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Farklı sitokinin ve oksin kaynaklarının Kalanchoe blossfeldiana mikroçoğaltımı üzerine etkisi

Year 2024, Volume: 11 Issue: 4, 1182 - 1192, 12.10.2024
https://doi.org/10.30910/turkjans.1531762

Abstract

Mikroçoğaltım, aseptik koşullar altında birçok farklı süs ve tıbbi bitki türünü vejetatif olarak çoğaltmak için yaygın olarak kullanılmaktadr. Bu teknoloji, mevsim ve zaman-mekan kısıtlamalarından bağımsız olarak yaygın pratik uygulamalara sahiptir. Bu çalışma, Kalanchoe blossfeldiana yaprak sapına yakın yaprak segmentleri eksplant olarak kullanılarak mikroçoğaltım için ticari çay şekeriyle desteklenmiş 18 adet farklı BAP, NAA, TDZ ve GA3 kombinasyonunu kullanarak in vitro çoğaltım ve yaşayabilir kültürler için verimliliğini bulmayı amaçlamamıştır. Sonuçlar, TDZ ve BAP destekli rejenerasyon kültürleri üzerinde rejenerasyon arasında net bir ayrım göstermiştir. Dolayısıyla, hem BAP - NAA hem de TDZ - NAA konbinasyonları mikroçoğaltım için uygun bulunmuştur. Sürgün rejenerasyon ortamından bağımsız olarak, sürgün rejenerasyon ortamının kaynak etkisi göstermiştir ve sürgünlerin köklenme yeteneğine yansımıştır. Bu bitkicikler 0,01-0,05 mg L-1 IBA'da köklendirilmiştir. Çalışmanın sonuçları, 0,5 mg L-1 IBA ile 1 ½ veya 1×MS ortamı kullanılarak in vitro koşullarda başarılı köklenme gösterilmiştir. Daha sonra bu köklendirilmiş bitkicikler, adaptasyon için 0,2 mg L-1 gibberellik asitle ve BAP'siz veya 0,1, 0,2, 0,5 mg L-1 TDZ'li ve 0,1 mg L-1 NAA'li veya 0,1 mg L-1 NAA'siz MS ortamına aktarılmıştır. Çalışmanın sonuçları, K. blossfeldiana bitki ıslah çalışmaları ve yetiştiricileri için büyük önem taşımaktadır.

References

  • Aasim, M., Ali, S. A., Altaf, M. T., Ali, A., Nadeem, M. A., and Baloch, F. S. (2023). Artificial neural network and decision tree facilitated prediction and validation of cytokinin-auxin induced in vitro organogenesis of sorghum (Sorghum bicolor L.). Plant Cell, Tissue and Organ Culture (PCTOC), 153(3), 611-624.
  • Bates, S. Preece, J.E., Navarrete,. N.E., Van Sambeek, J.W.and Gaffney, G.R 1992. Thidiazuron stimulates shoot organogenesis and somatic embryogenesis in white ash (Fraxinus americana L.). Plant Cell, Tissue and Organ Culture (PCTOC); 31, (21-29).
  • Bhuiyan, M.S.U., Kim, T., In, J. G., Yang, D. C. and Choi, K. S. 2006. Plant regeneration from leaf explants of Kalanchoe daigremontiana Hamet & Perrier. Korean Journal of Medicinal Crop Science, 14(5), 293-298.
  • Bejaoui, R. 2022. Micropropagation of Kalanchoe blossfeldiana Poelln. under in vitro conditions. Ankara University, Graduate School of Natural and Applied Sciences, Department of Horticulture, PhD Thesis, (103p), Ankara (in Turkish).
  • Bejaoui, R., Gümüş, C., Sönmez, K., Kırbay, E. and Ellialtıoğlu, Ş. Ş. 2023 a.The effects of different PGR contents on in vitro organogenesis and shoot proliferation in kalanchoe (Kalanchoe blossfeldiana Poelln.). In: 11th International Conference on Agriculture, Animal Sciences and Rural Development, 03-05 March 2023, Muş Alparslan University, Muş – Türkiye. Conference Proceedings Book (Eds: Karadağ,Y., Seydoşoğlu, S.). pp: 995-1010. ISBN:978-625-7720-91-5.
  • Bejaoui, R., Özdemir, G. E., Ellialtioğlu and Ş.Ş. 2023 b. Doku kültürü tekniğiyle çoğaltılan Kalanchoe blossfeldiana Poelln. sürgünlerinin in vitro veya ex vitro köklendirilmesi ve dış koşullara alıştırılması. Türk Tarım ve Doğa Bilimleri Dergisi, 10(4), 843-853.
  • Chen, S., Xiong, Y., Yu, X., Pang, J., Zhang, T., Wu, K. and Ma, G. 2020. Adventitious shoot organogenesis from leaf explants of Portulaca pilosa L. Scientific Reports, 10(1), 3675.
  • Corredoira, E., Ballester, A., Vieitez, A.M. 2008. Thidiazuron-induced high-frequency plant regeneration from leaf explants of Paulownia tomentosa mature trees. Plant Cell, Tissue and Organ Culture, 95, 197-208. CPVO, 2017. http://cpvo.europa.eu. Accessed on: 12.04.2017.
  • Descoings, B. 2006. Le genre Kalanchoë (Crassulaceae): structure et définition. Le Journal de Botanique ; 33(1), (3-28).
  • Deng, Q., Zhang, Y. and Wang, C. 2005. Study on in vitro propagation of Kalanchoe blossfeldiana. Journal of Sichuan Agricultural University, 23(2), 195.
  • Dinani, E.T., Shukla, M.R., Turi, C.E., Sullivan, J.A. and Saxena, P.K. 2018. Thidiazuron: modulator of morphogenesis in vitro. Thidiazuron: from urea derivative to plant growth regulator, 1-36.
  • Frello, S., Venerus, E. and Serek, M. 2002. Regeneration of various species of Crassulaceae, with special reference to Kalanchoe. The Journal of Horticultural Science and Biotechnology, 77(2), 204-208.
  • Gaba, V.P. 2000. Plant growth regulators in plant tissue culture and development, In: Robert N T, Dennis J G (eds) Plant development and biotechnology, CRC Press, Boca Raton, Florida, pp 87-99.
  • Gaspar, T., Kevers, C., Penel, C., Greppin, H., Reid, D.M. and Thorpe, T. A .1996. Plant hormones and plant growth regulators in plant tissue culture. In vitro Cellular & Developmental Biology-Plant, 32, 272-289.
  • Giridhar, P., Vaddadi, S., Matam, P. and Shreelakshmi, S.V. 2018. TDZ induced diverse In vitro responses in some economically important plants. Thidiazuron: From urea derivative to plant growth regulator, 329-341.
  • Guo, B., Abbasi, B.H., Zeb, A., Xu, L.L. and Wei, Y.H. 2011. Thidiazuron: a multi-dimensional plant growth regulator. African Journal of Biotechnology, 10(45), 8984-9000.
  • Huang, H., Wei, Y., Zhai, Y., Ouyang, K., Chen, X. and Bai, L. 2020. High frequency regeneration of plants via callus-mediated organogenesis from cotyledon and hypocotyl cultures in a multipurpose tropical tree (Neolamarkia cadamba). Scientific Reports, 10(1), 4558.
  • Huetteman, C.A. and Preece, J. E. 1993. Thidiazuron: a potent cytokinin for woody plant tissue culture. Plant Cell, Tissue and Organ Culture, 33, 105-119.
  • Kahraman, M.U. and Boyacı, H.F. 2021. Kalanşo. in: Süs Bitkileri Islahı Cilt II: Türler. Kazaz S, Yalçın Mendi Y (Eds.). 6, 241-284.
  • Kahraman, M.U., Mendi, Y.Y., Karabıyık, Ş., Lütken, H.V. and Favero, B.T. 2022. Kalanchoe breeding: past, present and future. Ornamental Horticulture, 28, 19-35.
  • Kaviani, B., Hashemabadi, D. and Kordi, M. 2014. The effect of different concentrations of plant growt regulators on micropropagation of Kalanchoe blossfeldiana cv. White. Journal of Ornamental Plants, 4(2), 101-106.
  • Kökpınar, Ş., Kantoğlu, K.Y. and Ellialtıoğlu, Ş.Ş. 2021. Bitkilerde mutagen uygulamaları ile genetik çeşitliliğin artırılması ve sebze ıslahında kullanımı.In : Ziraat, Orman ve Su Ürünlerinde Araştırma ve Değerlendirmeler – I, Cengizler I, Duman S (Eds),Chapter 22:341-362, Gece Publishing, Ankara.
  • Liu, H. 2010. High propagation and tissue culture system and outside-tube rooting technology of Kalanchoe blossfeldiana. Journal of Anhui Agricultural Sciences, 12.
  • Love, J. W. 1980. Kalanchoe; In: Introduction to Floriculture; Academic Press; pp 409-434.
  • Luo, Y., Tang, H., Deng, T. and Zheng, C. 2009. Research on the rapid propagation of longevity flower and the flowering of test tube seedlings. Anhui Agricultural Sciences; 6.
  • Lütken, H., Laura, M., Borghi, C., Ørgaard, M., Allavena, A. and Rasmussen, S.K. 2011. Expression of KxhKN4 and KxhKN5 genes in Kalanchoe blossfeldiana ‘Molly’results in novel compact plant phenotypes: towards a cisgenesis alternative to growth retardants. Plant cell reports, 30, 2267-2279.
  • Mackenzie, K. K., Lütken, H., Coelho, L. L., Kaaber, M.D., Hegelund, J. N.and Müller, R. 2018. Kalanchoë; In: Ornamental Crops, pp 453-479.
  • Majumder, A., Roychowdhury, D. And Ray, S. 2023. Biotechnological approaches for ex situ conservation of medicinal plants. Medicinal Plants: Biodiversity, Biotechnology and Conservation, 729-800.
  • Mok, M.C., Mok, D. W., Turner, J. E. and Mujer, C. V. 1987. Biological and biochemical effects of cytokinin-active phenylurea derivatives in tissue culture systems. HortScience, 22(6), 1194-1197.
  • Murashige, T. and Skoog, F. (1962) A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiologia Plantarum; 15(3), (473-497).
  • Murthy, B.N.S., Murch, S.J. and Saxena, P.K. 1998. Thidiazuron: a potent regulator of in vitro plant morphogenesis. In vitro Cellular & Developmental Biology-Plant, 34, 267-275.
  • Nieves, M. C., Aspuria, E. T. and Tayangona, M. A. D. 2016. Growth responses of in vitro-derived nodal sections of Kalanchoe blossfeldiana Poellnitz as influenced by benzylaminopurine, thidiazuron and paclobutrazol. Asia life sciences, 25(1):207-220.
  • Pierik, R. L. M. 1997. In vitro culture of higher plants. Springer science & business media. B.V., Dordrecht, Netherlands ,348.
  • Podwyszyńska, M., Orlikowska, T., Trojak-Goluch, A. and Wojtania, A. 2022. Application and improvement of in vitro culture systems for commercial production of ornamental, fruit, and industrial plants in Poland. Acta Societatis Botanicorum Poloniae, 91(1):914.
  • Sanikhani, M., Frello, S. and Serek, M. 2006. TDZ induces shoot regeneration in various Kalanchoë blossfeldiana Poelln. cultivars in the absence of auxin. Plant Cell, Tissue and Organ Culture, 85(1), 75–82.
  • Sevimay, C. S., Khawar, K. M. and Yuzbasioglu, E. 2005. Adventitious shoot regeneration from different explants of wild lentil (Lens culinaris subsp. orientalis). Biotechnology & Biotechnological Equipment, 19(2), 46-49.
  • Snedecor, G. W. and Cochran, W. G. 1967. Statistical methods 6th edition , Iowa State University Press, Ames, Iowa.
  • Xinzheng, S., Li, Q. and Liang, M. 2006. Research on tissue culture and rapid propagation technology of white-flowered longevity flower. Chinese Agricultural Science Bulletin; 03:39-42.
  • Xue, J., Hua, N., Shi-Suli, S. and Zhang, L. 2019. Culture of longevity flower virus-free seedlings based on in vitro model system and flowering in bottles. Molecular Plant Breeding 14: 4733-4738.
  • Zheng, X., Liu, J. and Yuan, Y.J. 2013. Research on pink-flowered longevity flowers in vitro. Journal of Shanghai Agricultural Sciences; 04: 72-74.

The effect of different cytokinin and auxin source on micropropagation of Kalanchoe blossfeldiana

Year 2024, Volume: 11 Issue: 4, 1182 - 1192, 12.10.2024
https://doi.org/10.30910/turkjans.1531762

Abstract

Micropropagation is widely used for vegetative propagation of many different ornamental and medicinal plant species under aseptic conditions. This technology has widespread practical applications irrespective of seasonal and time-space constraints. The present study aimed to design in vitro propagation using 1 8 different combinations of BAP, NAA, TDZ, and GA3 supplemented with commercial tea sugar at 30 g l-1 for micropropagation using leaf segments close to petiole of Kalanchoe blossfeldiana as explants and to find its efficiency for viable cultures. The results showed clear discrimination between regeneration on TDZ and BAP-supplemented regeneration cultures. Thus, both BAP-NAA and TDZ-NAA combinations were found suitable for micropropagation. the source medium affected the shoot regeneration and the rooting ability, irrespective of the culture of any shoot regeneration medium. These plantlets were rooted in 0.01-0.05 mg l-1 IBA. The study showed successful rooting under in vitro conditions using 1 ½ or 1×MS medium with 0.5 mg L-1 IBA. These rooted plantlets were then transferred to MS medium with 0.2 mg L-1 gibberellic acid and without BAP or with 0.1, 0.2, 0.5 mg l-1 TDZ and 0.1 mg l-1 NAA or without 0.1 mg L-1 NAA for adaptation. The results of the study are of great importance for K. blossfeldiana plant breeding studies and growers.

References

  • Aasim, M., Ali, S. A., Altaf, M. T., Ali, A., Nadeem, M. A., and Baloch, F. S. (2023). Artificial neural network and decision tree facilitated prediction and validation of cytokinin-auxin induced in vitro organogenesis of sorghum (Sorghum bicolor L.). Plant Cell, Tissue and Organ Culture (PCTOC), 153(3), 611-624.
  • Bates, S. Preece, J.E., Navarrete,. N.E., Van Sambeek, J.W.and Gaffney, G.R 1992. Thidiazuron stimulates shoot organogenesis and somatic embryogenesis in white ash (Fraxinus americana L.). Plant Cell, Tissue and Organ Culture (PCTOC); 31, (21-29).
  • Bhuiyan, M.S.U., Kim, T., In, J. G., Yang, D. C. and Choi, K. S. 2006. Plant regeneration from leaf explants of Kalanchoe daigremontiana Hamet & Perrier. Korean Journal of Medicinal Crop Science, 14(5), 293-298.
  • Bejaoui, R. 2022. Micropropagation of Kalanchoe blossfeldiana Poelln. under in vitro conditions. Ankara University, Graduate School of Natural and Applied Sciences, Department of Horticulture, PhD Thesis, (103p), Ankara (in Turkish).
  • Bejaoui, R., Gümüş, C., Sönmez, K., Kırbay, E. and Ellialtıoğlu, Ş. Ş. 2023 a.The effects of different PGR contents on in vitro organogenesis and shoot proliferation in kalanchoe (Kalanchoe blossfeldiana Poelln.). In: 11th International Conference on Agriculture, Animal Sciences and Rural Development, 03-05 March 2023, Muş Alparslan University, Muş – Türkiye. Conference Proceedings Book (Eds: Karadağ,Y., Seydoşoğlu, S.). pp: 995-1010. ISBN:978-625-7720-91-5.
  • Bejaoui, R., Özdemir, G. E., Ellialtioğlu and Ş.Ş. 2023 b. Doku kültürü tekniğiyle çoğaltılan Kalanchoe blossfeldiana Poelln. sürgünlerinin in vitro veya ex vitro köklendirilmesi ve dış koşullara alıştırılması. Türk Tarım ve Doğa Bilimleri Dergisi, 10(4), 843-853.
  • Chen, S., Xiong, Y., Yu, X., Pang, J., Zhang, T., Wu, K. and Ma, G. 2020. Adventitious shoot organogenesis from leaf explants of Portulaca pilosa L. Scientific Reports, 10(1), 3675.
  • Corredoira, E., Ballester, A., Vieitez, A.M. 2008. Thidiazuron-induced high-frequency plant regeneration from leaf explants of Paulownia tomentosa mature trees. Plant Cell, Tissue and Organ Culture, 95, 197-208. CPVO, 2017. http://cpvo.europa.eu. Accessed on: 12.04.2017.
  • Descoings, B. 2006. Le genre Kalanchoë (Crassulaceae): structure et définition. Le Journal de Botanique ; 33(1), (3-28).
  • Deng, Q., Zhang, Y. and Wang, C. 2005. Study on in vitro propagation of Kalanchoe blossfeldiana. Journal of Sichuan Agricultural University, 23(2), 195.
  • Dinani, E.T., Shukla, M.R., Turi, C.E., Sullivan, J.A. and Saxena, P.K. 2018. Thidiazuron: modulator of morphogenesis in vitro. Thidiazuron: from urea derivative to plant growth regulator, 1-36.
  • Frello, S., Venerus, E. and Serek, M. 2002. Regeneration of various species of Crassulaceae, with special reference to Kalanchoe. The Journal of Horticultural Science and Biotechnology, 77(2), 204-208.
  • Gaba, V.P. 2000. Plant growth regulators in plant tissue culture and development, In: Robert N T, Dennis J G (eds) Plant development and biotechnology, CRC Press, Boca Raton, Florida, pp 87-99.
  • Gaspar, T., Kevers, C., Penel, C., Greppin, H., Reid, D.M. and Thorpe, T. A .1996. Plant hormones and plant growth regulators in plant tissue culture. In vitro Cellular & Developmental Biology-Plant, 32, 272-289.
  • Giridhar, P., Vaddadi, S., Matam, P. and Shreelakshmi, S.V. 2018. TDZ induced diverse In vitro responses in some economically important plants. Thidiazuron: From urea derivative to plant growth regulator, 329-341.
  • Guo, B., Abbasi, B.H., Zeb, A., Xu, L.L. and Wei, Y.H. 2011. Thidiazuron: a multi-dimensional plant growth regulator. African Journal of Biotechnology, 10(45), 8984-9000.
  • Huang, H., Wei, Y., Zhai, Y., Ouyang, K., Chen, X. and Bai, L. 2020. High frequency regeneration of plants via callus-mediated organogenesis from cotyledon and hypocotyl cultures in a multipurpose tropical tree (Neolamarkia cadamba). Scientific Reports, 10(1), 4558.
  • Huetteman, C.A. and Preece, J. E. 1993. Thidiazuron: a potent cytokinin for woody plant tissue culture. Plant Cell, Tissue and Organ Culture, 33, 105-119.
  • Kahraman, M.U. and Boyacı, H.F. 2021. Kalanşo. in: Süs Bitkileri Islahı Cilt II: Türler. Kazaz S, Yalçın Mendi Y (Eds.). 6, 241-284.
  • Kahraman, M.U., Mendi, Y.Y., Karabıyık, Ş., Lütken, H.V. and Favero, B.T. 2022. Kalanchoe breeding: past, present and future. Ornamental Horticulture, 28, 19-35.
  • Kaviani, B., Hashemabadi, D. and Kordi, M. 2014. The effect of different concentrations of plant growt regulators on micropropagation of Kalanchoe blossfeldiana cv. White. Journal of Ornamental Plants, 4(2), 101-106.
  • Kökpınar, Ş., Kantoğlu, K.Y. and Ellialtıoğlu, Ş.Ş. 2021. Bitkilerde mutagen uygulamaları ile genetik çeşitliliğin artırılması ve sebze ıslahında kullanımı.In : Ziraat, Orman ve Su Ürünlerinde Araştırma ve Değerlendirmeler – I, Cengizler I, Duman S (Eds),Chapter 22:341-362, Gece Publishing, Ankara.
  • Liu, H. 2010. High propagation and tissue culture system and outside-tube rooting technology of Kalanchoe blossfeldiana. Journal of Anhui Agricultural Sciences, 12.
  • Love, J. W. 1980. Kalanchoe; In: Introduction to Floriculture; Academic Press; pp 409-434.
  • Luo, Y., Tang, H., Deng, T. and Zheng, C. 2009. Research on the rapid propagation of longevity flower and the flowering of test tube seedlings. Anhui Agricultural Sciences; 6.
  • Lütken, H., Laura, M., Borghi, C., Ørgaard, M., Allavena, A. and Rasmussen, S.K. 2011. Expression of KxhKN4 and KxhKN5 genes in Kalanchoe blossfeldiana ‘Molly’results in novel compact plant phenotypes: towards a cisgenesis alternative to growth retardants. Plant cell reports, 30, 2267-2279.
  • Mackenzie, K. K., Lütken, H., Coelho, L. L., Kaaber, M.D., Hegelund, J. N.and Müller, R. 2018. Kalanchoë; In: Ornamental Crops, pp 453-479.
  • Majumder, A., Roychowdhury, D. And Ray, S. 2023. Biotechnological approaches for ex situ conservation of medicinal plants. Medicinal Plants: Biodiversity, Biotechnology and Conservation, 729-800.
  • Mok, M.C., Mok, D. W., Turner, J. E. and Mujer, C. V. 1987. Biological and biochemical effects of cytokinin-active phenylurea derivatives in tissue culture systems. HortScience, 22(6), 1194-1197.
  • Murashige, T. and Skoog, F. (1962) A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiologia Plantarum; 15(3), (473-497).
  • Murthy, B.N.S., Murch, S.J. and Saxena, P.K. 1998. Thidiazuron: a potent regulator of in vitro plant morphogenesis. In vitro Cellular & Developmental Biology-Plant, 34, 267-275.
  • Nieves, M. C., Aspuria, E. T. and Tayangona, M. A. D. 2016. Growth responses of in vitro-derived nodal sections of Kalanchoe blossfeldiana Poellnitz as influenced by benzylaminopurine, thidiazuron and paclobutrazol. Asia life sciences, 25(1):207-220.
  • Pierik, R. L. M. 1997. In vitro culture of higher plants. Springer science & business media. B.V., Dordrecht, Netherlands ,348.
  • Podwyszyńska, M., Orlikowska, T., Trojak-Goluch, A. and Wojtania, A. 2022. Application and improvement of in vitro culture systems for commercial production of ornamental, fruit, and industrial plants in Poland. Acta Societatis Botanicorum Poloniae, 91(1):914.
  • Sanikhani, M., Frello, S. and Serek, M. 2006. TDZ induces shoot regeneration in various Kalanchoë blossfeldiana Poelln. cultivars in the absence of auxin. Plant Cell, Tissue and Organ Culture, 85(1), 75–82.
  • Sevimay, C. S., Khawar, K. M. and Yuzbasioglu, E. 2005. Adventitious shoot regeneration from different explants of wild lentil (Lens culinaris subsp. orientalis). Biotechnology & Biotechnological Equipment, 19(2), 46-49.
  • Snedecor, G. W. and Cochran, W. G. 1967. Statistical methods 6th edition , Iowa State University Press, Ames, Iowa.
  • Xinzheng, S., Li, Q. and Liang, M. 2006. Research on tissue culture and rapid propagation technology of white-flowered longevity flower. Chinese Agricultural Science Bulletin; 03:39-42.
  • Xue, J., Hua, N., Shi-Suli, S. and Zhang, L. 2019. Culture of longevity flower virus-free seedlings based on in vitro model system and flowering in bottles. Molecular Plant Breeding 14: 4733-4738.
  • Zheng, X., Liu, J. and Yuan, Y.J. 2013. Research on pink-flowered longevity flowers in vitro. Journal of Shanghai Agricultural Sciences; 04: 72-74.
There are 40 citations in total.

Details

Primary Language English
Subjects Plant Biotechnology in Agriculture
Journal Section Research Article
Authors

Rahma Bejaouı 0000-0002-1269-8560

Şeküre Şebnem Ellialtıoğlu 0000-0002-3851-466X

Ruhsar Yanmaz 0000-0002-4491-4037

Early Pub Date October 12, 2024
Publication Date October 12, 2024
Submission Date September 1, 2024
Acceptance Date September 27, 2024
Published in Issue Year 2024 Volume: 11 Issue: 4

Cite

APA Bejaouı, R., Ellialtıoğlu, Ş. Ş., & Yanmaz, R. (2024). The effect of different cytokinin and auxin source on micropropagation of Kalanchoe blossfeldiana. Turkish Journal of Agricultural and Natural Sciences, 11(4), 1182-1192. https://doi.org/10.30910/turkjans.1531762