Effects of growth regulators on Plant Tissue Culture of Ficus carica L.
Ficus carica L. is one of Moraceae family which natively to Westerns Asia anddistributed worldwide and economically important especially in sericulture, horticulture, food andcosmetic industries. Ficus carica L. contain numerous of nutrients, minerals and vitamins. Thisplant also produces secondary...
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Q Science Fadhlul Khaliq Ab Patah Effects of growth regulators on Plant Tissue Culture of Ficus carica L. |
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Ficus carica L. is one of Moraceae family which natively to Westerns Asia anddistributed worldwide and economically important especially in sericulture, horticulture, food andcosmetic industries. Ficus carica L. contain numerous of nutrients, minerals and vitamins. Thisplant also produces secondary metabolites, latex cells. The richness of nutrients andlatex cells make this plant possessed many pharmacological effects which is importantly tomedicinal and drugs industries. The demand for this plant is very high despite theproduction of fig is very inconsistent from year to year. So, this study aims to establish anddetermine the optimum concentration of benzylaminopurine (BAP) and napthelene acetic acid(NAA) for Ficus carica L. through plant tissue culture system by following completely randomizeddesign. The shoots were able to be regenerated from stems explants at most optimum concentrationof 1.0 mg/L BAP. For callus induction, all stem, shoot, petiole, and root explants able to emergecalli when cultured in MS medium with optimum combinations of BAP and NAA; 1.0 mg/L BAP +0.5 mg/L NAA, 0.5 mg/L BAP + 1.0 mg/L NAA, 1.5 mg/L BAP + 1.0 mg/L NAA, and 1.0 mg/L BAP + 1.0mg/L NAA respectively. The explants also were tested with other plant growth regulators such as thidiazuron (TDZ), Kinetin, indole-3-butyric acid (IBA), and 2,4-dichlorophenoxyacetic acid (2,4-D) for a comparison. The results still showed that BAP and NAA werethe best plant growth regulators used compared to others combinations. The micromorphology studyshows the presence of trichomes on adaxial and abaxial of in vitro and in vivo leaves. Stoma wasalso visible on all surfaces except on adaxial of in vivo leaf. The acclimatization process allowedthe plantlets survived in garden soil with 86.67% after weeks 8 cultured. Lastly, synthetic seedsof Ficus carica L. were produced with stem explants that encapsulated in 4% of sodiumalginate supplemented with 1.0 mg/L BAP. In conclusion, this study was successively establishedan alternative way in propagating Ficus carica L. through plant tissue culture system. Theimplication of this study would able to help in give a good information to public and improvingagriculturalsector with new technologies. |
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Fadhlul Khaliq Ab Patah |
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Fadhlul Khaliq Ab Patah |
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Fadhlul Khaliq Ab Patah |
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Effects of growth regulators on Plant Tissue Culture of Ficus carica L. |
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Effects of growth regulators on Plant Tissue Culture of Ficus carica L. |
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Effects of growth regulators on Plant Tissue Culture of Ficus carica L. |
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Effects of growth regulators on Plant Tissue Culture of Ficus carica L. |
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Effects of growth regulators on Plant Tissue Culture of Ficus carica L. |
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effects of growth regulators on plant tissue culture of ficus carica l. |
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oai:ir.upsi.edu.my:68752022-03-16 Effects of growth regulators on Plant Tissue Culture of Ficus carica L. 2020 Fadhlul Khaliq Ab Patah Q Science Ficus carica L. is one of Moraceae family which natively to Westerns Asia anddistributed worldwide and economically important especially in sericulture, horticulture, food andcosmetic industries. Ficus carica L. contain numerous of nutrients, minerals and vitamins. Thisplant also produces secondary metabolites, latex cells. The richness of nutrients andlatex cells make this plant possessed many pharmacological effects which is importantly tomedicinal and drugs industries. The demand for this plant is very high despite theproduction of fig is very inconsistent from year to year. So, this study aims to establish anddetermine the optimum concentration of benzylaminopurine (BAP) and napthelene acetic acid(NAA) for Ficus carica L. through plant tissue culture system by following completely randomizeddesign. The shoots were able to be regenerated from stems explants at most optimum concentrationof 1.0 mg/L BAP. For callus induction, all stem, shoot, petiole, and root explants able to emergecalli when cultured in MS medium with optimum combinations of BAP and NAA; 1.0 mg/L BAP +0.5 mg/L NAA, 0.5 mg/L BAP + 1.0 mg/L NAA, 1.5 mg/L BAP + 1.0 mg/L NAA, and 1.0 mg/L BAP + 1.0mg/L NAA respectively. The explants also were tested with other plant growth regulators such as thidiazuron (TDZ), Kinetin, indole-3-butyric acid (IBA), and 2,4-dichlorophenoxyacetic acid (2,4-D) for a comparison. The results still showed that BAP and NAA werethe best plant growth regulators used compared to others combinations. The micromorphology studyshows the presence of trichomes on adaxial and abaxial of in vitro and in vivo leaves. Stoma wasalso visible on all surfaces except on adaxial of in vivo leaf. The acclimatization process allowedthe plantlets survived in garden soil with 86.67% after weeks 8 cultured. Lastly, synthetic seedsof Ficus carica L. were produced with stem explants that encapsulated in 4% of sodiumalginate supplemented with 1.0 mg/L BAP. In conclusion, this study was successively establishedan alternative way in propagating Ficus carica L. through plant tissue culture system. Theimplication of this study would able to help in give a good information to public and improvingagriculturalsector with new technologies. 2020 thesis https://ir.upsi.edu.my/detailsg.php?det=6875 https://ir.upsi.edu.my/detailsg.php?det=6875 text eng closedAccess Masters Universiti Pendidikan Sultan Idris Fakulti Teknikal dan Vokasional Abbasi, A. M., Khan, M. A., Khan, N., and Shah, M. H. (2013) Ethnobotanical survey ofmedicinally important wild edible fruits species used by tribal communities of LesserHimalayas-Pakistan. Journal of Ethnopharmacology, 148, 538-536.A. I. M. Saad, and A. M. Elshahed, (2012). Plant Tissue Culture Media. In RecentAdvance in Plant in vitro Culture. 2938.Al-Snafi, A. E. (2017). Nutritional and pharmacological importance of Ficus carica.Journal of Pharmacy, 7(3), 2248.Alsarhan, A., Sultana, N., Al-Khatib, A., and Abdu Kadir, M. R. (2014). Review on SomeMalaysian Traditional Medicinal Plants with Therapeutic Properties. Journal of Basic and AppliedSciences, 10, 149159.Aroonpong, P., and Chang, J. (2015). Scientia Horticulturae Micropropagation of adifficult-to-root weeping mulberry ( Morus alba var . Shidareguwa ): A popular varietyfor ornamental purposes. Scientia Horticulturae, 194, 320326.Barolo, M. I., Mostacero, N. R., and Lpez, S. N. (2014). Ficus carica L . ( Moraceae ): An ancientsource of food and health. Food Chemistry, 164, 119127.Baskaran, P., and Staden, J. Van. (2013). South African Journal of Botany Rapid in vitromicropropagation of Agapanthus praecox. South African Journal of Botany, 86, 46 50.Burm, G.R., A.B. Silva and M. Pasqual, (2002). Effect of different concentration of BAP and NAA inthe Fig (Ficus carica L.) in vitro propagation. Ciencae Agrotecnologia. 26: 1403-1409Bayoudh, C., Labidi, R., Majdoub, A., and Mars, M. (2015). In vitro Propagation ofCaprifig and Female Fig Varieties ( Ficus carica L .) from Shoot-tips. JournalAgricultural Science Technology, 17, 15971608.Chandra, S., Bandopadhyay, R., Kumar, V., and Chandra, R. (2010). Acclimatization of tissuecultured plantlets : From laboratory to land. Biotechnol Lett, 32, 11991205.Danial, G. H., Ibrahim, D. A., Brkat, S. A., and Khalil, B. M. (2014). Multiple Shoots Productionfrom Shoot Tips of Fig Tree ( Ficus carica L .) and Callus Induction from LeafSegments, 20(1), 117124.Das, D. K., Rahman, A., Kumari, D., and Kumari, N. (2016). Synthetic Seed Preparation , Germination and Plantlet Regeneration of Litchi ( Litchi chinensis Sonn .).American Journal of Plant Sciences, 7, 13951406.Dessoky, E. S., Attia, A. O., and Mohamed, E. A. M. (2016). An efficient protocol for invitro propagation of Fig ( Ficus carica sp ) and evaluation of genetic fidelity using RAPD and ISSRmarkers. Journal of Applied Biology and Biotechnology, 4(4), 57 63.FAMA. (2020). Third National Agriculture Policy (DPN 3). Retrieved on 31 August 2020 from http://www.fama.gov.my/en/web/pub/dasar-pertanian-negara-ketiga- dpn3-FAOSTAT. (2017). Retrieved on 1 Nov 2017 from http://www.fao.org/faostat/en/Ferreira, E. ., and Pasqual, M. (2007). Micropropagation of Fig Tree ( Ficus carica sp ).In Protocol for Micropropagation of Woody Trees and Fruits. 409416.Gaaliche, B., Majdoub, A., Trad, M., and Mars, M. (2013). Assessment of PollenViability , Germination , and Tube Growth in Eight Tunisian Caprifig ( Ficus carica L .) Cultivars.ISRN Agronomy, 2013.Geetha, T., and Murugan, N. (2017). Plant Growth Regulators in Mulberry. Annual Researchand Review in Biology, 13(3), 111.Gnver, G. and Ertan, E. (1998). A study on the propagation of Figs by the tissue culturetechniques. Acta Hort. 480: 169-172.Guo, B., Bilal, H. A., Amir, Z., Xu, L. L. and Wei, Y. H. (2011). Thidiazuron: A multi- dimensionalplant growth regulator. African Journal of Biotechnology. 10(45). 8984- 9000Haque, S. M., Kundu,S., Das, A., and Ghosh, B. (2015). In vitro mass propagation and synthetic seedproduction combined with Phytochemical and antioxidant analysis of bacopa chamaedryoides: Anethno-medicinally important plant. Asian Journal of Pharmaceutical and Clinical Research.8(2): 377-383Hepaksoy, S. and U. Aksoy, (2008). In vitro propagation of ficus carica cv. sarilop clone selectedfor its high performance. Acta Hort. 798: 199-204Hesami, M., Daneshvar, M. H., Yoosefzadeh-Najafabadi, M., and Alizadeh, M. (2017) Effect ofplant regulators on indirect shoot organogenesis of Ficus religiosa through seedling derived petiole segments. Journal of Genetics Engineering and Biotechnology.Hesami, M., Daneshvar, M. H., Yoosefzadeh-Najafabadi, M., and Alizadeh, M. (2018) Establishmentof a protocol for in vitro seed germination and callus formation of Ficus religiosa L.,an important plant. Jundishapur J Nat Pharm Prod. 13(4)Ikeuchi, M., Sugimoto, K., Iwase, A. (2013). Plant callus: Mechanisms of induction andrepression. The Plant Cell. 25: 3159 - 3173Ins, M., Joo, M., Alves, R. C., and Ferreira, I. C. F. R. (2016). Exploring plant tissueculture to improve the production of phenolic compounds : A review. Industrial Crops andProducts, 82, 922.Jacommasi, E., Moscheta, I. S., Machado, S. R. (2007). Morfoanatomia e histoquimica deBrosimum gaudichaudii Trecul (Moraceae). Acta Botanica Brasilica. 21: 575-597.Jacommasi, E., Moscheta, I. S., Machado, S. R. (2010). Morfoanatomia e histoquimica de orgaosreproductivos de Borasimum gaudichaudii (Moraceae). Revista Brasileira de Botanice 33: 115-129.Jaiswal, V. and Narayan, P. (1985). Plant Cell Rep. 4(8): 256Kamarubahrin, A. F., Haris, A., Shukor, S. A., Daud, S. N. M., Ahmad, N., Zulkefli, Z. K., Muhamed,N. A., and Qadir, A. H. M. A. (2019). An Overview Malaysia As A Hub of Planting PropheticFruits. Malaysian Journal of Sustainable Agriculture (MJSA). 3(1). 13-19Ledo, A. da S., Barin, L. B., Silva, A. V. C. da, Sa, F. P. de, and Araujo Machado, C. (2014). Invitro germination and acclimatization of cambui tree type seedlings. Ciencia Rural, 44(8),13551359.Machado, A.F. D., Souza A. M., Leitao, C. A. E. (2013). Secretory structure at syconia and flowersof Ficus enormis (Moraceae): A specialization at ostioar bracts ant the first report inflorescencecolleters. Flora. 208: 45-51Magray, M. M., Wani, K. P., Chatto, M. A., Ummyiah. H. M. (2017). Synthetic SeedTechnology. Int.J.Curr.Microbiol.App.Sci. 6(11): 662-674Malik, M. A. (2009). In vitro propagation of pointed gourd (Trichosauthes dioca Roub).Through encapsulated shoot tips. Bangladesh J. Agri. Res. 34 (4): 555-563Mamoucha, S., Fokialakis, N., and Christodoulakis, N. S. (2016). Leaf structure andhistochemistry of Ficus carica (Moraceae), the fig tree. Flora. 218: 24-34Mawa, S., Husain, K., and Jantan, I. (2013). Ficus carica L . ( Moraceae): Phytochemistry , Traditional Uses and Biological Activities. Evidence-BasedComplementary and Alternative Medicine.Murashige, T. and Skoog, F. (1962) A Revised Medium for Rapid Growth and Bio Assayswith Tobacco Tissue Cultures. Physiol Plantarum, 15, 473-497.Mustafa Kamal, N. H., Aziz, M. A., Kadzimin, S., and Rashid, A. A. (2018). In Vitro Mass Multiplication of Artocarpus heterophyllus Lam var. Tekam Yellow. Pertanika J. Trop.Agr. Sc. 41(3): 1289 - 1314.Muriithi, L.M., T.S. Rangan and B.H. Waite (1982). In vitro propagation of Fig throughshoot tip culture. Hortiscience. 17(1): 86-87.Mustafa, N. S. and Taha, R. A. (2012). Influence of plant growth regulators andsubculturing on in vitro multiplication of some fig (Ficus carica) cultivars. Journal of AppliedScience Research. 8(8): 4038-4044Nobre, J. and A. Romano, 1998. In vitro cloning of ficus carica l. adult trees. Acta Hort. (ISHS)480: 161-164Oberhue, C. (2017). Top Fig Growing Countries. Worldatlas. Retrieved on 2 November 2017 fromhttp://www.worldatlas.com/articles/top-fig-growing-countries.htmLOguzhan, C., and Polat, A. A. (2012). Morphological diversity among fi g ( Ficus carica L .)accessions sampled from the Eastern Mediterranean Region of Turkey. Turk J Agric For, 36, 179193.Paknahad, A., and Sharafi, M. (2015). Benefits of Fig as viewed by Islam and Modern Medicine.International Journal of Agriculture and Crop Sciences, 8(5), 682685.Picolotto D. R. N., Paiva, V. B., Barros, F, Padilha, D. R C.,Cruz, A. C. F. and Otoni, W.C. (2017). Micropropagation of Cyrtopodium paludicolum (Orchidaceae) from root tip explants. CropBreeding and Applied Biotechnology.17: 181-197Ramli, N. (2017). Guru Tanam Pokok Tin Hasilkan Pendapatan Tambahan. Utusan Onine. Retrieved on 2 November 2017 fromhttp://www.utusan.com.my/berita/wilayah/kedah/guru-tanam-pokok-tin-hasilkan-pendapatan-tambahan-1.430977Sahoo, S. L., Rout, J. R., and Kanungo, S. (2012). Synthetic Seed. In Plant TissueCulture: Totipotency to Transgenic . 101124.Schnetzler, B. N., Teixeiraand, S. P., and Marinho, C. R. (2016). Trichomes that secrete substancesof a mixed nature in the vegetative and reproductive organs of some species ofMoraceae. Acta Botanica Brascilica. 31(3): 392-402.Shahzad A, Faisal M, and Anis M (2007) Micropropagation through excised root culture of Clitoriaternatea and comparison between in vitro regenerated plants and seedlings. AnnAppl Biol 150:341349Sharma, H. and Vashistha, B.D. (2010): Effect of some auxins on regenerative potential of variousexplants of Cinnamomum camphora (L.) Nees & Eberm. Ann. Agri. Bio. Res. 15(1): 83-89.Sharma, H. and Vashistha, B.D. (2011): Effect of some plant growth regulators onregenerative potential of internodal explants of Tinospora cordifolia (Willd.) Miers. ex Hook. f. &Thoms. Ann. Biol. 27(1): 9-14.Sharma, H. (2017). Role of Growth Regulators in Micropropagation of Woody Plants.International Journal of Advanced Research, 5(2), 23782385.Sharma, U., Kataria, V.,and Shekhawat, N. S. (2017). In vitro propagation, ex vitrorooting and leaf micromorphology of Bauhinia racemosa Lam.: a leguminous tree withmedicinal values. Physiol Mol Biol Plants. 23(4): 969-977Shatnawi, M. A., Shibli, R. A., Shahrour, W. G., Al-Qudah, T. S., and Abu-Zahra, T.(2019). Micropropagation and Conservation of Fig (Ficus carica L.). Journal of Advancesin Agriculture. 10.Shomali, I. A.-, Sadder, M. T., and Ateyyeha, A. (2017). Culture Media ComparativeAssessment of Common Fig ( Ficus carica L .) and Carryover Effect. Jordan Journal ofBiological Science, 10(1), 1318.Sidky, R., Al-salahi, M., and Al-mahmoud, A. (2017). Establishment of an EffiecientProtocol for Rooting and Acclimatization of Two Qatari Date Palm Cultivars Shishi and Lulu. GlobalJournal of Bio-Science and Biotehnology, 6(1), 5660.Simpson, M. G. (2012). Bitki Sistematigi - Plant SystematicSingh, B. M., Rajoriya, C. M., Wani, I. A., Rawat, R. S., and Jat, B. L. (2016). In Vitro Studiesof Ficus carica and its Application. International Jounal for Research in Applied Scienceand Engineering Technology, 4(11), 135148.Siwach, P. and Gill, A.R. (2011): Enhanced shoot multiplication in Ficus religiosa L. in thepresence of adenine sulphate, glutamine and phloroglucinol. Physiol. Mol. Biol. Plants 17:271-280.Soliman, H. I., Gaber, M., and Abdallah, N. (2010). Efficient transformation andregeneration of fig (Ficus carica L.) via somatic embryogenesis. GM. Crops. 1(1): 47-58.Souza, C. D., Pereira, R. A. S., Marinho, C.R., Kjellberg, F., Teixeira, S. P.(2015). Diversity of fig glands is associated with nursery mutualism in fig trees.America Journal of Botany 102: 1-14.Taha, R. M., Mahmad, N., Yaacob, J. S., Abdullah, N., Sources, A. E., and Matrix, E. (2013).Synthetic Seeds Production and Regeneration of Oxalis triangularis for Mass Propagation andConservation. International Journal of Environmental Science and Development, 4(5), 20112014.Ummu-Hani, B. and Noraini, T. (2013). The structure of cystoliths in selected taxa of the genusFicus L. (Moraceae) in Peninsular Malaysia.USDA. (2017). Food Composition and Databases Show Food. Retrieved on 2 Novembeer 2017 fromhttps://ndb.nal.usda.gov/ndb/foods/show/2201Wan, T. L., Fui, C. L., Wei, Y. L, Subramaniam, S. and Bee, L. C. (2018). Shootinduction from auxillary shoot tip explants of fig (Ficus carica) cv Japanese BTM 6Wulandari, Y. R. E. and Harjosudirjo, M. A. (2019). Micropropagation of Moruscathayana through in vitro culture from local Bogor, West Java, Indonesia.Nusantara Bioscience. 11(1). 18-22Yigit, N. (2012), Morfometrik Analiz Sistemi Kullanilarak Kastamonu YoresiMeselerinin Filogenetik Analizi.Yigit, N. (2017). Micromorphology Studies on Plants and Their Importance.Zieman. (2015). Big on Figs. The Star Online. Retrieved on 2 November 2015 fromhttps://www.thestar.com.my/metro/smebiz/focus/2015/05/04/big-on-figs/. |