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- azide methemoglobin 叠氮高铁血红蛋白
- Cupric azide is insoluble in water. 叠氮化铜不溶于水。
- Guanyl azide is then isomerized to aminotetrazole. 随后,叠氮化脒异构化生成氨基四氮杂茂。
- Silver azide does not dissolve in water or in nitric acid. 叠氨化银不溶于水或硝酸。
- One-Pot Preparation of N-Carbamate Protected Amino Acids via Azide. N-氨基甲酸经叠氮化保护氨基酸的一勺烩制备。
- It is possible to harness the versatile chemical properties of cyanogen azide. 氰化叠氮的灵活多变的化学性质是可控制的。
- 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。
- "Effluent standards for water pollutants from lead azide, lead styphnate and D. S crystals manufacturing industry"<WESTBANK>叠氮化铅、三硝基间苯二酚铅、D.
- 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 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。
- Toward this end, the olefin 51 was treated with cyanogen azide and, indeed, produced the ring expanded ketone 52. 为了证明这一看法,他用氰化迭氮处理烯烃(51)就得到扩大的环酮。
- CDH was inhibited by Zn2+ and Ag +, but it was not influenced by azide and cyanide. Zn(2+)和Ag+对该酶活性有很大的抑制作用,而叠氮化钠和氰化钾对酶活力没有影响。
- 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。
- METHODS To replace the hydrogenation of the azide compoumd with reducing the amide with LAH. 方法 用四氢锂铝还原酰胺的方法代替叠氮化物的氢化。
- CDH was inhibited by Zn2+ and Ag+, but it was not influenced by azide and cyanide. Zn2+和Ag+对该酶活性有很大的抑制作用,而叠氮化钠和氰化钾对酶活力没有影响。
- Methemoglobinemia, also known as "met-Hb", is a disorder characterized by the presence of a higher than normal level of methemoglobin in the blood. 什么是'遗传性高铁血红蛋白血症-条件所造成的异常高铁血红蛋白血液中'?
- Thus, at highest field strengths, the core of the clot may have low signal, due to the presence of deoxyhemoglobin or of intracellular methemoglobin. 所以,在在场强最高的时候,血块的中心可能会有低信号区,这是由于还原型血红蛋白的存在或是细胞内氧化型血红蛋白的存在造成得。