Ozdemir F, Bor M, Demiral T, et al. Effects of 24-epibrassinolide on seed germination, seedling growth, lipid peroxidation, proline content and antioxidative system of rice(Oryza sativa L.)under salinity stress[J]. Plant Growth Regulation, 2004, 42(3):203-211.
[2]
Sharma I, Ching E, Saini R, et al. Exogenous application of brassinosteroid offers tolerance to salinity by altering stress responses in rice variety Pusa Basmati-1[J]. Plant Physiology and Biochemistry, 2013, 69:17-26.
Choe S. Brassinosteroid biosynthesis and metabolism[D]. Plant Hormones, 2010:156-178.
[5]
Ohnishi T, Yokota T, Mizutani M. Insights into the function and ev-olution of P450s in plant steroid metabolism[J]. Phytochemistry, 2009, 70(17-18):1918-1929.
Divi UK, Krishna P. Brassinosteroid:a biotechnological target for enhancing crop yield and stress tolerance[J]. New Biotechnology, 2009, 26(3-4):131-136.
[9]
Maharjan PM, Schulz B, Choe S. BIN2/DWF12 antagonistically transduces brassinosteroid and auxin signals in the roots of Arabidopsis[J]. Journal of Plant Biology, 2011, 54(2):126-134.
Baiguz A, Hayat S. Effects of brassinosteroids on the plant responses to environmental stresses[J]. Plant Physiology and Biochemistry, 2009, 47(1):1-8.
[12]
Anuradha S, Rao S. Effect of brassinosteroids on salinity stress induced inhibition of seed germination and seedling growth of rice(Oryza sativa L. )[J]. Plant Growth Regulation, 2001, 33(2):151-153.
[13]
Symons GM, Reid JB. Brassinosteroids do not undergo long-distance transport in pea. Implications for the regulation of endogenous brassinosteroid levels[J]. Plant Physiology, 2004, 135(4):2196-2206.
[14]
Neff MM, Nguyen SM, Malancharuvil EJ, et al. BAS1:A gene regulating brassinosteroid levels and light responsiveness in Arabidopsis[J]. PNAS, 1999, 96(26):15316-15323.
[15]
Turk EM, Fujioka S, Seto H, et al. BAS1 and SOB7 act redundantly to modulate Arabidopsis photomorphogenesis via unique brassinost-eroid inactivation mechanisms[J]. Plant Journal, 2005, 42(1):23-34.
