Effect of sucrose on inducing in vitro microtuberization in potato without using any growth hormone

Paper Details

Research Paper 01/07/2015
Views (346) Download (6)
current_issue_feature_image
publication_file

Effect of sucrose on inducing in vitro microtuberization in potato without using any growth hormone

Ayesha Wazir, Zishan Gul, Manzoor Hussain, Zaheer Ullah Khan, Maria Saleem, Isma Khurshid
Int. J. Agron. Agri. Res.7( 1), 118-124, July 2015.
Certificate: IJAAR 2015 [Generate Certificate]

Abstract

The present in vitro experiment was conducted to investigate the effect of the various concentrations of sucrose on potato plantlets growth and microtuberization. It was observed that increasing sucrose level in the media influenced the plant growth negatively. 3% sucrose concentration in the medium showed comparatively early root/shoot emergence and highest mean root and shoot length (6.16 cm and 8.28 cm, respectively) with greater number of nodes (7.90). However, regarding microtubers (Mt) formation, treatment with 8% sucrose concentration has higher microtubers number with larger size (mean diameter 6.84mm). The mean weight of Mt was also highest (97.0mg) at 8 % sucrose concentration followed by T1 (70.00mg). It has been concluded on the basis of results that MS medium supplemented with 8% sucrose level and without any growth hormone is the best for in vitro microtuber formation in potato.

VIEWS 19

Abbas MF, Hameed S, Rauf A, Nosheen Q, Ghani A, Qadir A, Zakia S. 2012. Incidence of six viruses in potato growing areas of Pakistan. Pakistan Journal of Phytopathology 24, 44- 47.

Adjei PY. 2001. Effect of carbon source (sucrose) on the morphogenesis of pineapple (ananas comosus (L) merr) cultured in-vitro. Journal of the kwame Nkrumah university Science and technology Kumasi. 21, nos.1, 2 and 3.

Ahmad M,    Ahmad W. 1995. Detection of major potato viruses from different potato growing localities of Punjab. National Seminar on Research and Development of Potato Production in Pakistan, PDP/PARC, Islamabad, Pakistan.

Calamar A, De-Klerk GJ. 2002. Effect of sucrose on adventitious root regeneration in apple. Plant Cell Tissue and Organ Culture 70, 207.

Carlson C, Groza HI, Jiang J. 2004. Induction of in vitro minimum potato plant growth and microtuberization. American Journal of Potato Research 81, 50.

Dodds JH, Silva-Rodriguez D, Tovar P. 1992. Micropropagation of potato (Solanum tuberosum L.). In: Biotechnology in Agriculture and Forestry: High-Tech and microprogation III, (Ed. Bagaj, Y.S.P), Springer, NewYork 19, 91-106.

Estrada R, Tover P, Dodds JH. 1986. Induction of in vitro tubers in a broad range of potato genotypes. Plant Cell Tissue and Organ Culture 7, 3–10.

Gauchan DP. 2012. Effect of different sugars on shoot regeneration of maize (Zea mays L.). Kathmandu University Journal of Science, Engineering and Technology 8, 119-124.

Gul Z, Khan AA, Khan AR, Khan ZU. 2013. Incidence of Potato Viruses in Different Districts of Khyber Pakhtunkhawa, Pakistan. esci Journal of Plant Pathology 2, 32-36.

Gulsen  Y,  Domanoglu  H.  1991.  The  effect  of sucrose, agar and pH on shoot multiplication and quality in quince micropropagation. Acta horticulture 289, 115-116.

Kanwal A, Ali A, Shoaib K. 2006. In vitro microtuberization of potato (Solanum tuberosum L.) Cultivar Kuroda- A new variety in Pakistan. International Journal of Agriculture and Biology 8, 337-340.

Kefi S, Pavlista AD, Meagher MM, Read PE. 2000. Invertase activity as affected by cytokinin like compounds during potato tuberization in vitro. American Journal of Potato Research 77, 57-61.

Khan IA, Dahot MU, Yasmin S, Khatri A, Seema N, Naqvi MH. 2006. Effect of sucrose and growth regulators on the micropropagation of sugarcane clones. Pakistan Journal of Botany 38(4), 961-967.

Khuri S, Moorby J. 1995. Investigation into the role of sucrose in Potato cv. ESTIMA microtuber production in vitro. Annals of Botany 75(3), 296-303.

Miranda RM, Costa AC, Silva FG, Sousa CM, Figueiredo SA. 2005. Induction to microtuberization in vitro in potato (Solanum tuberosum) plant. Revist Cientifica Rural 10(1), 31-38.

Murashige T, Skoog F. 1962. A revised medium for rapid growth and bioassays with tobacco tissue culture. Physiologia Plantarum 15, 473-497.

Oparka KJ, Wright KM. 1988. Osmotic regulation of starch synthesis in potato tubers. Planta 174, 123-126.

Ranalli P. 2007. The canon of potato science: 24. Microtubers Potato Research 50, 301-304.

Rosu R, Chiru N, Rolot JL. 2004. Researches on genotype influence on potato Microtuberization Anale, ICDCSZ,Vol.XXXI, Proceedings of EAPR Agronomy Section Meeting, Mamaia, Romania, June 23-27th 2004, 120-128.

Tauquer A, Abbasi NA, Hafiz I, Ali A. 2007. Comparison of sucrose and sarbitol as main carbon energy sources in micropropagation of peach root stock GF- 677. Pakistan Journal of Botany 39(4), 1269.

Vecchio V, Andrenelli L, Pagano MT, Benedettelli S. 1994. Influence of photoperiod and media culture on potato microtuber production and dormancy. Potato Research 37, 440.