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Research Article

The Effect of Growth Concentration on In Vitro Shoot Multiplication of Crown Flower (Calotropis gigantea)

Plant Breeding and Biotechnology 2022;10(4):244-256.
Published online: December 1, 2022

1Department of Agrotechnology, Faculty of Agriculture, Universitas Sebelas Maret, Surakarta 57126, Indonesia

2Center for Research and Development of Biotechnology and Biodiversity, Universitas Sebelas Maret, Surakarta 57126, Indonesia

*Corresponding author Amalia T. Sakya, amaliatetrani@staff.uns.ac.id, Tel: +62-0271-637457, Fax: +62-0271-637457
• Received: October 17, 2022   • Revised: November 21, 2022   • Accepted: November 22, 2022

Copyright © 2022 by the Korean Society of Breeding Science

This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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  • An update on biotechnological intervention mediated by plant tissue culture to boost secondary metabolite production in medicinal and aromatic plants
    Shera Pandit Prashant, Mishra Bhawana
    Physiologia Plantarum.2024;[Epub]     CrossRef
  • Establishment and Validation of a Robust Reversed-Phase HPLC Method for the Determination of Calotropis gigantea in Bulk Material and Marketed Product
    Akshata P. Hebballi, Basavaraja Pujar, Suresh S. Honnalli, Sushmita I. Hiremath, Akshata Menasinakai, Akash Bakale, Sahil Nadaf, Ashika M.V., Sanjana Vadavalli
    Current Pharmaceutical Analysis.2024; 20(8): 920.     CrossRef

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The Effect of Growth Concentration on In Vitro Shoot Multiplication of Crown Flower (Calotropis gigantea)
Plant Breed. Biotech.. 2022;10(4):244-256.   Published online December 1, 2022
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The Effect of Growth Concentration on In Vitro Shoot Multiplication of Crown Flower (Calotropis gigantea)
Plant Breed. Biotech.. 2022;10(4):244-256.   Published online December 1, 2022
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The Effect of Growth Concentration on In Vitro Shoot Multiplication of Crown Flower (Calotropis gigantea)
Image Image Image Image
Fig. 1 Histogram of the effect of BAP and IBA on the percentage of root emergence in crown flower. A0B0 (0 ppm BAP + 0 ppm IBA); A0B1 (0 ppm BAP + 1 ppm IBA); A0B2 (0 ppm BAP + 2 ppm IBA); A0B3 (0 ppm BAP + 3 ppm IBA); A0B4 (0 ppm BAP + 4 ppm IBA); A1B0 (1 ppm BAP + 0 ppm IBA); A1B1 (1 ppm BAP + 1 ppm IBA); A1B2 (1 ppm BAP + 2 ppm IBA); A1B3 (1 ppm BAP + 3 ppm IBA); A1B4 (1 ppm BAP + 4 ppm IBA); A2B0 (2 ppm BAP + 0 ppm IBA); A2B1 (2 ppm BAP + 1 ppm IBA); A2B2 (2 ppm BAP + 2 ppm IBA); A2B3 (2 ppm BAP + 3 ppm IBA); A2B4 (2 ppm BAP + 4 ppm IBA); A3B0 (3 ppm BAP + 0 ppm IBA); A3B1 (3 ppm BAP + 1 ppm IBA); A3B2 (3 ppm BAP + 2 ppm IBA); A3B3 (3 ppm BAP + 3 ppm IBA); A3B4 (3 ppm BAP + 4 ppm IBA); A4B0 (4 ppm BAP + 0 ppm IBA); A4B1 (4 ppm BAP + 1 ppm IBA); A4B2 (4 ppm BAP + 2 ppm IBA); A4B3 (4 ppm BAP + 3 ppm IBA); A4B4 (4 ppm BAP + 4 ppm IBA).
Fig. 2 The growth of crown flower explants in vitro (a) root emergence, (b) shoot emergence, (c) leaves of the explant.
Fig. 3 The performance of crown flower plantlets aged 65 DAP at concentrations of (a) 0 ppm BAP + 0 ppm IBA (A0B0); (b) BAP 1 ppm + IBA 1 ppm (A1B1); (c) BAP 1 ppm + IBA 4 ppm (A1B4); (d) BAP 4 ppm + IBA 1 ppm (A4B1); (e) BAP 4 ppm + IBA 4 ppm (A4B4).
Fig. 4 Representative chromatogram of C. gigantea (a) A3B2 plantlet and (b) in vivo.
The Effect of Growth Concentration on In Vitro Shoot Multiplication of Crown Flower (Calotropis gigantea)

The effect of BAP and IBA interaction on the shoot emergence time in crown flower explants aged 65 DAP.

IBA (ppm) BAP (ppm) BAP Average
0 1 2 3 4
0 4.00a-c 4.00a-c 4.67a-c 3.00a 3.67ab 3.87
1 8.33d 3.00a 4.33a-c 2.67a 4.00a-c 4.46
2 4.00a-c 6.33b-d 4.00a-c 4.00a-c 3.67ab 4.40
3 4.33a-c 4.67a-c 4.67a-c 4.67a-c 5.00a-c 4.67
4 4.67a-c 7.00cd 4.00a-c 4.00a-c 3.33ab 4.59
IBA average 5.07 5.00 4.33 3.67 3.93 +

The results of number of shoots in crown flower explant aged 65 DAP.

IBA (ppm) BAP (ppm) BAP Average
0 1 2 3 4
0 2.0 3.0 5.7 7.0 5.0 4.5
1 3.7 5.7 4.0 9.3 4.3 5.4
2 1.0 2.7 3.7 5.0 10.0 4.5
3 4.3 2.0 3.3 0.7 4.7 3.0
4 2.3 2.3 2.0 2.3 5.3 2.9
BAP average 2.67a 3.13a 3.73ab 4.87ab 5.87b -

The results of plantlet height in crown flower explant aged 65 DAP.

IBA (ppm) BAP (ppm) BAP Average
0 1 2 3 4
0 8.6 4.6 4.9 3.8 3.5 5.1
1 8.9 4.0 4.9 3.7 5.2 5.3
2 6.0 3.5 4.2 3.8 3.5 4.2
3 8.0 5.9 3.9 4.3 3.7 5.2
4 5.8 3.7 4.0 4.4 4.0 4.4
BAP average 7.45b 4.35a 4.37a 3.97a 3.99a -

The results of root emergence time in crown flower explant aged 65 DAP.

IBA (ppm) BAP (ppm) BAP Average
0 1 2 3 4
0 7.8 2.5 5.5 0.0 0.0 3.2
1 10.0 4.5 0.0 0.0 0.0 2.9
2 4.3 0.0 0.0 0.0 0.0 0.9
3 9.8 0.0 8.0 5.0 0.0 4.6
4 8.5 4.0 9.0 0.0 0.0 4.3
BAP average 10.73c 2.93ab 6.00b 1.33ab 0a -

The results of number of roots in crown flower explant aged 65 DAP.

IBA (ppm) BAP (ppm) BAP Average
0 1 2 3 4
0 9.7 3.0 0.3 0.0 0.0 2.6
1 25.3 2.7 0.0 0.0 0.0 5.6
2 2.0 0.0 0.0 1.0 0.3 0.7
3 29.0 0.0 1.3 0.7 0.0 6.2
4 20.0 3.7 5.0 0.0 0.0 5.7
BAP average 17.20b 1.87a 1.33a 0.33a 0.07a -

The results of the interaction of BAP and IBA on the number of leaves in crown flower explants aged 65 DAP.

IBA (ppm) BAP (ppm) BAP Average
0 1 2 3 4
0 8.67a-c 11.67a-c 20.00bc 21.33bc 15.00a-c 15.33
1 21.00bc 17.33a-c 23.67c 23.33c 11.67a-c 19.4
2 1.33a 7.33ab 16.00a-c 22.67bc 21.33bc 13.73
3 20.67bc 12.67a-c 8.00a-c 5.67ab 17.00a-c 12.80
4 18.33a-c 12.33a-c 9.00a-c 9.00a-c 22.00bc 14.13
IBA Average 14.00 12.27 15.33 16.40 17.40 +

The results of the flavonoid content in several samples of crown flower aged 65 DAP.

Sample Flavonoid content (% w/w)
Field 1.08
A0B0 1.73
A1B1 1.22
A1B4 0.75
A4B1 1.11
A4B4 0.94

Major compounds of crown flower field samples and A2B3 plantlets using GCMS analysis.

No. Compound name Compound structure Molecular formula Field sample A3B2 plantlets
1 Pentadecanoic acid C15H30O2 + +
2 Benzene, 1-3-Dimethyl C8H10 + +
3 Benzene ethyl C8H10 + +
4 2,2,4,4,6,6,8,8,10,10,12,12,14,14,16,16,18,18-Cyclononasiloxane octadecamethyl C18H54O9SI9 + -
Table 1 The effect of BAP and IBA interaction on the shoot emergence time in crown flower explants aged 65 DAP.

The + sign indicates an interaction.

Table 2 The results of number of shoots in crown flower explant aged 65 DAP.

The - sign indicates there is no interaction.

Table 3 The results of plantlet height in crown flower explant aged 65 DAP.

The - sign indicates there is no interaction.

Table 4 The results of root emergence time in crown flower explant aged 65 DAP.

The - sign indicates there is no interaction.

Table 5 The results of number of roots in crown flower explant aged 65 DAP.

The - sign indicates there is no interaction.

Table 6 The results of the interaction of BAP and IBA on the number of leaves in crown flower explants aged 65 DAP.

The + sign indicates an interaction.

Table 7 The results of the flavonoid content in several samples of crown flower aged 65 DAP.

A0B0: Treatment of BAP 0 ppm + IBA 0 ppm, A1B1: Treatment of BAP 1 ppm + IBA 1 ppm, A4B4: Treat-ment of BAP 4 ppm + IBA 4 ppm.

Table 8 Major compounds of crown flower field samples and A2B3 plantlets using GCMS analysis.

The + sign indicates the presence of chemical compounds in the test sample with GC - MS.