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Plants

Molecular Hydrogen Research – Plants

 

Zhang, X., et al., Increased Cytosolic Calcium Contributes to Hydrogen-Rich Water-Promoted Anthocyanin Biosynthesis Under UV-A Irradiation in Radish Sprouts Hypocotyls. Front Plant Sci, 2018. 9: p. 1020.

Su, J., et al., Hydrogen-induced osmotic tolerance is associated with nitric oxide-mediated proline accumulation and reestablishment of redox balance in alfalfa seedlings. Environmental and Experimental Botany, 2018. 147: p. 249-260.

Qian, L., et al., Transcriptome analysis of the responses involved in the regulation of cadmium stress by exogenous hydrogen in rice (Oryza sativa). J. Bot, 2018. 50(6): p. 2123-2129.

Li, C., et al., Roles of hydrogen gas in plants: a review. Functional Plant Biology, 2018. 45(8): p. 783-792.

Hu, H., et al., Hydrogen gas prolongs the shelf life of kiwifruit by decreasing ethylene biosynthesis. Postharvest Biology and Technology, 2018.

Chen, H., et al., Hydrogen-rich water mediates redox regulation of the antioxidant system, mycelial regeneration and fruiting body development in Hypsizygus marmoreus. Fungal Biol, 2018. 122(5): p. 310-321.

Zhao, X., et al., Hydrogen-rich water induces aluminum tolerance in maize seedlings by enhancing antioxidant capacities and nutrient homeostasis. Ecotoxicol Environ Saf, 2017. 144: p. 369-379.

Zhang, J., et al., Hydrogen-rich water alleviates the toxicities of different stresses to mycelial growth in Hypsizygus marmoreus. AMB Express, 2017. 7(1): p. 107.

Xu, S., et al., Hydrogen enhances adaptation of rice seedlings to cold stress via the reestablishment of redox homeostasis mediated by miRNA expression. Plant and Soil, 2017. 414(1): p. 53-67.

Xu, D., et al., Linking hydrogen-enhanced rice aluminum tolerance with the reestablishment of GA/ABA balance and miRNA-modulated gene expression: A case study on germination. Ecotoxicol Environ Saf, 2017. 145: p. 303-312.

Ren, P.J., et al., Effect of hydrogen-rich water on vase life and quality in cut lily and rose flowers. Horticulture, Environment, and Biotechnology, 2017. 58(6): p. 576-584.

Ren, A., et al., Hydrogen-rich water regulates effects of ROS balance on morphology, growth and secondary metabolism via glutathione peroxidase in Ganoderma lucidum. Environ Microbiol, 2017. 19(2): p. 566-583.

Dai, C., et al., Proteomic analysis provides insights into the molecular bases of hydrogen gas-induced cadmium resistance in Medicago sativa. J Proteomics, 2017. 152: p. 109-120.

Chen, Y., et al., Carbon Monoxide Is Involved in Hydrogen Gas-Induced Adventitious Root Development in Cucumber under Simulated Drought Stress. Front Plant Sci, 2017. 8: p. 128.

Chen, Q., et al., Hydrogen-rich water pretreatment alters photosynthetic gas exchange, chlorophyll fluorescence, and antioxidant activities in heat-stressed cucumber leaves. Plant Growth Regulation, 2017. 83(1): p. 69-82.

Chen, H., et al., Hydrogen-rich water increases postharvest quality by enhancing antioxidant capacity in Hypsizygus marmoreus. AMB Express, 2017. 7(1): p. 221.

Zhu, Y., et al., Nitric oxide is involved in hydrogen gas-induced cell cycle activation during adventitious root formation in cucumber. BMC Plant Biol, 2016. 16(1): p. 146.

Zhu, Y. and W. Liao, A positive role for hydrogen gas in adventitious root development. Plant Signal Behav, 2016. 11(6): p. e1187359.

Wang, Y., et al., Linking hydrogen-mediated boron toxicity tolerance with improvement of root elongation, water status and reactive oxygen species balance: a case study for rice. Ann Bot, 2016. 118(7): p. 1279-1291.

Saitoh, Y., et al., Transient generation of hydrogen peroxide is responsible for carcinostatic effects of hydrogen combined with platinum nanocolloid, together with increases intracellular ROS, DNA cleavages, and proportion of G2/M-phase. Free Radic Res, 2016. 50(4): p. 385-95.

Liu, Y., et al., Transcriptome Analysis of mRNA and miRNA in Somatic Embryos of Larix leptolepis Subjected to Hydrogen Treatment. Int J Mol Sci, 2016. 17(11).

Jin, Q., et al., Hydrogen-modulated stomatal sensitivity to abscisic acid and drought tolerance via the regulation of apoplastic pH in Medicago sativa. Journal of Plant Growth Regulation, 2016. 35(2): p. 565-573.

Jin, Q., et al., Involvement of hydrogen peroxide and heme oxygenase-1 in hydrogen gas-induced osmotic stress tolerance in alfalfa Plant Growth Regulation, 2016. 80(2): p. 215-223.

Zhang, X., et al., Protective effects of hydrogen-rich water on the photosynthetic apparatus of maize seedlings (Zea mays L.) as a result of an increase in antioxidant enzyme activities under high light stress. Plant Growth Regulation, 2015: p. 1-14.

Xie, Y., et al., Hydrogen-rich water-alleviated ultraviolet-B-triggered oxidative damage is partially associated with the manipulation of the metabolism of (iso) flavonoids and antioxidant defence in Medicago sativa. Functional Plant Biology, 2015. 42(12): p. 1141-1157.

Wu, Q., et al., Cadmium-Induced Hydrogen Accumulation Is Involved in Cadmium Tolerance in Brassica campestris by Reestablishment of Reduced Glutathione Homeostasis. PLoS One, 2015. 10(10): p. e0139956.

Wu, Q., et al., Hydrogen-rich water enhances cadmium tolerance in Chinese cabbage by reducing cadmium uptake and increasing antioxidant capacities. J Plant Physiol, 2015. 175: p. 174-82.

Zeng, J., Z. Ye, and X. Sun, Progress in the study of biological effects of hydrogen on higher plants and its promising application in agriculture. Med Gas Res, 2014. 4: p. 15.

Xie, Y., et al., Reactive Oxygen Species-Dependent Nitric Oxide Production Contributes to Hydrogen-Promoted Stomatal Closure in Arabidopsis. Plant Physiol, 2014. 165(2): p. 759-773.

Su, N., et al., Hydrogen-Rich Water Reestablishes ROS Homeostasis but Exerts Differential Effects on Anthocyanin Synthesis in Two Varieties of Radish Sprouts under UV-A Irradiation. J Agric Food Chem, 2014. 62(27): p. 6454-62.

Lin, Y., et al., Hydrogen-rich water regulates cucumber adventitious root development in a heme oxygenase-1/carbon monoxide-dependent manner. J Plant Physiol, 2014. 171(2): p. 1-8.

Hu, H., et al., Hydrogen-rich water delays postharvest ripening and senescence of kiwifruit. Food Chem, 2014. 156: p. 100-9.

Cui, W., et al., Hydrogen-rich water confers plant tolerance to mercury toxicity in alfalfa seedlings. Ecotoxicol Environ Saf, 2014. 105: p. 103-11.

Chen, M., et al., Hydrogen-rich water alleviates aluminum-induced inhibition of root elongation in alfalfa via decreasing nitric oxide production. J Hazard Mater, 2014. 267: p. 40-7.

Zeng, J., M. Zhang, and X. Sun, Molecular hydrogen is involved in phytohormone signaling and stress responses in plants. PLoS One, 2013. 8(8): p. e71038.

Xu, S., Susong Zhu, Yilong Jiang, Ning Wang, Ren Wang, Wenbiao Shen, and Jie Yang, Hydrogen-rich water alleviates salt stress in rice during seed germination. Plant and Soil, 2013: p. 1-11.

Jin, Q., et al., Hydrogen gas acts as a novel bioactive molecule in enhancing plant tolerance to paraquat-induced oxidative stress via the modulation of heme oxygenase-1 signalling system. Plant Cell and Environment, 2013. 36(5): p. 956-69.

Cui, W., et al., Alleviation of cadmium toxicity in Medicago sativa by hydrogen-rich water. Journal of Hazardous Materials, 2013. 260: p. 715-24.

Xie, Y., et al., H(2) enhances arabidopsis salt tolerance by manipulating ZAT10/12-mediated antioxidant defence and controlling sodium exclusion. PLoS One, 2012. 7(11): p. e49800.

Berjak, P., et al., Cathodic amelioration of the adverse effects of oxidative stress accompanying procedures necessary for cryopreservation of embryonic axes of recalcitrant-seeded species. Seed Science Research, 2011. 21(3): p. 187-203.

Maimaiti, J., et al., Isolation and characterization of hydrogen-oxidizing bacteria induced following exposure of soil to hydrogen gas and their impact on plant growth. Environmental Microbiology, 2007. 9(2): p. 435-44.