Influence of exogenous polyamines on somatic embryogenesis and regeneration of fresh and long-term cultures of three elite indica rice cultivars

The influence of putrescine (Put), spermidine (Spd), and spermine (Spm) on somatic embryogenesis (SE) and plant regeneration of three indica rice cultivars (ASD16, IR64, and ADT43) were evaluated since polyamines (PAs) are reported to play vital roles in SE and plant regeneration. Significant increases in the regeneration potential of the rice cultivars upon polyamine treatments were observed. Put (1.0 mM) induced the highest regeneration frequencies, somatic embryos, and shoot numbers. PAs influenced the fresh weights of the suspension cultures. Spd was found to be detrimental to cultivar ADT43 towards embryogeneicity, regeneration, and somatic embryo induction. Among the cultivars, ASD16 was found to respond superiorly to the polyamine treatment. Experiments with long-term cultures of the rice revealed that Put and Spm enhanced the regeneration potential, and the highest frequencies were recorded for ASD16 and IR64. Results indicate that PAs can be effectively used as growth modulators to achieve success in in vitro tissue and genetic manipulation studies with elite recalcitrant indica rice cultivars

Evaluation of different carbon sources for high frequency callus culture with reduced phenolic secretion in cotton (Gossypium hirsutum L.) cv. SVPR-2

AbstractAn efficient protocol was developed to control excessive phenolic compound secretion during callus culture of cotton. As cotton is naturally rich in phenolic compounds factors influencing the phenolic compound secretion, callus induction and proliferation were optimized for getting high frequency callus culture. Different carbon sources such as fructose, glucose, sucrose and maltose were tested at various concentrations to control phenolic secretion in callus culture. Among them, 3% maltose was found to be the best carbon source for effectively controlling phenolic secretion in callus induction medium. High frequency of callus induction was obtained on MSB5 medium supplemented with 3% Maltose, 2,4-D (0.90μM) and Kinetin (4.60μM) from both cotyledon and hypocotyl explants. The best result of callus induction was obtained with hypocotyl explant (94.90%) followed by cotyledon explant (85.20%). MSB5 medium supplemented with 2,4-D (0.45μM) along with 2iP (2.95μM) gave tremendous proliferation of callus with high percentage of response. Varying degrees of colors and textures of callus were observed under different hormone treatments. The present study offers a solution for controlling phenolic secretion in cotton callus culture by adjusting carbon sources without adding any additives and evaluates the manipulation of plant growth regulators for efficient callus culture of SVPR-2 cotton cultivar