Biotechnology - Year 2017, Vol 5, Issue 3
Abstract
In-vitro callus regeneration and rhizogenesis is achieved from leaf segments of mature tree of Diploknema butyracea (Roxb.) Lam. Explants sterilization was standardized using 0.1% HgCl2 for 3 minutes and NaOCl (40%) for 5 minutes. High frequency callus was regenerated in MS medium with 4.44 µM BAP + 2.26 µM 2, 4-D. Maximum rhizogenesis was recorded in MS medium with 4.44 µM BAP + 1.14 µM IAA + 0.58 µM GA3. Callus culture failed to produce shoot in all tried combination of PGRs in MS medium.
Authors and Affiliations
Arti Kunwar and Ajay Thakur
Design and Development of Ramipril Transdermal Patch For Treating Hypertension
A good Transdermal patch containing can be formulated by solvent casting technique using as film former and propylene glycol as plasticizer such Transdermal patches are advantages in providing effective treatment for H...
The neohydrodynamic theory of dentinal hypersensitivity
The neohydrodynamic theory of dentinal hypersensitivity is to reveal the real mechanism behind the dentinal hypersensitivity. The hydrodynamic theory proposed by Branstrom will support only under pathological condition...
Formulation and evaluation of colon targeted Aceclofenac tablets
Aceclofenac colon targeted tablets were prepared by using natural polymers like guar gum and Locust bean gum. Matrix core tablets were prepared by using various concentrations of polymers. The core tablets were coated...
Nanotechnology applications in agriculture and food technology
Nanomaterials are cornerstones of nanoscience and nanotechnology. Nanostructure science and technology is a broad and interdisciplinary area of research and development activity that has been growing explosively worldw...
Toxicity and Environmental Risks of Nanomaterials: Challenges and Future Needs
Nanotechnology has gained a great interest due to the needs and applications of nanomaterials in many areas including agriculture, industry, medicine business and public health. The increase in the use of nanomaterials...