Metal ionic compounds play an important role in fluorescent molecule switch.
金属离子络合物是荧光分子开关的一个重要组成部分。
The genetic switch involves acetylation, the introduction of an acetyl group into a molecule at the DNA level of chromatin resulting in genetic transcription.
基因“开关”涉及乙酰化作用,也就是将乙酰基群在染色质的DNA水平上引入到分子中,由此完成基因转录。
Their original experiment used a genetic switch to regulate production of a particular receptor molecule for serotonin.
在最初的实验中,他们采用了一个基因开关来调节复合胺的一种特定的受体分子的产生。为了得到SID症的模式,他们对基因开关做了调整。
This molecule, to a certain extent played a controlling hepatitis B virus "switch" role.
这个分子,一定程度上起到了控制乙肝病毒“开关”的作用。
Microsecond optical switch is observed and BR molecule distributing of different intermediate is analyzed when the exciting pulse is over.
观察到了微秒量级的快速光开关现象,并分析了激发光脉冲作用结束时,各中间态上细菌视紫红质分子的分布。
The molecule c-kit is the 'switch' that needs to be turned on by the 'SOS signals' sent by the damaged heart.
这个分子是个需要由受损的心脏发出“SOS”信号才可以打开的枢杻。
The molecule c-kit is the 'switch' that needs to be turned on by the 'SOS signals' sent by the damaged heart.
这个分子是个需要由受损的心脏发出“SOS”信号才可以打开的枢杻。
应用推荐