[1] DIXON D P, LAPTHORN A, EDWARDS R. Plant glutathione transferases[J]. Methods Enzymol, 2005, 401(3):169-186.
[2] DIXON D, HARTMANN D H, KOLACZYK E D, et al. Evidence for a galactic r-ray halo[J]. New Astron, 1998, 3(7):539-561.
[3] DIXON D P, EDWARDS R. Glutathione transferases[J]. Arabidop Book, 2010, 8(45):e0131. doi:10.1199/tab. 0131.
[4] CHEN J H, JIANG Hanwei, HSIEH E J, et al. Drought and salt stress tolerance of an Arabidopsis glutathione S-transferase U17 knockout mutant are attributed to the combined effect of glutathione and abscisic acid[J]. Plant Physiol, 2012, 158(1):340-351.
[5] JAIN M, GHANASHYAM C, BHATTACHARJEE A. Comprehensive expression analysis suggests overlapping and specific roles of rice glutathione S-transferase genes during development and stress responses[J]. BMC Genom, 2010, 11(1):11-17.
[6] GAO Caiqiu, YANG Guiyan, GUO Yucong, et al. Overexpression of ThGSTZ1 from Tamarix hispida improves tolerance to exogenous ABA and methyl viologen[J]. Trees, 2016, 30(6):1935-1944.
[7] YANG Guiyan, WANG Yucheng, XIA Dean, et al. Overexpression of a GST gene (ThGSTZ1) from Tamarix hispida improves drought and salinity tolerance by enhancing the ability to scavenge reactive oxygen species[J]. Plant Cell Tissue Organ Cult, 2014, 117(1):99-112.
[8] YANG Guiyan, XU Zhenggang, PENG Shaobing, et al. In planta characterization of a tau class glutathione S-transferase gene from Juglans regia (JrGSTTau1) involved in chilling tolerance[J]. Plant Cell Rep, 2016, 35(3):681-92.
[9] VIJAYAKUMAR H, THAMILARASAN S K, SHANMUGAM A, et al. Glutathione transferases superfamily:cold-inducible expression of distinct GST genes in Brassica oleracea[J]. Int J Mol Sci, 2016, 17(8):1211. doi:10.3390/ijms. 17081211.
[10] KUMAR S, ASIF M H, CHAKRABARTY D, et al. Expression of a rice Lambda class of glutathione S-transferase, OsGSTL2, in Arabidopsis provides tolerance to heavy metal and other abiotic stresses[J]. J Hazardous Mater, 2013, 248/249:228-237.
[11] LIVAK K J, SCHMITTGEN T D. Analysis of relative gene expression data using real-time quantitative PCR and the 2-ΔΔCT method[J]. Methods, 2001, 25(4):402-408.
[12] MOONS A. Osgstu3 and osgtu4, encoding tau class glutathione-S-transferases, are heavy metal-and hypoxic stress-induced and differentially salt stress-responsive in rice roots[J]. FEBS Lett, 2003, 553(3):427-432.
[13] SKOPELITOU K, MULETA A W, PAPAGEORGIOU A C, et al. Characterization and functional analysis of a recombinant tau class glutathione transferase GmGSTU2-2 from Glycine max[J]. Int J Biol Macromol, 2016, 94(B):802-812.
[14] MUSDAL Y, MANNERVIK B. Substrate specificities of two tau class glutathione transferases inducible by 2, 4, 6-trinitrotoluene in poplar[J]. Biochem Biophys Acta, 2015, 1850(9):1877-1883.
[15] 郭晋艳, 郑晓瑜, 邹翠霞, 等.植物非生物胁迫诱导启动子顺式元件及转录因子研究进展[J].生物技术通报, 2011, 23(4):16-20.

GUO Jinyan, ZHENG Xiaoyu, ZOU Cuixia, et al. Research progress of cis-elements of abiotic stress inducible promoters and associated transcription factors[J]. Biotechnol Bull, 2011, 23(4):16-20.
[16]

TIWARI V, PATEL M K, CHATURVEDI A K, et al. Functional characterization of the tau class glutathione-S-transferases gene (SbGSTU) promoter of salicornia brachiata under salinity and osmotic stress[J]. PLoS One, 2016. 11(2):e0148494. doi:10.1371/journal.pone.0148494.
[17] 赵晋锋, 余爱丽, 王寒玉, 等.非生物逆境胁迫下ZmCIPK10基因表达分析[J].生物技术进展, 2011, 1(2):130-134.

ZHAO Jinfeng, YU Aili, WANG Hanyu, et al. Expressional analysis of ZmCIPK10 under abiotic stresses[J]. Curr Biotechnol, 2011, 1(2):130-134.
[18] 刘彦丹, 英生, 张登峰, 等.玉米逆境胁迫响应基因ZmbZIP71的克隆与表达分析[J].植物遗传资源学报, 2011, 12(5):775-781.

LIU Yandan, YING Sheng, ZHANG Dengfeng, et al. Isolation and expression analysis of a stress-responsive gene ZmbZIP71 in maize (Zea mays L.)[J]. J Plant Genet Resour, 2011, 12(5):775-781.
[19]

WANG Zhou, HUANG Suzhen, JIA Caihong, et al. Molecular cloning and expression of five glutathione S-transferase (GST) genes from banana (Musa acuminata L. AAA group, cv. Cavendish)[J]. Plant Cell Rep, 2013, 32(9):1373-1380.
[20]

CSISZÁR J, HORVÁTH E, VÁRY Z, et al. Glutathione transferase supergene family in tomato:salt stress-regulated expression of representative genes from distinct GST classes in plants primed with salicylic acid[J]. Plant Physiol Biochem, 2014, 78(3):15-26.