GLRX2 and TXN1 are oxidation-reduction reactions related to human genes, coding antioxidase system member thioredoxin and non-enzymatic system member glutaredoxin respectively.
GLRX2和TXN1 是人体细胞内有关氧化还原反应的基因,分别编码抗氧化酶系统成员硫氧还蛋白和非酶系统成员谷氧还蛋白。
GLRX2 and TXN1 are oxidation-reduction reaction related human genes, coding antioxidase system member thioredoxin and non-enzymatic system member glutaredoxin respectively.
GLRX2和TXN1是人体细胞内有关氧化还原反应的基因,分别编码抗氧化酶系统成员硫氧还蛋白和非酶系统成员谷氧还蛋白。
These active centers play many important roles in biological system, such as oxidation-reduction, electron transfer, catalyse of lewis acid.
这些活性中心在生物体中扮演着许多重要角色,如氧化还原、电子传递、路易斯酸催化等。
In the other system, electric power is generated based on an oxidation-reduction chemical reaction of an electrode and ions.
在另一个系统中,通过电极和离子的氧化还原化学反应产生电力。
Conversion of polymerization can be improved by using oxidation-reduction initiator system but it is difficult to extend the idle time.
采用氧化还原引发体系可以提高单体转化率并实现单体聚合,但无法延长单体聚合的诱导期。
Conversion of polymerization can be improved by using oxidation-reduction initiator system but it is difficult to extend the idle time.
采用氧化还原引发体系可以提高单体转化率并实现单体聚合,但无法延长单体聚合的诱导期。
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