Xiuli Yu
Nanjing Agricultural University
6 Papers
Xiuli Yu is an academic researcher from Nanjing Agricultural University. The author has contributed to research in topics: Chemistry & Melatonin. The author has an hindex of 6, co-authored 6 publications.
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Papers
Melatonin confers plant tolerance against cadmium stress via the decrease of cadmium accumulation and reestablishment of microRNA-mediated redox homeostasis.
TL;DR: It is clearly suggested that melatonin enhanced Cd tolerance via decreasing cadmium accumulation and reestablishing the microRNAs-mediated redox homeostasis.
206
Nitric Oxide Is Required for Melatonin-Enhanced Tolerance against Salinity Stress in Rapeseed (Brassica napus L.) Seedlings
TL;DR: It is concluded that NO operates downstream of melatonin promoting salinity tolerance, and the hypersensitivity to NaCl in nia1/2 and noa1 mutants cannot be rescued by melatonin supplementation.
156
Methane alleviates alfalfa cadmium toxicity via decreasing cadmium accumulation and reestablishing glutathione homeostasis
TL;DR: It is discovered that cadmium (Cd) stimulated the production of CH4 in alfalfa root tissues and revealed that CH4-alleviated Cd accumulation at least partially, required the modulation of heavy metal transporters via miR159 and miR167.
51
Transgenic Arabidopsis overexpressing MsSNAT enhances salt tolerance via the increase in autophagy, and the reestablishment of redox and ion homeostasis
TL;DR: It was revealed that MsSNAT-dependent melatonin enhanced salt tolerance via the increase in autophagy, and reestablishment of redox and ion homeostasis in the wild-type and transgenic Arabidopsis lines.
31
Genetic elucidation of hydrogen signaling in plant osmotic tolerance and stomatal closure via hydrogen sulfide.
Yihua Zhang,Pengfei Cheng,Yueqiao Wang,Ying Li,Jiuchang Su,Ziping Chen,Xiuli Yu,Wenbiao Shen,Wenbiao Shen +8 more
TL;DR: It is observed that the seedling growth inhibition of Arabidopsis caused by low doses of mannitol could progressively recover by recuperation, accompanied with the increased hydrogenase activity and H2 synthesis, opening a new window for increasing plant tolerance to osmotic stress.