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(1)植物非生物胁迫气体信号转导的分子机理(2)氢农业的机理与运用研究(3)小分子生物活性物质的开发与利用(4)纳米生物学近期论文
1、Zhao G, Zhao Y, Lou W, Su J, Wei S, Yang X, Wang R, Guan R, Pu H, Shen W*. Nitrate reductase-dependent nitric oxide is crucial for multi-walled carbon nanotubes-induced plant tolerance against salinity. Nanoscale 2019, 11, 10511–105232、Jiang X, He J, Cheng P, Xiang Z, Zhou H, Wang R, Shen W*. Methane control of adventitious rooting requires γ-glutamyl cysteine synthetase-mediated glutathione homeostasis. Plant Cell Physiol 2019, 60, 802–8153、Mei Y, Zhao Y, Jin X, Wang R, Xu N, Hu J, Huang L, Guan R, Shen W*. L-Cysteine desulfhydrase-dependent hydrogen sulfide is required for methane-induced lateral root formation. Plant Mol Biol 2019,99, 283–2984、Chen Z, Xie Y, Zhao G, Gu Q, Zhang Y, Cui W, Xu S, Wang R, Shen W*. The AtrbohF-dependent regulation of ROS signaling is required for melatonin-induced salinity tolerance in Arabidopsis. Free Radic Biol Med 2017, 108: 465–4775、Xie Y, Mao Y, Duan X, Zhou H, Lai D, Zhang Y, Shen W*. Arabidopsis HY1-modulated stomatal movement: An integrative hub for its functionally associated with ABI4 in the dehydration-induced ABA responsiveness. Plant Physiol 2016, 170: 1699–7136、Xie Y, Mao Y, Zhang W, Lai D, Wang Q, Shen W*. Reactive oxygen species-dependent nitric oxide production contributes to hydrogen-promoted stomatal closure in Arabidopsis. Plant Physiol, 2014, 165: 759–7737、Chen M, Cui W, Zhu K, Xie Y, Zhang C, Shen W*. Hydrogen-rich water alleviates aluminum-induced inhibition of root elongation in alfalfa via decreasing nitric oxide production. J Hazard Mater, 2014, 267: 40–478、Ma F, Wang L, Li J, Samma MK, Xie Y, Wang R, Wang J, Zhang J, Shen W*. Interaction between HY1 and H2O2 in auxin-induced lateral root formation in Arabidopsis. Plant Mol Biol, 2014, 85: 49–619、Han B, Yang Z, Xie Y, Nie L, Cui J, Shen W*. Arabidopsis HY1 confers cadmium tolerance by decreasing nitric oxide production and improving iron homeostasis. Mol Plant, 2014, 7: 388–40310、Cui WT, Gao CY, Fang P, G Lin, Shen WB*. Alleviation of cadmium toxicity in Medicago sativa by hydrogen-rich water. J Hazard Mater. 2013, 260: 715–72411、Xie Y, Mao Y, Lai D, Zhang W, Zheng T, Shen W*. Roles of NIA/NR/NOA1-dependent nitric oxide production and HY1 expression in the modulation of Arabidopsis salt tolerance. J Exp Bot. 2013, 64: 3045–306012、Jin QJ, Zhu KK, Cui WT, Xie YJ, Han B, Shen WB*. Hydrogen gas acts as a novel bioactive molecule in enhancing plant tolerance to paraquat-induced oxidative stress via the modulation of heme oxygenase-1 signaling system. Plant Cell Environ 2013, 36: 956–96913、Wu MZ, Wang FQ, Zhang C, Xie YJ, Han B, Huang JJ, Shen WB*. Heme oxygenase-1 is involved in nitric oxide/cGMP-induced α-Amy2/54 gene expression in GA-treated wheat aleurone layers. Plant Mol Biol 2013, 81: 27–4014、Xu S, Wang LJ, Zhang B, Han B, Xie YJ, Yang J, Zhong WG, Chen HP, Wang R, Wang N, Cui W, Shen WB*. RNAi knockdown of rice SE5 gene is sensitive to the herbicide methylviologen by the down-regulation of antioxidant defense. Plant Mol Biol 2012, 80: 219–23515、Cui W, Li L, Gao Z, Wu H, Xie Y, Shen WB*. Haem oxygenase-1 is involved in salicylic acid-induced alleviation of oxidative stress due to cadmium stress in Medicago sativa. J Exp Bot 2012, 63: 5521–553416、Xie YJ, Xu DK, Cui WT, Shen WB*. Mutation of Arabidopsis HY1 causes UV-C hypersensitivity by impairing carotenoid and flavonoid biosynthesis and the down-regulation of antioxidant defence. J Exp Bot 2012, 63: 3869–388417、Cao ZY, Geng BB, Xu S, Xuan W, Nie L, Shen WB*, Liang YC, Guan RZ*. BnHO1, a haem oxygenase-1 gene from Brassica napus, is required for salinity and osmotic stress-induced lateral root formation. J Exp Bot 2011, 62: 4675–468918、Xie YJ, Xu S, Han B, Wu MZ, Yuan XX, Han Y, Gu Q, Xu DK, Yang Q, Shen WB*, Evidence of Arabidopsis salt acclimation induced by up-regulation of HY1 and the regulatory role of RbohD-derived reactive oxygen species synthesis. Plant J 2011, 66: 280–29219、Wu MZ, Huang JJ, Xu S, Ling TF, Xie YJ, Shen WB*. Haem oxygenase delays programmed cell death in wheat aleurone layers by modulation of hydrogen peroxide metabolism. J Exp Bot 2011, 62: 235–24820、Xie YJ, Ling TF, Han Y, Liu KL, Zheng QS, Huang LQ, Yuan XX, He Z, Hu B, Fang L, Shen ZG, Yang Q, Shen WB*. Carbon monoxide enhances salt tolerance by nitric oxide-mediated maintenance of ion homeostasis and up-regulation of antioxidant defense in wheat seedling root. Plant Cell Environ 2008, 31(12): 1864–1881 相关热点
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