高能磷酸化合物

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  • high energy phosphate compound
高能磷酸化合物高能磷酸化合物
  1. 糖尿病大鼠心肌能量底物利用的改变对高能磷酸化合物的影响

    Change in energy substrate utilization in the heart of diabetic rats and its effect on high energy phosphate compound

  2. 磷是组成核酸和磷脂的成分,可生成高能磷酸化合物转移能量。

    Phosphor , as the composition of nucleic acid and phospholipid , could produce high energy phosphate compound for energy transfer .

  3. 运用31pNMR研究红细胞中高能磷酸化合物的代谢变化,探讨美兰光化学法对红细胞的损伤。

    In order to understand injuries occurred in erythrocytes treated with the methylene blue ( MB ) photochemical method , the changes of high-energy phosphate metabolites in the treated erythrocytes were studied by 31P NMR .

  4. 核能补剂对大鼠骨骼肌高能磷酸化合物变化的影响

    Effects of Nuclear Plus on Changes of High-energy Phosphate of Rats Skeletal Muscle

  5. 毛细管区带电泳定量分析机体组织中高能磷酸化合物

    Quantitative Analysis of High-energy Phosphate Compounds in Body Tissue by Capillary Zone Electrophoresis

  6. 低温对大鼠骨骼肌能量代谢的影响&Ⅰ.高能磷酸化合物含量的变化

    The effects of low temperature on energy metabolism of skeletal muscles of rat I. The changes of energy-rich phosphates

  7. 心脏手术中心肌组织高能磷酸化合物的高效液相色谱测定及比较研究

    Determination of High-Energy Phosphate Compounds from Myocardial Tissues by High Performance Liquid Chromatography ( HPLC ) and Comparative Study on Three Cardioplegias in Cardiac Surgery

  8. 添加了外源性三磷酸腺苷、氯化镁作为再生高能磷酸化合物的底物,通过ATP-Mg2+为细胞提供能量。

    Added ectogenesis adenosine triphosphate and magnesium chloride as the energy rich phosphate compound substrate so as to elevate cellular energy through ATP-Mg2 + . 4 .

  9. 结论重型颅脑损伤后胃黏膜高能磷酸化合物明显减少,早期肠内营养可增加胃黏膜能量贮备,对胃黏膜具有细胞保护作用。

    Conclusions Energy phosphates of gastric mucosa are obviously decreased after severe brain injury , early enteral nutrition can increase energy reserve and have cytoprotective effect of gastric mucosa .

  10. 目的通过对脂质过氧化物和心肌高能磷酸化合物的测定,评价同种异位鼠心移植模型做为缺血/再灌注损伤研究模型的可行性。

    Objective To study whether the heterotopic allografted rat heart model can be used as animal experiment model in ischemia / reperfusion injury research , the model is evaluated by studying the change of peroxidation products and high-energy phosphate .