INDUCTION, MULTIPLICATION, AND ACCLIMATIZATION OF RED BETEL PLANT (PIPER CROCATUM RUIZ AND PAV.) BY IN VITRO ORGANOGENESIS

Authors

  • Nesti Fronika Sianipar Food Technology Department, Faculty of Engineering, Bina Nusantara University, 15325 Tangerang, Indonesia
  • Verlina Verlina Alumni of Biology Department, Faculty of Science and Technology, Pelita Harapan University, 15811 Tangerang, Indonesia
  • Rosaria Rosaria Alumni of Biology Department, Faculty of Science and Technology, Pelita Harapan University, 15811 Tangerang, Indonesia

DOI:

https://doi.org/10.11113/jt.v78.8635

Keywords:

Piper crocatum ruiz and pav, in vitro organogenesis, induction, multiplication, acclimatization

Abstract

Red betel is an herbal plant with anticancer activities. Propagation of red betel by conventional vegetative method has low multiplication factors. The purpose of this research was to increase the propagation rate of red betel by utilizing in vitro culture organogenesis method which was consisted of stages as follows: shoots initiation, shoots multiplication, root induction, and acclimatization. Shoots induction from axillary bud was achieved on MS 3 mgL-1 BAP media. Shoots were multiplicated on MS (0, 0.5, 1, 1.5 mgL-1) BAP, (0.01, 0.03, 0.1, 0.3 mgL-1) TDZ, and (0.01, 0.03, 0.05, 0 mgL-1) TDZ combined with 0.5 mgL-1 NAA. Roots were induced on MS (0, 0.5, 1, 1, 5 mgL-1) NAA. The maximum number of shoots (4.4 ± 0.9) was achieved on MS 1 mgL-1 BAP. The maximum number of roots (22.8 ±

9.7) was achieved on MS 0.5 mgL-1 NAA. The highest survival rates of red betel plants during acclimatization and post-acclimatization periods were 88% and 100%, respectively. Red betel had been successfully multiplicated by in vitro direct organogenesis.

References

Tupas, L., Popp, B. And Karl, D., 1994. Dissolved Organic Carbon In Oligotrophic Waters: Experiments On Sample Preservation, Storage And Analysis. Marine Chemistry. 45: 207-216.

Wicaksono, B. D., Handoko, Y. A., Arung, E. T., Kusuma, I.W., Yulia, D., Pancaputra, A. N. And Sandra, F. 2009. Antiproliferative Effect of the Methanol Extract of Piper Crocatum Ruiz and Pav. Leaves on Human Breast (T47D) Cells In-Vitro. Tropical Journal of Phamrmaceutical Research. 4: 345-352.

Safithri, M. And Fahma. 2005. Potensi Rebusan Daun Sirih Merah (Piper Crocatum Ruiz and Pav.) Sebagai Senyawa Antihiperglikemia Pada Tikus Putih Galur Sprague Dawley. Hayati Journal of Bioscience. 15: 45-48

Fitriyani, A., Winarti, L., Muslicha, S. And Nuri. 2011. Uji Antiinflamasi Ekstrak Methanol Daun Sirih Merah (Piper Crocatum Ruiz And Pav.) Pada Tikus Putih. Majalah Obat Tradisional.16: 34-42.

Juliantina, F. R., Citra, D. A. C., Nirwani, B., Nurmasitoh, T. And Bowo, E. T. 2009. Manfaat Sirih Merah (Piper Crocatum Ruizand Pav.) Sebagai Agen Anti Bakteri Gram Postif Dan Negatif. Jurnal Kedokteran Dan Kesehatan Indonesia. 1-10.

Zubier, F., Bramono, K., Widaty, S., Nilasari, H., Louisa, M. And Rosana, Y. 2010. Efikasi Sabun Ekstrak Sirih Merah Dalam Mengurangi Gejala Keputihan Fisiologi. Majalah Kedokteran Indonesia. 40: 9-14.

Alfarabi, M., Bintang, M., Suryani and Safitri, M. 2010. The Comparatibe Ability of Antioxidant Activity Of Piper Crocatum Ruiz And Pav.In Inhibiting Fatty Acid Oxidation And Free Radical. Hayati Journal of Bioscience. 17: 201-204.

Reveny, J. 2011. Daya Antimikroba Ekstrak Dan Fraksi Daun Sirih Merah (Piper Bettle Linn.). Jurnal Ilmu Dasar. 12: 6-12.

Werdhany, W. I., Marton, A. And Setyorini, W. 2008. Sirih Merah. Yogyakarta: Balai Pengkajian Teknologi Pertanian Yogyakarta.

Prastowo, N. H., Roshetko, J. M., Maurung, G. E. S., Nugraha E., Tukan, J. M. And Harum, F. 2006. Teknik Pembibitan Dan Perbanyakan Vegetatif Tanaman Buah. Bogor: ICRAF. [10] Gunawan, L. W. 1987. Teknik Kultur Jaringan. Bogor: 1987.

George, E. F. And Sherrington, L. W. 1984. Plant Propagation By Tissue Culture Handbook And Directory Of Comercial Laboratories. England: Exegetics Ltd.

Hussain, A., Nazand, S. And Nazir, H. 2011. Tissue Culture Of Black Pepper (Piper Nigrum. L) In Pakistan. Pakistan Journal Of Botany. 2: 1069-1078.

Swarna, J. And Ravindhran, R. 2012. In Vitro Propagation And Assessment Of Genetic Integrity Of Talinum Triangulare (Jacq) Wild: A Valuable Medicinal Herb. Acta Physiologiae Plantarum. 34: 1987-1996.

Nirwan And Aziz, A. 2006. Multiplikasi Dan Pigmentasi Antosianin Daun Dewa (Gynura Pseudochina (L) DC) In Vitro. Bulletin Agronomi. 34: 112-118.

Ade, R. And Rai, M. 2011. Multiple Shoot Information In Gloriosa Superba: A Rare And Endangered Indian Medicinal Plant. Bioscience. 3: 68-72.

Vijayakumar, M., Vijayakumar, R. And Stephen, R. 2010. In Vitro Propagation Of Bacopa Monnieril-A Multipurpose Medical Plant. Indian Journal Science And Technology. 3: 782-789.

Parida, R. And Dhal, Y. 2011. A Study On The Micro-Propagation And Antioxidant Activity Of Piper Longum (An Important Medical Plant). Journal Of Medicinal Plant Research. 5: 6991-6994.

Wattimena, G. A. Bioteknologi Tanaman Bogor: Departemen Pendidikan Dan Kebudayaan Direktorat Jenderal Pendidikan Tinggi Pusat Antar Universitas Bioteknologi Institusi Pertanian Bogor.

Saha, S., Kader, A., Sengupta, C. And Ghosh, P. 2011. In Vitro Propagation Of Ocimum Gratissimum L. (Lamiaceae) And Its Evaluation Of Genetic Fidelity RAPD Marker. American Journal Of Plant Science. 3: 64-74.

Sharman, J., Khan, S. And Varman, R. 2012. In Vitro Culture Establishment And Shoot Induction Of Mallotus Philippenesis (Lam.) M. ARG. Pharmacie Globale International Journal Of Comprehensive Pharmacy. 3: 1-5.

Lata, H., Chandra, S., Wang, Y. H., Raman, V. And Khan, I. A. 2013. TDZ-Induced High Frequency Plant Regeneration Through Direct Shoot Organogenesis In Stevia Rebaudiana Bertoni: An Important Medicinal Plant And A Natural Sweetener. American Journal Of Sciences. 4: 117-128.

Sivanesan, I. S., Limand, M. Y. And Jeong, B. R. 2012. Micropropagation And Greenhouse Cultivatio Of Scrophularia Takesimensis Nakai, A Rare Endemic Medicinal Plant. Pakistan Journal Of Botany. 44: 1657-1662.

Amsar Siddiqueet, I., Anis, M. And Jahan, A. 2006. Rapid Multiplication Of Nyctanthes Arbor-Tritis L. Through In Vitro Axillary Shoots Proliferation. World Journal Of Agricultural Science. 2: 188192.

Malik, S., Sharma, S., Sharmaand, M. And Ahuja, P.S. 2010. Direct Shoot Regeneration From Intact Leaves Of Arnebia Euchroma (Royle). Cell Biology International. 34: 537-542.

Schulze, J. 2007. Improvements In Cereal Tissue Culture By Thiadiazuron: A Review. Global Science Book. 64-74.

He, S. S., Liu, C. Z. And Saxena, P.K. 2007. Plant Regeneration Of An Endangered Medicinal Plant Hydrastis Canadensis L. Elsevier. 113: 82-86.

Erisen, S., Atalay, E., Yorgancilar, M. 2011. The Effect Of Thiadiazuron On The In Vitro Shoot Development Of Endemic Antragalus Cariensis In Turkey. Turkey J Bot. 35: 521-526.

Riyadi, I. And Tahardi, J.S. 2005. Pengaruh NAA Dan IBA Terhadap Pertumbuhan Dan Perkembangan Tunas Kina (Cinchona Succirubra). Jurnal Bioteknologi Pertanian. 10: 45-50.

Phulwaria, M., Rai, M. K., Patel, A. K. Kataria, V. And Shekhawat, N. S. 2012. A Genetically Stable Rooting Protocol For Propagating A Threatened Medicinal Plant-Clesatrus Paniculatus. Aob Plant. 1-9.

Dominguez, F., Lozoya, X. And Simon, J. 2006. Tissue Culture Regeneration Of A Medical Plant From Mexico: Piper Auritum Khunth. Hortscience. 41: 207-209.

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Published

2016-05-16

Issue

Vol. 78 No. 5-6: Environmental and Civil Engineering Technology

Section

Science and Engineering

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How to Cite

INDUCTION, MULTIPLICATION, AND ACCLIMATIZATION OF RED BETEL PLANT (PIPER CROCATUM RUIZ AND PAV.) BY IN VITRO ORGANOGENESIS. (2016). Jurnal Teknologi, 78(5-6). https://doi.org/10.11113/jt.v78.8635