Martin Simon
Xiamen University
16 Papers
51 Citations
Martin Simon is an academic researcher from Xiamen University. The author has contributed to research in topics: Photosynthesis & Chemistry. The author has an hindex of 12, co-authored 16 publications.
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Papers
Nitric oxide ameliorates zinc oxide nanoparticles-induced phytotoxicity in rice seedlings.
Juan Chen,Xiang Liu,Chao Wang,Shan-Shan Yin,Xiu-Ling Li,Hu Wenjun,Martin Simon,Zhi-Jun Shen,Qiang Xiao,Chengcai Chu,Xin-Xiang Peng,Hai-Lei Zheng +11 more
TL;DR: This study provides the first evidence indicating that NO functions in ameliorating ZnO NPs-induced phytotoxicity, by investigating the possible roles and the regulatory mechanisms of NO in counteracting Zn O NPs toxicity in rice seedlings.
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Hydrogen sulfide alleviates zinc toxicity by reducing zinc uptake and regulating genes expression of antioxidative enzymes and metallothioneins in roots of the cadmium/zinc hyperaccumulator Solanum nigrum L.
Xiang Liu,Juan Chen,Guang-Hui Wang,Wen-Hua Wang,Zhi-Jun Shen,Mei-Rong Luo,Gui-Feng Gao,Martin Simon,Kabir Ghoto,Hai-Lei Zheng +9 more
TL;DR: H2S ameliorated excess Zn-induced growth inhibition, especially in roots, and decreased free cytosolic Zn2+ content in roots which was correlated well with the down-regulation of Zn uptake and homeostasis related genes expression.
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Regulation of the calcium-sensing receptor in both stomatal movement and photosynthetic electron transport is crucial for water use efficiency and drought tolerance in Arabidopsis
Wen-Hua Wang,Juan Chen,Ting-Wu Liu,Aidong Han,Martin Simon,Xuejun Dong,Jun-Xian He,Hai-Lei Zheng +7 more
TL;DR: A novel correlation between CAS and plant water use efficiency is revealed and it is revealed that photosynthesis optimizes photosynthesis by its effect on the formation of photosynthetic electron transport.
Hydrogen sulphide improves adaptation of Zea mays seedlings to iron deficiency
Juan Chen,Fei-Hua Wu,Yu-Ting Shang,Wen-Hua Wang,Hu Wenjun,Martin Simon,Xiang Liu,Zhouping Shangguan,Hai-Lei Zheng +8 more
TL;DR: Highlight H2S could help plants coping with iron deficiency through increasing phytosiderophore accumulation and secretion, regulating expression of genes related to iron homeostasis and sulphur metabolism, and consequently enhancing the photosynthesis of maize seedlings.
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Comparative Proteomic Analysis Reveals the Regulatory Effects of H2S on Salt Tolerance of Mangrove Plant Kandelia obovata.
TL;DR: H2S increased photosynthetic electron transfer, chlorophyll biosynthesis and carbon fixation in K. obovata leaves under salt stress and enhanced the quantum efficiency of photosystem II (PSII) and the membrane lipid stability, implying that H2S is beneficial to the survival of K. Obovata seedlings under high salinity.
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