Adamis P D B, Gomes D S, Pinto M L C C, Panek A D, Eleutherio E C A. 2004. The role of glutathione transferases in cadmium stress. Toxcol Lett, 154: 81–88.Bai X J, Liu L J, Zhang C H, Ge Y, Cheng W D. 2011. Effect of H2O2 pretreatment on Cd tolerance of different rice cultivars. Rice Sci, 18(1): 29?35.Banerjee S, Goswami R. 2010. GST profile expression study in some selected plants: In silico approach. Mol Cell Biochem, 336: 109–126.Bradford M. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem, 72: 248–254.Deng F, Hatzios K K. 2002. Purification and characterization of two glutathione S-transferase isozymes from indica-type rice involved in herbicide detoxification. Pest Biochem Physiol, 72: 10–23.Dixit P, Mukherjee P K, Ramachandran V, Eapen S. 2011. Glutathione transferase from Trichoderma virens enhances cadmium tolerance without enhancing its accumulation in transgenic Nicotiana tabacum. PLoS One, 6(1): 1–15.Dixit V, Pandey V, Shyam R. 2001. Differential antioxidative responses to cadmium in roots and leaves of pea (Pisum sativum L. cv. Azad). J Exp Bot, 52: 1101–1109.Dixon D P, Davis B, Edwards R. 2002. Functional divergence in the glutathione transferase superfamily in plants. J Biol Chem, 277: 30859–30869.Dubey S, Misra P, Dwivedi S, Chatterjee S, Bag S K, Mantri S, Asif M H, Rai A, Kumar S, Shri M, Tripathi P, Tripathi R D, Trivedi P K, Chakrabarty D, Tuli R. 2010. Transcriptomic and metabolomic shifts in rice roots in response to Cr (VI) stress. BMC Genomics, 11: 648.Edwards R, Dixon D P, Walbot V. 2000. Plant glutathione S-transferases: Enzymes with multiple functions in sickness and in health. Trends Plant Sci, 5: 193–198.Ezaki B, Suzuki M, Motoda H, Kawamura M, Nakashima S, Matsumoto H. 2004. Mechanism of gene expression of Arabidopsis glutathione S-transferase, AtGST1, and AtGST11 in response to aluminum stress. Plant Physiol, 134: 1672–1682.Habig W H, Pabst M J, Jakoby W B. 1974. Glutathione S-transferases: The first enzymatic step in mercapturic acid formation. J Biol Chem, 249: 7130–7139.Hong S H, Park H J, Kong K H. 1999. Purification and biochemical properties of glutathione S-transferase from Oryza sativa. Comp Biochem Physiol, 122: 21–27.Hu Y L, Ge Y, Zhang C H, Ju T, Cheng W D. 2009. Cadmium toxicity and translocation in rice seedlings are reduced by hydrogen peroxide pretreatment. Plant Growth Regul, 59: 51–61. Iannelli M A, Pietrini F, Fiore L, Petrilli L, Massacci A. 2002. Antioxidant response to cadmium in Phragmites australis plants. Plant Physiol Biochem, 40: 977–982.Laemmli U K. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227: 680–686.Marrs K A. 1996. The functions and regulation of glutathione S-transferase in plants. Annu Rev Plant Physiol Plant Mol Biol, 47: 127–158.Marrs K A, Walbot V. 1997. Expression and RNA splicing of the maize glutathione S-transferase bronze2 gene is regulated by cadmium and other stresses. Plant Physiol, 113: 93–102.Moons A. 2003. Osgstu3 and osgtu4, encoding tau class glutathione S-transferases, are heavy metal- and hypoxic stress-induced and differentially salt stress-responsive in rice roots. FEBS Lett, 553: 427–432.Nocito F F, Lancilli C, Dendena B, Lucchini G, Sacchi G A. 2011. Cadmium retention in rice roots is influenced by cadmium availability, chelation and translocation. Plant Cell Environ, 34: 994–1008. Sappl P G, Sanchez L O, Singh K B, Millar A H. 2004. Proteomic analysis of glutathione S-transferases of Arabidopsis thaliana reveals differential salicylic acid-induced expression of the plant-specific phi and tau classes. Plant Mol Biol, 54: 205–219.Smith A P, DeRidder B P, Guo W J, Seeley E H, Regnier F E, Goldsbrough P B. 2004. Proteomic analysis of Arabidopsis glutathione S-transferases from benoxacor- and copper-treated seedlings. J Biol Chem, 279: 26098–26104.Soranzo N, Sari Gorla M, Mizzi L, De Toma G, Frova C. 2004. Organisation and structural evolution of the rice glutathione S-transferase gene family. Mol Genet Genom, 271: 511–521.Uraguchi S, Mori S, Kuramata S, Kawasaki A, Arao T, Ishikawa S. 2009. Root-to-shoot Cd translocation via the xylem is the major process determining shoot and grain cadmium accumulation in rice. J Exp Bot, 60: 2677–2688.Wagner U, Edwards R, Dixon D P, Mauch F. 2002. Probing the diversity of the Arabidopsis glutathione S-transferase gene family. Plant Mol Biol, 49: 515–532.Wong C K E, Cobbett C S. 2009. HMA P-type ATPases are the major mechanism for root-to-shoot Cd translocation in Arabidopsis thaliana. New Phytol, 181: 71–78.Zhang C H, Ge Y. 2008. Response of glutathione and glutathione S-transferase in rice seedlings exposed to cadmium stress. Rice Sci, 15(1): 73–76. Zhao F Y, Liu W, Zhang S Y. 2009. Different responses of plant growth and antioxidant system to the combination of cadmium and heat stress in transgenic and non-transgenic rice. J Integr Plant Biol, 51(10): 942–950. |