biologia plantarum

International journal on Plant Life established by Bohumil Němec in 1959

Biologia plantarum 58:9-17, 2014 | DOI: 10.1007/s10535-013-0374-5

Brassinosteroids and their role in response of plants to abiotic stresses

Q. Fariduddin1,*, M. Yusuf1,2, I. Ahmad2, A. Ahmad1
1 Plant Physiology and Biochemistry Section, Department of Botany, Aligarh Muslim University, Aligarh, India
2 Department of Agricultural Microbiology, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh, India

Brassinosteroids (BRs) are polyhydroxylated steroidal plant hormones that play pivotal role in the regulation of various plant growth and development processes. BR biosynthetic or signaling mutants clearly indicate that these plant steroids are essential for regulating a variety of physiological processes including cellular expansion and proliferation, vascular differentiation, male fertility, timing senescence, and leaf development. Moreover, BRs regulate the expression of hundreds of genes, affect the activity of numerous metabolic pathways, and help to control overall developmental programs leading to morphogenesis. On the other hand, the potential application of BRs in agriculture to improve growth and yield under various stress conditions including drought, salinity, extreme temperatures, and heavy metal (Cd, Cu, Al, and Ni) toxicity, is of immense significance as these stresses severely hamper the normal metabolism of plants. Keeping in mind the multifaceted role of BRs, an attempt has been made to cover the various aspects mediated by BRs particularly under stress conditions and a possible mechanism of action of BRs has also been suggested.

Keywords: antioxidant system; drought; heavy metals; high temperature; low temperature; oxidative stress; photosynthesis
Subjects: brassinosteroids; antioxidants; water stress; heavy metals; temperature - high; temperature - low; oxidative stress; photosynthesis

Received: October 10, 2012; Revised: June 24, 2013; Accepted: July 29, 2013; Published: March 1, 2014  Show citation

ACS AIP APA ASA Harvard Chicago Chicago Notes IEEE ISO690 MLA NLM Turabian Vancouver
Fariduddin, Q., Yusuf, M., Ahmad, I., & Ahmad, A. (2014). Brassinosteroids and their role in response of plants to abiotic stresses. Biologia plantarum58(1), 9-17. doi: 10.1007/s10535-013-0374-5
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. Abdullahi, B.A., Gu, X., Gan, Q., Yang, Y.: Brassinolide amelioration of aluminium toxicity in mung bean seedling growth. - J. Plant. Nutr. 26: 1725-1734, 2003. Go to original source...
    2. Ahammed, G.J., Zhou, Y.H., Xia, X.J., Mao, W.H., Shi, K., Yu, J.Q.: Brassinosteroid regulates secondary metabolism in tomato towards enhanced tolerance to phenanthrene. - Biol. Plant. 57: 154-158, 2013. Go to original source...
    3. Alam, M.M., Hayat, S., Ali, B., Ahmad, A.: Effect of 28-homobrassinolide on nickel induced changes in Brassica juncea. - Photosynthetica 45: 139-142, 2007. Go to original source...
    4. Ali, B., Hasan, S.A., Hayat, S., Hayat, Q., Yadav, S., Fariduddin, Q., Ahmad, A.: A role of brassinosteroids in the amelioration of aluminium stress through antioxidant system in mung bean (Vigna radiata L.) Wilczek. - Environ. exp. Bot. 62: 153-159, 2008a. Go to original source...
    5. Ali, B., Hayat, S., Ahmad, A.: 28-homobrassinolide ameliorates the saline stress in Cicer arietinum L. - Environ. exp. Bot. 59: 217-223, 2007. Go to original source...
    6. Ali, Q., Athar, H.R., Ashraf, M.: Modulation of growth, photosynthetic capacity and water relations in salt stressed wheat plants by exogenously applied 24-epibrassinolide. - Plant. Growth. Regul. 56: 107-116, 2008b. Go to original source...
    7. Allen, D.J., Ort, D.R.: Impact of chilling temperatures on photosynthesis in warm-climate plants. - Trends Plant. Sci. 6: 36-42, 2001. Go to original source...
    8. Anuradha, S., Rao, S.S.R.: Effect of brassinosteroids on radish (Raphanus sativus L.) seedlings growing under cadmium stress. - Plant Soil Environ. 53: 465-472, 2007a. Go to original source...
    9. Ashraf, M., Akram, N.A., Arteca, R.N., Foolad, M.R.: The physiological, biochemical and molecular roles of brassinosteroids and salicylic acid in plant processes and salt tolerance. - Crit. Rev. Plant. Sci. 29: 162-190, 2010. Go to original source...
    10. Ashraf, M., Foolad, M.R.: Roles of glycinebetaine and proline in improving plant abiotic stress resistance. - Environ. exp. Bot. 59: 206-216, 2007. Go to original source...
    11. Bajguz, A., Hayat, S.: Effects of brassinosteroids on the plant responses to environmental stresses. - Plant. Physiol. Biochem. 47: 1-8, 2009. Go to original source...
    12. Berry, J., Björkman, O.: Photosynthetic response and adaptation to temperature in higher plants. - Annu. Rev. Plant Physiol. 31: 491-543, 1980. Go to original source...
    13. Caño-Delgado, A., Yin, Y., Yu, C., Vafeados, D., Mora-García, S., Cheng, J.C., Nam, K.H., Li, J., Chory, J.: BRL1 and BRL3 are novel brassinosteroid receptors that function in vascular differentiation in Arabidopsis. - Development 131: 5341-5351, 2004. Go to original source...
    14. Cao, S., Xu, Q., Cao, Y., Qian, K., An, K., Zhu, Y., Binzeng, H., Zhao, H., Kuai, B.: Loss-of-function mutations in DET2 gene lead to an enhanced resistance to oxidative stress in Arabidopsis. - Physiol. Plant. 123: 57-66, 2005. Go to original source...
    15. Catterou, M., Dubois, F., Schaller, H., Aubanelle, L., Vilcot, B., Sangwan, N.B.S., Sangwan, R.S.: Brassinosteroids, microtubules and cell elongation in Arabidopsis thaliana. I. Molecular, cellular and physiological characterization of the Arabidopsis bul1 mutant, defective in the Δ(7)-sterol-C5-desaturation step leading to brassinosteroids biosynthesis. - Planta 212: 659-672, 2001. Go to original source...
    16. Choe, S.: Brassinosteroid biosynthesis and inactivation. - Physiol. Plant. 126: 539-548, 2006. Go to original source...
    17. Choudhary, S.P., Yu, J.Q., Yamaguchi-Shinozaki, K., Shinozaki, K., Lam-Son, P.T.: Benefits of brassinosteroid crosstalk. - Trends Plant Sci. 17: 594-605, 2012. Go to original source...
    18. Clouse, S.D., Sasse, J.M.: Brassinosteroids: essential regulators of plant growth and development. - Annu. Rev. Plant Physiol. Plant mol. Biol. 49: 427-451, 1998. Go to original source...
    19. Divi, U.K., Rahman, T., Krishna, P.: Brassinosteroids-mediated stress tolerance in Arabidopsis shows interactions with abscisic acid, ethylene and salicylic acid pathways. - BMC Plant Biol. 10: 151, 2010. Go to original source...
    20. Ding, H.D., Zhu, X.H., Zhu, Z.W., Yang, S.J., Zha, D.S., Wu, X.X.: Amelioration of salt-induced oxidative stress in eggplant by application of 24-epibrassinolide. - Biol. Plant. 56: 767-770, 2012 Go to original source...
    21. Fariduddin, Q., Khanam, S., Hasan, S.A., Ali, B., Hayat, S., Ahmad, A.: Effect of 28-homobrassinolide on drought stress induced changes in photosynthesis and antioxidant system of Brassica juncea L. - Acta Physiol. Plant. 31: 889-897, 2009a. Go to original source...
    22. Fariduddin, Q., Yusuf, M., Chalkoo, S., Hayat, S., Ahmad, A.: 28-homobrassinolide improves growth and photosynthesis in Cucumis sativus L. through an enhanced antioxidant system in the presence of chilling stress. - Photosynthetica 49: 55-64, 2011. Go to original source...
    23. Fariduddin, Q., Yusuf, M., Hayat, S., Ahmad, A.: Effect of 28-homobrassinolide on antioxidant capacity and photosynthesis in Brassica juncea plants exposed to different levels of copper. - Environ. exp. Bot. 66: 418-424, 2009b. Go to original source...
    24. Friedrichsen, D.M., Joazeiro, C.A.P., Li, J., Hunter, T., Chory, J.: Brassinosteroid-Insensitive-I is a ubiquitously expressed leucine-rich repeat receptor serine/threonine kinase. - Plant Physiol. 123: 1247-1255, 2000. Go to original source...
    25. Gille, G., Sigler, K.: Oxidative stress in living cells. - Folia microbiol. 2: 131-152, 1995. Go to original source...
    26. Goda, H., Shimada, Y., Asami, T., Fujioka, S., Yoshida, S.: Microarray analysis of brassinosteroid-regulated genes in Arabidopsis. - Plant Physiol. 130: 1319-1334, 2002. Go to original source...
    27. Gomes, M.M.A.: Physiological effects related to brassinosteroid application in plants. - In: Hayat, S., Ahmad, A. (ed.): Brassinosteroids: a Class of Plant Hormones. Pp. 193 - . Springer, Dordrecht - Heidelberg - London - New York 2011. Go to original source...
    28. Gratao, P.L, Gomes-Junior, R.A., Delite, F.S., Lea, P.J., Azevedo, R.A.: Antioxidants stress responses of plants to cadmium. - In: Khan, N.A., Samiullah (ed.): Cadmium Toxicity and Tolerance in Plants. Pp. 1-34. Alpha Science International, Oxford 2006.
    29. Hasan, S.A., Hayat, S., Ali, B., Ahmad, A.: 28-homobrassinolide protects chickpea (Cicer arietinum) from cadmium toxicity by stimulating antioxidant. - Environ. Pollut. 151: 60-66, 2008. Go to original source...
    30. Hayat, S., Ali, B., Hasan, S.A., Ahmad, A.: Brassinosteroid enhanced the level of antioxidants under cadmium stress in Brassica juncea. - Environ. exp. Bot. 60: 33-41, 2007. Go to original source...
    31. Hayat, S., Hasan, S.A., Yusuf, M., Hayat, Q., Ahmad, A.: Effect of 28-homobrassinolide on photosynthesis, fluorescence and antioxidant system in the presence or absence of salinity and temperature in Vigna radiata. - Environ. exp. Bot. 69: 105-112, 2010. Go to original source...
    32. Hopkins, W.J.: Physiology of plants under stress. - In: Hopkins, W.J. (ed.): Introduction to Plant Physiology. 3rd Ed. Pp. 459-479. John Wiley & Sons, New York 1995.
    33. Huang, L.F., Zheng, J.H., Zhang, Y.Y., Hu, W.H., Mao, W.H., Zhou, Y.H., Yu, J.Q.: Diurnal variations in gas exchange, chlorophyll fluorescence quenching and light allocation in soybean leaves: the cause for midday depression in CO2 assimilation. - Sci. Hort. 110: 214-218, 2006. Go to original source...
    34. Jaleel, C.A., Manivannan, P., Lakshmanan, G.M.A., Gomathinayagam, M., Panneerselvam, R.: Alterations in morphological parameters and photosynthetic pigment responses of Catharanthus roseus under soil water deficits. - Colloids Surf. B: Biointerfaces 61: 298-303, 2008. Go to original source...
    35. Janeczko, A., Gullner, G., Skoczowski, A., Dubert, F., Barna, B.: Effects of brassinosteroid infiltration prior to cold treatment on ion leakage and pigment contents in rape leaves. - Biol. Plant. 51: 355-358, 2007. Go to original source...
    36. Janeckzo, A., Koscielniak, J., Pilipowicz, M., Szarek-Lukaszewska, G., Skoczowski, A.: Protection of winter rape photosystem 2 by 24-epibrassinolide under cadmium stress. - Photosynthetica 43: 293-298, 2005. Go to original source...
    37. Jiang, Y.P., Cheng, F., Zhou, Y.H., Xia, X.J., Mao, W.H., Shi, K., Chen, Z., Yu, J.Q.: Cellular glutathione redox homeostasis plays an important role in the brassinosteroidinduced increase in CO2 assimilation in Cucumis sativus. - New Phytol. 194: 932-943, 2012. Go to original source...
    38. Kagale, S., Divi, U.K., Krochko, J.E., Keller, W.A., Krishna, P.: Brassinosteroids confers tolerance in Arabidopsis thaliana and Brassica napus to a range of abiotic stresses. - Planta 225: 353-364, 2007. Go to original source...
    39. Kim, T.W., Wang, Z.Y.: Brassinosteroid signal transduction from receptor kinases to transcription factors. - Annu. Rev. Plant Physiol. Plant mol. Biol. 61: 681-704, 2010. Go to original source...
    40. Kinoshita, K., Cano-Delgado, A., Seto, H., Hiranuma, S., Fujioka, S., Yoshida, S., Chory, J.: Binding of brassinosteroids to the extracellular domain of plant receptor kinase BRI1. - Nature 433: 167-171, 2005. Go to original source...
    41. Li, Y.H., Liu, Y.J., Xu, X.L., Jin, M., An, L.Z., Zhang, H.: Effect of 24-epibrassinolide on drought stress-induced changes in Chorispora bungeana. - Biol. Plant. 56: 192-196, 2012 Go to original source...
    42. Lin, Y.C., Kao, C.H.: Proline accumulation induced by excess nickel in detached rice leaves. - Biol. Plant. 51: 351-354, 2007. Go to original source...
    43. Mandava, N.B.: Plant growth-promoting brassinosteroids. - Annu. Rev. Plant Physiol. Plant mol. Biol. 39: 23-52, 1988. Go to original source...
    44. Mazorra, L.M., Nunez, M., Hechavarria, M., Coll, F., Sanchez-Blanco, M.J.: Influence of brassinosteroids on antioxidant enzymes activity in tomato under different temperatures. - Biol. Plant. 45: 593-596, 2002. Go to original source...
    45. Mitchell, J.W., Mandhava, N.B., Worley, J.F., Plimmer, J.R., Smith, M.V.: Brassins - a new family of plant hormones from rape pollen. - Nature 255: 1065-1066, 1970. Go to original source...
    46. Mittler, R., Vanderauwera, S., Suzuki, N., Miller, G., Tognetti, V.B., Vandepoele, K., Gollery, M., Shulaev, V., Van Breusegem, F.: ROS signaling: the new wave? - Trends Plant Sci. 16: 300-309, 2011. Go to original source...
    47. Mussig, C., Fischer, S., Altamann, T.: Brassinosteroid-regulated gene expression. - Plant Physiol. 129: 1241-1251, 2002. Go to original source...
    48. Navrot, N., Rouhier, N., Gelhaye, E., Jacquot, J.: Reactive oxygen species generation and antioxidant systems in plant mitochondria. - Physiol. Plant. 129: 185-195, 2007. Go to original source...
    49. Nemhauser, Jennifer, L., Mockler, T.C., Chory, J.: Interdependency of brassinosteroid and auxin signaling in Arabidopsis. - PLoS Biol. 2: E258, 2004. Go to original source...
    50. Nunez, M., Mazzafera, P., Mazorra, L.M., Siqueira, W.J., Zullo, M.A.T.: Influence of a brassinsteroid analogue on antioxidant enzymes in rice grown in culture medium with NaCl. - Biol Plant. 47: 67-70, 2003. Go to original source...
    51. Ogweno, J.O., Song, X.S., Shi, K., Hu, W.H., Mao, W.H., Zhou, Y.H., Yu, J.Q., Nogues, S.: Brassinosteroids alleviate heat-induced inhibition of photosynthesis by increasing carboxylation efficiency and enhancing antioxidant systems in Lycopersicon esculentum. - J. Plant. Growth. Regul. 27: 49-57, 2008. Go to original source...
    52. Özdemir, F., Bor, M., Demiral, T., Turkan, I.: Effects of 24-epibrassinolide on seed germination, seedling growth, lipid peroxidation, proline content and antioxidative system of rice (Oryza sativa L.) under salinity stress. - Plant. Growth Regul. 42: 203-211, 2004. Go to original source...
    53. Prasad, M.N.V.: Heavy Metal Stress in Plants - from Biomolecules to Ecosystems. - Springer-Verlag, Berlin - Heidelberg. 2004. Go to original source...
    54. Ruley, A.T., Sharma, N.C., Sahi, S.V.: Antioxidant defense in a lead accumulating plant, Sesbania drummondii. - Plant Physiol. Biochem. 42: 899-906, 2004. Go to original source...
    55. Salveit, M.E.: Chilling injury is reduced in cucumber and rice seedlings in tomato pericarp discs by heat-shocks applied after chilling. - Post. Harvest. Biol. Technol. 21: 169-177, 2001. Go to original source...
    56. Sasse, J.M.: Physiological actions of brassinosteroids: an update. - Plant. Growth Regul. 22: 276-288, 2003. Go to original source...
    57. Sharma, P., Bhardwaj, R., Arora, N., Arora, H.K., Kumar, A.: Effects of 28-homobrassinolide on nickel uptake, protein content and antioxidative defence system in Brassica juncea. - Biol. Plant. 52: 767-770, 2008. Go to original source...
    58. Sharma, P., Bhardwaj, R.: Effects of 24-epibrassinolide on growth and metal uptake Brassica juncea L. under copper metal stress. - Acta Physiol. Plant. 29: 259-263, 2007. Go to original source...
    59. Sharma, P., Dubey, R.S.: Modulation of nitrate reductase activity in rice seedlings under aluminium toxicity and water stress: role of osmolytes as enzyme protectant. - J. Plant. Physiol. 162: 854-864, 2005. Go to original source...
    60. Simoes-Araujo, J.L., Rumjanek, N.G., Margis-Pinheiro, M.: Small heat shock proteins genes are differentially expressed in distinct varieties of common bean. - Braz. J. Plant. Physiol. 15: 33-41, 2003. Go to original source...
    61. Simonovicova, M., Tamas, L., Huttova, J., Mistrik. I.: Effect of aluminum on oxidative stress related enzymes activities in barley roots. - Biol Plant. 48: 261-266, 2004. Go to original source...
    62. Singh, I., Shono, M.: Physiological and molecular effects of 24-epibrassinolide, a brassinosteroid on thermotolerance of tomato. - Plant. Growth Regul. 47: 111-119, 2005. Go to original source...
    63. Steffens, G.L.: US department of agriculture Brassins project: 1970-1980. - In: Cutler, H.G., Yokota, T., Adam, G. (ed.): Brassinosteroids: Chemistry, Bioactivity, and Applications. Pp. 2-17. American Chemical Society, Washington 1991.
    64. Taiz, L., Zeiger, E.: Plant Physiology. Pp. 607-611. Sinauer Associates, Sunderland 2004.
    65. Teale, W.D., Ditengou, F.A., Dovzhenko, A.D., Li, X., Molendijk, A.M., Ruperti, B., Paponov, I., Palme, K.: Auxin as a model for the integration of hormonal signal processing and transduction. - Mol. Plant 1: 229-237, 2008. Go to original source...
    66. Turkan, I., Demiral, T.: Recent developments in understanding salinity tolerance. - Environ. exp. Bot. 67: 2-9, 2009. Go to original source...
    67. Upreti, K.K., Murti, G.S.R.: Effects of brassinosteroids on growth, nodulation, phytohormone content and nitrogenase activity in French bean under water stress. - Biol. Plant. 48: 407-411, 2004. Go to original source...
    68. Vardhini, B.V., Rao, S.S.R.: Amelioration of osmotic stress by brassinosteroids on seed germination and seedling growth of three varieties of sorghum. - Plant. Growth Regul. 41: 25-31, 2003. Go to original source...
    69. Vassilev, A., Yordanov, I.: Reductive analysis of factors limiting growth of cadmium-treated plants: a review. - Bulg. J. Plant Physiol. 23: 114-133, 1997.
    70. Wang, Z.Y., Wang, Q., Chong, K., Wang, F., Wang, L., Bai, M., Jia, C.: The brassinosteroid signal transduction pathway. - Cell. Res. 16: 427-434, 2006. Go to original source...
    71. Xia, X.J., Huang, L.-F., Zhou, Y.-H., Mao, W.-H., Shi, K., Wu, J.-X., Asami, T., Chen, Z., Yu, J.-Q.: Brassinosteroids promote photosynthesis and growth by enhancing activation of Rubisco and expression of photosynthetic genes in Cucumis sativus. - Planta 230: 1185-1196, 2009. Go to original source...
    72. Yusuf, M., Fariduddin, Q., Ahmad, A.: 24-Epibrassinolide modulates growth, nodulation, antioxidant system, and osmolyte in tolerant and sensitive varieties of Vigna radiata under different levels of nickel: a shotgun approach. - Plant Physiol. Biochem. 57: 143-153, 2012. Go to original source...
    73. Yusuf, M.: Effect of brassinosteroids on nickel induced changes in Vigna radiata. - PhD. Thesis, Aligarh Muslim University, Aligarh 2011.
    74. Yusuf, M., Fariduddin, Q., Hayat, S., Hasan, S.A., Ahmad, A.: Protective responses of 28-homobrssinolide in cultivars of Triticum aestivum with different levels of nickel. - Arch. Environ. Contam. Toxicol. 60: 68-76, 2011. Go to original source...
    75. Zhang, J.H., Huang, W.D., Liu, Y.P., Pan, Q.H.: Effects of temperature acclimation pre-treatment on the ultrastructure of mesophyll cells in young grape plants (Vitis vinifera L. cv. Jingxiu) under cross-temperature stresses. - J. Integ. Plant. Biol. 47: 959-970, 2005. Go to original source...
    76. Zhang, M., Zhai, Z., Tian, X., Duan, L., Li, Z.: Brassinolide alleviated the adverse effect of water deficits on photosynthesis and the antioxidant of soybean (Glycine max L.). - Plant Growth Regul. 56: 257-264, 2008. Go to original source...
    77. Zurek, D.M., Rayle, D.L., McMorris, T.C., Clouse, S.D.: Investigation of gene expression, growth kinetics, and wall extensibility during brassinosteroid regulated stem elongation. - Plant Physiol. 104: 503-513, 1994. Go to original source...

    Return to the content