The combined effect of cold stress and polyamine supplement on some phytochemical parameters of Stevia rebaudiana (Bertoni) Bertoni.
Subject Areas : Environmental physiologyKamran Moradi Peynevandi 1 , Syed Mehdi Razvi 2 , Saber Zahri 3
1 - Department of Biology, Faculty of Sciences, University of Mohaghegh Ardabili, Ardabil, Iran
2 - Department of Biology, Faculty of Sciences, University of Mohaghegh Ardabili, Ardabil, Iran
3 - Department of Biology, Faculty of Sciences, University of Mohaghegh Ardabili, Ardabil, Iran
Keywords: antioxidant activity, Stevia rebaudiana, Cold, Polyamine supplement,
Abstract :
Stevia rebaudiana (Bertoni) Bertoniis a perennial herb belongs to Asteraceae family. The plant has been cultivated in all over of the world for its sweetener compounds such as: steviol glycosides. In this study to evaluate the effects of cold stress (4ºC) combined with polyamine supplement on some phytochemical parameters an experiment was carried out in a randomized design with three replications. The phytochemical measurement were obtained by spectrophotometery methods consisted of Folinciocalteu method for tanins-phenols, aluminium chloride method for flavonoids, Anthon reagent for soluble sugars and spectrophotometer for anthocyanins and steviol glycosides. The treatments were conducted in six groups contained of cold and cold-polyamine treatments in 0, 48 and 96-hours of cold courses. The measurements were performed on the plant leaves at vegetative stage at Mohaghegh Ardabili University in May 2017. The results showed that the cold stress tends to a significant increase in all of measured parameters at p≤0.05. This increase was higher in the cold-polyamine treated plants than cold only treated groups of the plant. The results indicated that total soluble sugar and steviol glycosides were increased 233 and 35 percent, respectively, than control at 96-h cold combined with polyamine treatment. At same treatment, total flavonoid, anthocyanin, total phenol and tannin contents were increased up to 40, 100, 20 and 66 percentage than control, as well as. At the same plant group, the plant antioxidant potential was also elevated 20 percentage than control ones. It can be concluded thatcombined treatment of Stevia rebaudiana with cold and polyamine supplement can induced the secondary metabolite biosynthesis in the plant and hence might be tend to a considerably increasing in the plant pharmaceutical potential.
- Alcázar, R., Altabella, T., Marco, F., Bortolotti, C., Reymond, M., Koncz, C., Carrasco, P. and Tiburcio, A.F. 2010. Polyamines: molecules with regulatory functions in plant abiotic stress tolerance. Planta, 231(6): 1237-1249.
- Allen, D.J. and Ort, D.R. 2001. Impacts of chilling temperatures on photosynthesis in warm-climate plants. Trends in Plant Science, 6(1): 36-42.
- Anwar, R., Mattoo, A.K. and Handa, A.K. 2015. Polyamine interactions with plant hormones: crosstalk at several levels. 267-302. In: Tomonobu Kusano and Hideyuki Suzuki (eds.). Polyamines. Springer, Japan, 335 p.
- Bao, Y.F., Li, J.Y., Zheng, L.F. and Li, H.Y. 2015. Antioxidant activities of cold-nature Tibetan herbs are significantly greater than hot-nature ones and are associated with their levels of total phenolic components. Chinese Journal of Natural Medicines, 13(8): 609-617.
- Blois, M.S. 1958. Antioxidant Determination by the Use of Stable Free Radical. Nature, 181(4617): 1199-1200.
- Champa, W.H., Gill, M.I.S., Mahajan, B.V.C. and Arora, N.K. 2014. Postharvest treatment of polyamines maintains quality and extends shelf-life of table grapes (Vitis vinifera L.) cv. Flame Seedless. Postharvest Biology and Technology, 91(1): 57-63.
- Chang, C.C., Yang, M.H., Wen, H M. and Chern, J.C. 2002. Estimation of total flavonoid content in propolis by two complementary colorimetric methods. Journal of Food and Drug Analysis, 10(3): 178-182.
- Cook, D., Fowler, S., Fiehn, O. and Thomashow, M.F. 2004. A prominent role for the CBF cold response pathway in configuring the low-temperature metabolome of Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America, 101(42): 15243-15248.
- Emamian Tabarestani, M., Farahmandfar, E., Pirdashti, H. and Yaghoubian, Y. 2016. Effect of light intensity on trend of chlorophyll fluorescence parameters changes in stevia (Stevia rebaudiana Bertoni) medicinal plant under cold stress. Journal of Plant Ecophysiology, 8(24): 100–111. (In Persian)
- Ferreyra, M.L.F., Rius, S.P. and Casati, P. 2012. Flavonoids: biosynthesis, biological functions, and biotechnological applications. Frontiers in Plant Science, 3(1):1-15.
- Gill, S.S. and Tuteja, N. 2010. Polyamines and abiotic stress tolerance in plants. Plant Signaling & Behavior, 5(1): 26-33.
- Groppa, M. D., and M. P. Benavides. 2008. Polyamines and abiotic stress: recent advances. Amino acids, 34(1): 35-45.
- Hamon, L., Savarin, P., Curmi, P.A. and Pastré, D. 2011. Rapid assembly and collective behavior of microtubule bundles in the presence of polyamines. Biophysical Journal, 101(1): 205-216.
- Karimi, M., Hashemi, J., Ahmadi, A. and Abasi, A. 2013. Effects of drought on growth and steviol glycosides content in Stevia rebaudiana. Iranian Journal of Crop Sciences, 44(4): 693-702.
- Khalil, S.A., Kamal, N., Sajid, M., Ahmad, N., Zamir, R., Ahmad, N. and Ali, S. 2016. Synergism of polyamines and plant growth regulators enhanced morphogenesis, stevioside content, and production of commercially important natural antioxidants in Stevia rebaudiana Bert. In Vitro Cellular & Developmental Biology, 52(2): 174.
- Kirakosyan, A., Seymour, E., Kaufman, P.B., Warber, S., Bolling, S. and Chang, S.C. 2003. Antioxidant capacity of polyphenolic extracts from leaves of Crataegus laevigata and Crataegus monogyna (Hawthorn) subjected to drought and cold stress. Journal of Agricultural and Food Chemistry, 51(14): 3973-3976.
- Lemus-Mondaca, R., Vega-Gálvez, A., Zura-Bravo, L. and Ah-Hen, K. 2012. Stevia rebaudiana Bertoni, source of a high-potency natural sweetener: A comprehensive review on the biochemical, nutritional and functional aspects. Food Chemistry, 132 (2012): 1121-1132.
- Leyva, A., Jarillo, J.A., Salinas, J. and Martinez-Zapater, J.M. 1995. Low temperature induces the accumulation of phenylalanine ammonia-lyase and chalcone synthase mRNAs of Arabidopsis thaliana in a light-dependent manner. Plant Physiology, 108(1): 39-46.
- Liopa-Tsakalidi, A., Kaspiris, G., Salahas, G. and Barouchas, P. 2012. Effect of salicylic acid (SA) and gibberellic acid (GA3) pre-soaking on seed germination of stevia (Stevia rebaudiana) under salt stress. Journal of Medicinal Plants Research, 6(3): 416-423.
- Mirdehghan, S. H., and S. Rahimi., 2016. Pre-harvest application of polyamines enhances antioxidants and table grape (Vitis vinifera L.) quality during postharvest period. Food Chemistry, 196:1040-1047.
- Moheb, A., Ibrahim, R.K., Roy, R. and Sarhan, F. 2011. Changes in wheat leaf phenolome in response to cold acclimation. Phytochemistry, 72(18): 2294-2307.
- Moradi Peynevandi, K., Sharifi, M. and Behmanesh, M. 2014. Effects of methyl jasmonate, on stevioside and rebaudioside A content and expression of the ent-Kaurenoic acid 13-hydroxylase gene in Steviarebaudiana Bert. in vitro. Iranian Journal of Plant Biology, 6(21): 99-110. (In Persian)
- Opara, U.L., Atukuri, J. and Fawole, O.A. 2015. Application of physical and chemical postharvest treatments to enhance storage and shelf life of pomegranate fruit-A review. Scientia Horticulturae, 197(1): 41-49.
- Prasann, K., Padmanabh, D. and Pallavi, S. 2012. Role of polyamine in combating heavy metal stress in Stevia rebaudiana Bertoni. under in vitro conditions. International Journal of Agriculture Environment & Biotechnology, 5(3): 193-198.
- Rajab, R., Mohankumar, C., Murugan, K., Harish, M. and Mohanan, P. 2009. Purification and toxicity studies of stevioside from Stevia rebaudiana Bertoni. Toxicology International, 16(1): 49.
- Sami, F., Yusuf, M., Faizan, M., Faraz, A., and Hayat, S. 2016. Role of sugars under abiotic stress. Plant Physiology and Biochemistry, 109(1): 54-61.
- Sanghera, G.S., Wani, S.H., Hussain, W. and Singh, N.B. 2011. Engineering cold stress tolerance in crop plants. Current Genomics, 12(1): 30-43.
- Sheteiwy, M., Shen, H., Xu, J., Guan, Y., Song, W. and Hu, J. 2017. Seed polyamines metabolism induced by seed priming with spermidine and 5-aminolevulinic acid for chilling tolerance improvement in rice (Oryza sativa L.) seedlings. Environmental and Experimental Botany, 137(1): 58-72.
- Slinkard, K. and Singleton, V.L. 1977. Total phenol analysis: automation and comparison with manual methods. American Journal of Enology and Viticulture, 28(1): 49-55.
- Soufi, S., D’Urso, G., Pizza, C., Rezgui, S., Bettaieb, T. and Montoro, P. 2016. Steviol glycosides targeted analysis in leaves of Steviarebaudiana (Bertoni) from plants cultivated under chilling stress conditions. Food Chemistry, 190(2016): 572-580.
- Wagner, G.J. 1979. Content and vacuole/extravacuole distribution of neutral sugars, free amino acids, and anthocyanin in protoplasts. Plant Physiology, 64(1): 88-93.
- Yemm, E.W. and Willis, A.J. 1954. The estimation of carbohydrates in plant extracts by anthrone. Biochemical journal, 57(3): 508.
- Yuanyuan, M., Yali, Z., Jiang, L. and Hongbo, S. 2009. Roles of plant soluble sugars and their responses to plant cold stress. African Journal of Biotechnology, 8(10): 2004-2010.
- Zeng, J., Cai, W., Yang, W. and Wu, W. 2013. Antioxidant ability, phenolics and flavnoids content in the ethanolic extracts of the stems and leaves of different Stevia rebaudiana Bert lines. Sugar Technology, 15(2): 209-213.
- Zeng, J., Chen, A., Li, D., Yi, B. and Wu, W. 2013. Effects of salt stress on the growth, physiological responses, and glycoside contents of Stevia rebaudiana Bertoni. Journal of Agricultural and Food Chemistry, 61(24): 5720-5726.
_||_
