The effectiveness of growth regulators and light color spectrum on callus growth of Amorphophallus muelleri Blume. var. Madiun1: Efektivitas zat pengatur tumbuh dan spektrum warna cahaya terhadap pertumbuhan kalus Amorphophallus muelleri Blume. var. Madiun1

Agnes Natalia  Wijaya; Carlois Poernomo; Wina Dian Savitri; Fenny Irawati; Popy Hartatie Hardjo

doi:10.35891/agx.v14i2.3309

Authors

Agnes Natalia Wijaya Faculty of Biotechnology, University of Surabaya, Kalirungkut Street, Surabaya, Jawa Timur, Indonesia
Carlois Poernomo Faculty of Biotechnology, University of Surabaya, Kalirungkut Street, Surabaya, Jawa Timur, Indonesia
Wina Dian Savitri Faculty of Biotechnology, University of Surabaya, Kalirungkut Street, Surabaya, Jawa Timur, Indonesia
Fenny Irawati Faculty of Biotechnology, University of Surabaya, Kalirungkut Street, Surabaya, Jawa Timur, Indonesia
Popy Hartatie Hardjo Faculty of Biotechnology, University of Surabaya, Kalirungkut Street, Surabaya, Jawa Timur, Indonesia

DOI:

https://doi.org/10.35891/agx.v14i2.3309

Keywords:

6-benzyl amino purine, calli, naphthalene acetic acid, light color spectrum

Abstract

Introduction: Plant Growth Regulators (PGRs) play a role in regulating organogenesis and morphogenesis in shoots, roots, and callus formation. Color spectrum of light is one of the quality light factors that affects plant physiological processes. This study aimed to determine the effect of cytokinin and auxin on Murashige-Skoog (MS) medium and light on callus induction and proliferation of porang (Amorphophallus muelleri Blume.) var. Madiun1. Methods: This study used completely randomized design, with the first factor was PGRs (combination auxin and cytokinin) and the second was color spectrum of light (white light, blue light, and its combination) during incubation. Variables observed were emergence time, color, texture, structure and calli growth, also shoots emerging from calli. Results: The results showed an interaction between PGRs with a combination of light color spectrum on callus growth. The fastest callus growth occurred in combination 5.0 mg.l-1 6-benzyl amino purine (BAP) with 0.2 mg.l-1 naphthalene acetic acid (NAA) which was incubated in a combination of white and blue light for 16 hour irradiation. The combination 5.0 mg.l-1 BAP with 0.2 mg.l-1 NAA was able to induce callus emergence time, and the shoots appearing were faster, whereas combination of white and blue light was able to accelerate callus emergence from bulbil and adventitious shoots emergence. Conclusion: The combination of white and blue light color spectrum for 16 hours irradiation can accelerate callus emergence from bulbil and adventitious shoots emerging from calli, and interaction with combination of 5.0 mg.l-1 BAP and 0.2 mg.l-1 NAA can accelerate porangâ€™s callus growth.

References

Ansori, A. R., Munandara, D. E., & Erisa, F. R. (2019). Pemberian warna cahaya berbeda terhadap pertumbuhan dan kandungan senyawa antioksidan dalam daun tanaman krisan (Chrysanthemum sp). Jurnal Bioindustri, 01(02), 156â€“163.

Baharan, E., Mohammadi, P. P., Shahbazi, E., & Hosseini, S. Z. (2015). Effects of some plant growth regulators and light on callus induction and explants browning in date palm (Phoenix dactylifera L .) in vitro leaves culture. Iranian Journal of Plant Physiology, 5(4), 1473â€“1482.

Belloâ€Bello, J. J., PÃ©rezâ€Sato, J. A., Cruzâ€Cruz, C. A., & MartÃnezâ€Estrada, E. (2017). Lightâ€Emitting diodes: progress in plant micropropagation jericÃ³. IntechOpen chapter 6, 93-102. http://dx.doi.org/10.5772/67913

Chen, Y. M., Huang, J. Z., Hou, T. W., & Pan, I. C. (2019). Effects of light intensity and plant growth regulators on callus proliferation and shoot regeneration in the ornamental succulent Haworthia. Botanical Studies, 60(10), 1-8. https://doi.org/10.1186/s40529-019-0257-y

CioÄ‡, M., Kalisz, A., Zupnik, M., & PawÅ‚owska, B. zena. (2019). Different LED light intensities and 6-benzyladenine concentrations in relation to shoot development, leaf architecture, and photosynthetic pigments of gerbera jamesonii bolus in vitro. Agronomy, 9(7), 1â€“16. https://doi.org/10.3390/agronomy9070358

Dutta Gupta, S., & Jatothu, B. (2013). Fundamentals and applications of light-emitting diodes (LEDs) in in vitro plant growth and morphogenesis. Plant Biotechnology Reports, 7(3), 211â€“220. https://doi.org/10.1007/s11816-013-0277-0

Fazal, H., Abbasi, B. H., Ahmad, N., Ali, S. S., Akbar, F., & Kanwal, F. (2016). Correlation of different spectral lights with biomass accumulation and production of antioxidant secondary metabolites in callus cultures of medicinally important Prunella vulgaris L. Journal of Photochemistry and Photobiology B: Biology, 159, 1â€“7. https://doi.org/10.1016/j.jphotobiol.2016.03.008

Hariyanto, D. N., Handoyo, T., Dewanti, P., Hariyono, K., & Restanto, D. P. (2022). Analisis histologi dan scanning electron microscopy (SEM) pada somatik embriogenesis tanaman porang (Amorphophallus muelleri B). Agriprima : Journal of Applied Agricultural Sciences, 6(1), 1â€“11. https://doi.org/10.25047/agriprima.v6i1.447

Ikeuchi, M., Sugimoto, K., & Iwase, A. (2013). Plant callus: Mechanisms of induction and repression. Plant Cell, 25(9), 3159â€“3173. https://doi.org/10.1105/tpc.113.116053

Khurshid, R., Ullah, M. A., Tungmunnithum, D., Drouet, S., Shah, M., Zaeem, A., Hameed, S., Hano, C., & Abbasi, B. H. (2020). Lights triggered differential accumulation of antioxidant and antidiabetic secondary metabolites in callus culture of Eclipta alba L. PLoS ONE, 15(6), 1â€“17. https://doi.org/10.1371/journal.pone.0233963

Komakech, R., Kim, Y. G., Kim, W. J., Omujal, F., Yang, S., Moon, B. C., Okello, D., Rahmat, E., Kyeyune, G. N., Matsabisa, M. G., & Kang, Y. (2020). A micropropagation protocol for the endangered medicinal tree prunus africana (hook f.) kalkman: genetic fidelity and physiological parameter assessment. Frontiers in Plant Science, 11, 1-14. https://doi.org/10.3389/fpls.2020.548003

Maharjan, S., Pradhan, S., Thapa, B. B., & Pant, B. (2019). In vitro propagation of endangered orchid, vanda pumila hook.f. through protocorm culture. American Journal of Plant Sciences, 10(07), 1220â€“1232. https://doi.org/10.4236/ajps.2019.107087

Mayerni, R., Satria, B., Wardhani, D. K., & Chan, S. (2020). Effect of auxin (2,4-D) and cytokinin (BAP) in callus induction of local patchouli plants (Pogostemon cablin Benth.). In IOP Conference Series: Earth and Environmental Science, 583(1), 1-6. https://doi.org/10.1088/1755-1315/583/1/012003

Paul, K. K., Bari, M. A., Islam, S. M. S., & Debnath, S. C. (2013). In vitro shoot regeneration in elephant foot yam, Amorphophallus campanulatus Blume. Plant Tissue Culture and Biotechnology, 23(1), 121â€“126. https://doi.org/10.3329/ptcb.v23i1.15569

Suhartanto, B., Astutik, M., Umami, N., Suseno, N., & Haq, M. S. (2022). The effect of explants and light conditions on callus induction of srikandi putih maize (Zea mays L.). In IOP Conference Series: Earth and Environmental Science, 1001(1), 1-6. https://doi.org/10.1088/1755-1315/1001/1/012006

Usman, H., Ullah, M. A., Jan, H., Siddiquah, A., Drouet, S., Anjum, S., Giglioli-Guivarc'h, N., Hano, C., & Abbasi, B. H. (2020). Interactive effects of wide-spectrum monochromatic lights on phytochemical production, antioxidant and biological activities of Solanum xanthocarpum callus cultures. Molecules, 25(9), 1-25. https://doi.org/10.3390/molecules25092201

Xu, Y., Yang, M., Cheng, F., Liu, S., & Liang, Y. (2020). Effects of LED photoperiods and light qualities on in vitro growth and chlorophyll fluorescence of Cunninghamia lanceolata. BMC Plant Biology, 20(1), 1â€“12. https://doi.org/10.1186/s12870-020-02480-7

The effectiveness of growth regulators and light color spectrum on callus growth of Amorphophallus muelleri Blume. var. Madiun1

Efektivitas zat pengatur tumbuh dan spektrum warna cahaya terhadap pertumbuhan kalus Amorphophallus muelleri Blume. var. Madiun1

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DOI:

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Abstract

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