Yang Wen
Northeast Normal University
7 Papers
23 Citations
Yang Wen is an academic researcher from Northeast Normal University. The author has contributed to research in topics: Toxicity & Chemistry. The author has an hindex of 6, co-authored 6 publications.
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Papers
Evaluation of toxicity data to green algae and relationship with hydrophobicity
TL;DR: Relationships between toxicity and hydrophobicity demonstrated that no difference was observed for non-polar narcotics within different exposure periods (24, 48, 72, and 96 h) or response variables (yield and growth rate) for polar narcotics.
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Discrimination of excess toxicity from narcotic effect: Comparison of toxicity of class-based organic chemicals to Daphnia magna and Tetrahymena pyriformis
TL;DR: The toxicity data of 758 chemicals to Daphnia magna and 993 chemicals to Tetrahymena pyriformis were used to investigate the excess toxicity and showed that mode of toxic action of chemicals is species dependent, which indicates that toxicity enhancement is driven by reactive or specific toxicity.
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Discrimination of excess toxicity from narcotic effect: Influence of species sensitivity and bioconcentration on the classification of modes of action
TL;DR: The toxicity data of 2624 chemicals to fish, Daphniamagna, Tetrahymenapyriformis and Vibriofischeri were used to investigate the effects of species sensitivity and bioconcentration on excess toxicity, and the results showed that 47 chemical classes were identified as having the same modes of action (MOAs) to all four species, but more than half of the classes were identify as having different MOAs.
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Developmental toxicity of fenbuconazole in zebrafish: effects on mitochondrial respiration and locomotor behavior.
Yingju Qin,Xiaohong Wang,Xiliang Yan,Di Zhu,Jia Wang,Si-Ying Chen,Shuo Wang,Yang Wen,Christopher J. Martyniuk,Yuan H. Zhao +9 more
TL;DR: The toxicity of Fenbuconazole at environmentally relevant concentrations with attention on the mitochondria, antioxidant system, and locomotor activity in zebrafish was evaluated in this article .
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Investigation on modes of toxic action to rats based on aliphatic and aromatic compounds and comparison with fish toxicity based on exposure routes.
TL;DR: The critical body residues calculated from absorption and bioconcentration show that log 1/CBRs in rat toxicity are not equal to that in fish for some compounds, which suggests that the exposure route can affect the identification of MOAs between these two species for these compounds.
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