糖基化是机体蛋白质翻译后的一种重要的修饰过程。
N-glycosylation of proteins is an important post-translation modifying process in organism.
此外,交流阻抗能反映电极表面修饰过程中阻抗变化的信息,故也对多层膜进行阻抗测定。
In addition, the electrode impedance can reflect the change in impedance during surface modification of information, it is also measured on multilayer membrane resistance.
本研究还将微波辅助加热技术引入到单壁碳纳米管的纯化与修饰过程中,并探索了最佳实验参数。
In addition, the "microwave-assisted heating technique" was developed to purify and modify SWNTs, and the optimized experimental parameters were explored.
但RNA编辑又来捣乱了:向导RNA和酶作用于信使RNA的修饰过程,这就使仅仅从基因序列来推断最终的蛋白序列成为不可能。
Then along came RNA editing, in which guide RNAs or enzyme action modify some messenger RNAs such that the final protein sequence cannot be deduced from the gene sequence alone.
IRF7的活性可能受到乙酰化、泛素化和类泛素化修饰的调控,而这些修饰一般都发生在赖氨酸残基,我们猜测,赖氨酸残基在IRF7的修饰过程中可能具有重要的作用。
Since these modifications usually happen on lysine residues of target proteins, we assumed that the functions of IRF7 could be highly affected by the mutation of lysine residues.
IRF7的活性可能受到乙酰化、泛素化和类泛素化修饰的调控,而这些修饰一般都发生在赖氨酸残基,我们猜测,赖氨酸残基在IRF7的修饰过程中可能具有重要的作用。
Since these modifications usually happen on lysine residues of target proteins, we assumed that the functions of IRF7 could be highly affected by the mutation of lysine residues.
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