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- NAD-linked methemoglobin reductase 连接辅酶Ⅰ的高铁血红蛋白还原酶
- methemoglobin reductase deficiency 高铁血红蛋白还原酶缺乏症
- Chronic familial methemoglobin reductase deficiency 慢性家族性正铁血红蛋白还原酶缺乏
- DPNH methemoglobin reductase deficiency DPNH正铁血红蛋白还原酶缺乏
- methemoglobin reductase 高铁血红蛋白还原酶
- Nitrate reductase is a short-lived enzyme. 硝酸还原酶是短寿酶。
- GSSG is then reduced back to GSH by the action of GSH reductase. 其后经由谷胱甘肽还原酶的作用,氧化型谷胱甘肽被还原回氧化型谷胱甘肽。
- Objective:To synthesize the aldose reductase inhibitor fidarestat. 目的:合成醛糖还原酶抑制剂非达司他。
- At the cessation of NF3exposure, methemoglobin reverts back to hemoglobin. 在NF3暴露停止后,高铁血红蛋白转化回血红素。
- Effects of a-naphthol on the glutathione and its reductase in Chlorella. a-萘酚对小球藻谷胱甘肽及其还原酶的影响。
- Here again, GSH reductase reconstitute oxidized GSH to its functional status. 同样的,谷胱甘肽还原酶重组氧化型谷胱甘肽恢复其功能。
- Enzymes are also important in preventing hemoglobin from being oxidized to methemoglobin, which cannot carry oxygen. 酶对防止血红蛋白氧化成不能携带氧气的高铁血红蛋白是很重要的。
- Enzymes are also important in preventing hemoglobin from being oxidized to methemoglobin,which cannot carry oxygen. 酶对防止血红蛋白氧化成不能携带氧气的高铁血红蛋白是很重要的。
- Long-term Neb-NTG has no obvious effect on MCAP,the concentration of methemoglobin, pneumonic coefficient. 长程雾化吸入硝酸甘油对颈动脉平均压、高铁血红蛋白浓度和肺水含量无明显影响。
- Over-exposure to NF3via inhalation induces the conversion of hemoglobin to methemoglobin. 过量吸入NF3会导致血色素转化成高铁血红蛋白。
- The activities of DASA reductase were increased by ammonium nutrition, but not significantly. 铵态氮不显著提高DAsA还原酶的活性。
- The formation of methemoglobin reduces the amount of oxygen available to body tissues. 高铁血红蛋白的形成减少了身体组织可以得到的氧的数量。
- For all species tested, the immediate effect of acute exposure to high concentrations of NF3 is extensive methemoglobin formation with subsequent hypoxia. 对于测试的所有物种,急性暴露于高浓度NF3的直接影响是大范围高铁血红蛋白形成和并发的组织缺氧。
- Effect of different stress on roots activity and nitrate reductase activity in Zea mays L. 不同逆境对玉米幼苗根系活力及硝酸还原酶活性的影响。
- The performance of Nitrate Reductase Activity(NRA) in plant leaf reflects the status of nitrogen metabolism. 硝酸还原酶活性高低可反映植株营养状况和氮素代谢水平。
