Yan Dai
Chinese Academy of Sciences
25 Papers
9 Citations
Yan Dai is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Biology & Gene. The author has an hindex of 5, co-authored 16 publications.
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Papers
Next-generation transgenic cotton: pyramiding RNAi and Bt counters insect resistance
Ni Mi,Wei Ma,Wang Xiaofang,Meijing Gao,Yan Dai,Xiaoli Wei,Lei Zhang,Yonggang Peng,Shuyuan Chen,Lingyun Ding,Yue Tian,Jie Li,Haiping Wang,Xiaolin Wang,Guowang Xu,Wangzhen Guo,Yihua Yang,Yidong Wu,Shannon Heuberger,Bruce E. Tabashnik,Tianzhen Zhang,Zhen Zhu +21 more
TL;DR: In computer simulations of conditions in northern China, where millions of farmers grow Bt cotton as well as abundant non‐transgenic host plants of H. armigera, pyramided cotton combining a Bt toxin and RNAi substantially delayed resistance relative to using Btotton alone.
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Brittle culm15 encodes a membrane-associated chitinase-like protein required for cellulose biosynthesis in rice.
TL;DR: Genetic evidence is provided of a role for plant chitinases in cellulose biosynthesis in rice, which appears to differ from their roles as revealed by analysis of Arabidopsis (Arabidopsis thaliana).
83
Small RNAs as important regulators for the hybrid vigour of super-hybrid rice
TL;DR: Differentially expressed miRNAs and ta-siRNAs between hybrid rice and its parents play important roles in hybrid vigour of super-hybrid rice by regulating their target genes controlling the auxin-mediated signalling pathway.
39
OsJAZ13 Negatively Regulates Jasmonate Signaling and Activates Hypersensitive Cell Death Response in Rice
TL;DR: Gene-expression analysis suggested the role of OsJAZ13 in modulating the expression of JA/ethylene response-related genes to regulate growth and activate hypersensitive cell death in plants and these observations describe a novel regulatory mechanism in rice.
25
Effects of Water and Nitrogen Management on Water Productivity, Nitrogen Use Efficiency and Leaching Loss in Rice Paddies
TL;DR: In this article , the effects of controlled drainage on water productivity and nitrogen use efficiency in water-saving irrigated paddy fields were investigated with Lysimeter experiments with two deep percolation rates and five N application levels (N0~N4: 0, 60, 135, 210 and 285 kg N ha−1).
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