查詢結果分析
來源資料
相關文獻
- Glossogyne tenuifolia Enhances Posttranslational S-Nitrosylation of Proteins in Vascular Endothelial Cells
- Effects of Zinc Deficiency on Endogenous Antioxidant Enzymes and Lipid Peroxidation in Glomerular Cells of Normal and Five-Sixths Nephrectomized Rats
- 自由基與抗氧化物在心臟血管疾病所扮演的角色
- 大蒜粉末對倉鼠降血脂作用及其體內抗氧化狀態之影響
- 從事劇烈運動需要補充硫醇性的抗氧化劑:穀胱甘冴
- 百香果殼主要花青素及其抗氧化性之研究
- 蘿蔔嬰萃取物於模式系統之抗氧化性
- 桑葉甲醇萃取物抗氧化機制之探討
- 抗氧化劑對肉品氧化穩定性之影響
- 欖仁葉之抗遺傳毒性研究
頁籤選單縮合
題 名 | Glossogyne tenuifolia Enhances Posttranslational S-Nitrosylation of Proteins in Vascular Endothelial Cells=香茹的粗萃取物對血管內皮細胞的蛋白質體及轉譯後硝酸化蛋白質體之研究 |
---|---|
作 者 | 王朝平; 洪哲穎; 許夏芬; 陳翰容; 黃斌; 洪尉欽; 尤登弘; 邱正安; 盧麗芬; 許家彰; | 書刊名 | Taiwania |
卷 期 | 56:2 2011.06[民100.06] |
頁 次 | 頁97-104 |
分類號 | 414.34 |
關鍵詞 | 抗氧化; 自由基活性氧分子; 香茹草; 轉譯後硝酸化; 血管內皮細胞; Antioxidation; Free reactive oxygen species; Glossogyne tenuifolia; Posttranslational S-nitrosylation of proteins; Vascular endothelial cells; |
語 文 | 英文(English) |
DOI | 10.6165/tai.2011.56(2).97 |
中文摘要 | 香茹草(Glossogyne tenuifolia)是一種天然傳統藥草且已經被報導藉由抑制細胞中 自由基活性氧分子(free reactive oxygen species, ROS)來達到抗氧化及保護血管內皮細胞 之作用。本研究之目的為藉由蛋白質體學來探討香茹草保護內皮細胞之機轉。藉由modified biotin-switch之實驗方法來分析蛋白質之硝酸化情形,以此方法來偵測香茹草在蛋白質經轉 譯後硝酸化上所帶來的反應與作用。實驗結果發現,經香茹草萃取物作用後的血管內皮細 胞,其中HspA9 (IS1)與beta-actin (IS2)此二種轉譯後硝酸化蛋白質有提昇的現象;vimentin (DS2、DS3 及 DS5)、tropomyosin 3, 4 (DS6 及 DS7)與oxidative phosphorylation protein(如 ATP synthase, F1 complex (DS1)與80K-H protein (DS4))等七種轉譯後硝酸化蛋白質則受到 抑制。由於HspA9經轉譯後硝酸化可能減少血管內皮細胞ROS,且ATP synthase經轉譯後硝 酸化可能干擾ATP的產生及ROS的形成,因此本研究結果指出香茹草具有保護內皮細胞損 傷之另一新的機轉,可能是藉由抑制細胞中氧化物質的形成所引發。 |
英文摘要 | Glossogyne tenuifolia (GT) is a traditional Chinese herb that possesses strong antioxidant activity and protects against endothelial cell (EC) injury by inhibition of free reactive oxygen species (ROS). The aim of this study was to elucidate the mechanisms by which GT prevents endothelial injury using a proteomics approach. We used a sensitive method to analyze the Snitrosoproteins utilizing a modified biotin-switch method in order to detect the possible effects of GT on protein posttranslational modification. After treatment of vascular ECs with GT, two proteins HspA9 (IS1), beta-actin (IS2) were observed to have increased posttranslational S-nitrosylation, whereas seven proteins, vimentin (DS2, DS3 and DS5), tropomyosin 3, 4 (DS6 and DS7) and oxidative phosphorylation protein such as ATP synthase, F1 complex (DS1) and 80K-H protein (DS4), were found to have decreased posttranslational S-nitrosylation. Due to S-nitrosylation of HspA9 causing the reduction of intracellular ROS and S-nitrosylation of ATP synthase interfering with ATP production and ROS formation, our study may indicate a novel mechanism in which GT protects EC injury by the inhibition of oxidative reaction. |
本系統中英文摘要資訊取自各篇刊載內容。