Indirect Regeneration and Somatic Embryogenesis from Leaf and Stem Explants of Crassula ovata (Mill.) Druce – An Ornamental Medicinal Plant

This research aims to investigate callus induction,
somatic embryogenesis and indirect plant regeneration of Crassula
ovata (Mill.) Druce – the famous ornamental plant. Experiment no.1:
Callus induction was obtained from leaf and stem explants on
Murashige and Skoog (MS) medium supplemented with various plant
growth regulators (PGRs). Effects of different PGRs, plant
regeneration and subsequent plantlet conversion were also assessed.
Indirect plant regeneration was achieved from the callus of stem
explants by the addition of 1.5 mg/L Kinetin (KN) alone. Best shoot
induction was achieved (6.5 shoots/per explant) after 60 days. For
successful rooting, regenerated plantlets were sub-cultured on the
same MS media supplemented with 1.5 mg/L KN alone. The rooted
plantlets were acclimatized and the survival rate was 90%.
Experiment no.2: Results revealed that 0.5 mg/L 2,4-D alone and in
combination with 1.0 mg/L 6-Benzyladenine (BA) gave 89.8% callus
from the stem explants as compared to leaf explants. Callus
proliferation and somatic embryo formation were also evaluated by
‘Double Staining Method’ and different stages of somatic
embryogenesis were revealed by scanning electron microscope. Full
Strength MS medium produced the highest number (49.6%) of
cotyledonary stage somatic embryos (SEs). Mature cotyledonary
stage SEs developed into plantlets after 12 weeks of culture. Wellrooted
plantlets were successfully acclimatized at the survival rate of
85%. Indirectly regenerated plants did not show any detectable
variation in morphological and growth characteristics when
compared with the donor plant.

• A. B. A. Ahmed
• Amar
• D. I.
• R. M. Taha

• Callus induction
• Crassula ovata
• Double Staining
• Indirect plant regeneration
• Somatic embryogenesis.

[1] WHO/Acadia, Rapport de la Journe Internationale de, diabetes, 1992, 14
Octobre.
[2] H. Lucy, and J. D. Edgar, “Medicinal Plants: a re-emerging Health aid”
Plant Biotechnology, 2, 1999, 3-8.
[3] A. B. A. Ahmed, A. S. Rao, M. V. Rao, and R. M. Taha, “Effect of
picloram, additives and plant growth regulators on somatic
embryogenesis of Phyla nodiflora”, Brazilian Archives Biology and
Technology, 54, 2011, 7-13.
[4] T. Murashige, and F. A. Skoog, “Revised media for rapid growth and
bioassay with tobacco tissue cultures”, Physiology plant, 15, 1962, 473-
497.
[5] K. A. Gomez, and A. A. Gomez, “Statistical procedures for agricultural
research with emphasis on rice”, International Rice Research Institute,
Los Bans, Philippines, IRRI Publication, 1976, p. 264.
[6] A. B. A. Ahmed, A. S. Rao, M. V. Rao, and R. M. Taha, “Optimized
conditions for callus induction, plant regeneration and alkaloids
accumulation in stem and shoot tip explants of Phyla nodiflora”,
Spanish Journal of Agricultural Research, 9, 2011, 1262-1270.