NARRATIVE REVIEW: UTILIZATION OF HORTICULTURAL COMMODITY PLANT TISSUE CULTURE TECHNOLOGY AS A HALAL BIOTECHNOLOGY METHOD FOR FOOD AND PHARMACEUTICAL PURPOSES
DOI:
https://doi.org/10.30653/ijma.202221.38Keywords:
Halal Biotechnology, Tissue Culture, Horticulture, Food, MedicineAbstract
Horticultural Commodity Plants are crop commodities consisting of vegetables, fruits, medicines, and spices. The advantages and disadvantages of horticultural commodity crops are one of the challenges that need to be considered in meeting the needs of the food and pharmaceutical industries which are increasingly out of control in terms of demand. One solution that can be given to researchers in the field of biotechnology in helping farmers to accelerate the process of plant propagation is through tissue culture techniques. The advantage of this method is that the plants produced are genetically the same and in harmony with their parents. The research method used is to collect data sources from the results of previous studies. The results of the review obtained that horticultural commodity plants propagated through tissue culture methods have prospects in the food and pharmaceutical fields. The conclusion in this review is that the tissue culture technique of horticultural commodity plants is a halal biotechnology method in vitro plant propagation to meet the interests of the food industry such as nutrition or nutriceuticals and pharmaceuticals such as cosmetics, herbal medicines, and phytopharmaceuticals. Several horticultural commodity plants with various problems through tissue culture techniques include vanilla, pepper, and tobacco. Purwoceng (Pimpinella pruatjan). Temu the princess (Curcuma petiolata). Puar (Elettaria sumatrana). Pulepandak (Rauwolfia serpentina). Pulai (Alstonia scholaris). Bidara upas (Merremia mammosa). Inggu (Ruta angustifolia). This is an example of a part of a horticultural commodity plant that has been successfully stored through tissue culture techniques as an in vitro germplasm collection.
References
Elma, T., Suminar, E., Mubarok, S., Nuraini, A., & Ariyanto, N. (2018). Multiplikasi tunas mikro pisang (Musa paradisiaca l.) ‘raja bulu’ secara in vitro pada berbagai jenis dan konsentrasi sitokinin. Kultivasi, 16(3). https://doi.org/10.24198/kltv.v16i3.14917
Fadhilah, F. R., Rezaldi, F., Fadillah, M. F., & Setiawan., U. (2021). Narrative Review: Metode Analisis Produk Vaksin Yang Aman Dan Halal Berdasarkan Perspektif Bioteknologi. IJMA: International Journal Mathla’ul Anwar Of Halal, 1(1). https://doi.org/https://doi.org/10.30653/ijma.202111.12
Hani, R. C., & Milanda, T. (2016). Review: Manfaat Antioksidan Pada Tanaman Buah Di Indonesia. Farmaka, 14(1). https://doi.org/https://doi.org/10.24198/jf.v14i1.10735
Kanapuru, B. (2002). Enrollment of older adults in Cancer clinical trials : US Food and Drug Administration Experience. United State.
Mariska, I. (2002). Perkembangan Penelitian Kultur In Vitro pada Tanaman Industri, Pangan, dan Hortikultura. Buletin AgroBio, 5(2), 45–50.
Master Plan. (2003). Master Plan 2003 is Approved. Retrieved from eresources.nlb.gov.sg website: https://eresources.nlb.gov.sg/history/events/7517a0eb-0373-4c1f-9e6d-f0891b f4f74e#:~:text=The Master Plan 2003 was approved by then,for a period of 10 to 15 years.?msclkid=9027f9c4b89c11ecae6ce98fe91a1e53
Mubarok, S., Okabe, Y., Fukuda, N., Ariizumi, T., & Ezura, T. (2015). Potential Use of a Weak Ethylene Receptor Mutant, Sletr1-2, as Breeding Material, To Extend Fruit Shelf Life of Tomato. Journal of Agricultural and Food Chemistry, 63(36), 7995–8007. https://doi.org/https://doi.org/10.1021/acs.jafc.5b02742
Munggarani, M., Suminar, E., Nuraini, A., & Mubarok, S. (2018). Multiplikasi Tunas Meriklon Kentang Pada Berbagai Jenis Dan Konsentrasi Sitokinin. Agrologia : Jurnal Ilmu Budidaya Tanaman, 7(2). https://doi.org/http://dx.doi.org/10.30598/a.v7i2.766
Rezaldi, F., Abdilah, N. A., Mu’jijah., Susilo, H., Suyamto., Setiawan, U., & Oktavia, S. (2022). Multiplikasi Tunas dan Induksi Perakaran Tanaman Nilam (Pogestemon cablin Benth) secara in vitro Pada Medium Murashige and Skoog. Jurnal Ilmu Pertanian Dan Perkebunan, 4(1).
Sukmadjaya, D., Husni, A., & Mariska, I. (1996). Analisis Isozim pada Beberapa Nomor Panili Hasil Biak Jaringan yang diinduksi dengan Sinar Gamma. Jurnal Bioteknologi Pertanian, 1(2), 60–67.
