Efficient in Vitro Plant Regeneration Through Leaf Base Derived Callus Cultures of Abiotic Stress Sensitive Popular Asian indica Rice Cultivar Ir 64 (oryza Sativa L.)

• Published in: Acta biologica Hungarica Vol. 62; no. 4; pp. 441 - 452
• Main Authors: Mohana Priya, A., Pandian, Priya S. Karutha, Ramesh, M.
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 01.12.2011
• Subjects: 2,4-Dichlorophenoxyacetic Acid - pharmacology; Cell Biology; Culture Media; Ecotoxicology; Kinetin - pharmacology; Life Sciences; Neurobiology; Oryza - classification; Oryza - drug effects; Oryza - physiology; Plant Leaves - drug effects; Plant Sciences; Plant Shoots - drug effects; Plant Shoots - growth & development; Regeneration; Stress, Physiological; Tissue Culture Techniques; Zoology; leaf base; embryogenic callus; 2,4-D; regeneration
• ISSN: 0236-5383; 1588-256X
• DOI: 10.1556/ABiol.62.2011.4.9

A simple and efficient protocol has been developed for high frequency plant regeneration through callus cultures derived from leaf bases of abiotic stress sensitive Asian indica rice variety IR 64. Leaf base segments (4–5 mm diameter) were obtained from 6-day-old dark grown seedlings germinated on halfstrength Murashige and Skoog medium and cultured on MS medium supplemented with different concentrations of 2,4-Dichlorophenoxyacetic acid (2.2–18 μM) and Kinetin (0.2–1.7 μM). Among the various combinations, 13.5 μM 2,4-D and 1.3 μM Kn resulted in high callus induction frequency (87.5%) with a maximum fresh weight of 0.22 g per segment. The regeneration frequency was 75.5% with multiple shoots within 3 weeks of transfer on MS medium supplemented with 13.3 μM 6-benzylamino purine and 8 μM Naphthaleneacetic acid. The shoots readily rooted on half-strength MS medium without any hormonal supplements. In vitro regenerated plantlets with multiple shoots and roots were transferred to sterile soil and vermiculite mix and maintained in shade house for 30 days. Complete plantlets were then transferred to nursery and acclimatized to the external environment until seed set. RAPD profile reveals monomorphism and thus confirming the genetic stability of the regenerated plants. This method has the potential for both direct as well as indirect method of transformation for the production of genetically modified plants.