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低秆高油向日葵“大头翁”高产技术 被引量:1
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作者 刘振波 《特种经济动植物》 2004年第11期30-31,共2页
关键词 低秆高油向日葵 大头翁 栽培技术 整地 播种 田间管理
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Proteomic changes in rat kidney injured by adenine and the regulation of anemoside B4 被引量:6
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作者 Luling He Qin Gong +9 位作者 Xuan Yu Mulan Wang Shasha Wong Fan Lei Hongwei Gao Yingying Luo Yulin Feng Shilin Yang Jun Li Lijun Du 《Journal of Chinese Pharmaceutical Sciences》 CAS CSCD 2019年第1期10-20,共11页
Adenine is commonly used to establish the animal models for chronic kidney injury and its renal interstitial fibrosis. As an endogenous substance, adenine-induced kidney damage has not yet been fully studied and eluci... Adenine is commonly used to establish the animal models for chronic kidney injury and its renal interstitial fibrosis. As an endogenous substance, adenine-induced kidney damage has not yet been fully studied and elucidated, except for inflammatory reaction. Here we analyzed the proteomics of kidney of rats after adenine overloading using LS-MS/MS assay, and observed the role of anemoside B4(B4). The results showed that adenine could down-regulate 285 proteins and up-regulate 164 proteins in rat kidney tissue compared with the normal group. Down-regulated proteins mainly affected related pathways, such as energy metabolism, while up-regulated proteins affected inflammatory response pathways and metabolic pathways. B4 could significantly reverse the down-regulation of about 40 proteins, which were involved in mitochondria, redox processes, extracellular exosomes, acetylation and other signaling pathways. Simultaneously, B4 could inhibit the up-regulation of five proteins caused by adenine, which were involved in cell cycle, oocyte meiosis, PI3 K-Akt and other signaling pathways. Further experimental results of mRNA expression using real-time PCR assay supported the proteomic analysis. Therefore, we proposed that the damage of rat kidney caused by adenine was more complicated, not only with an inflammatory reaction, but also with extensive effects to various metabolic processes in the body. This work provided a valuable clue for comprehensive understanding of adenine-induced renal damage. 展开更多
关键词 ADENINE Chronic kidney injury PROTEOME Anemoside B4 Rat
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