实验结果显示,母体分子首先发生断裂并且吸收(2 + 2)个光子到达离子态。
The experiment shows that the parent molecule first occurs -cleavage and absorbs (2 + 2) photons to get to ion state.
这样一种关系使得水分子作为一种媒介,服务于宇宙中最复杂分子的生长和演化,包括酶,蛋白质和所有活着的生物的母体,DNA。
That's allowed it to serve as the medium for the growth and evolution of the most complex molecules in the universe, including enzymes, proteins, and the mother of all known living creatures, DNA.
作为一种高量子产率的荧光分子,罗丹明常常被选作荧光母体用于金属离子荧光探针的设计合成。
As one of the fluorescent molecules with high quantum yield, rhodamine was often chosen as the mother molecule in the synthesis of metal ion fluorescence chemosensor.
主要利用分子生物学和细胞生物学方法,研究哺乳动物胚胎与母体之间的相互作用机理。
The interaction between mammalian embryos and mothers is analyzed using the approaches for molecular biology and cell biology.
另外还从多个角度对硫化氢分子的多光子电离解离(MPID)机理进行了分析,推论出其MPID过程应属于母体离子碎裂模式。
In addition, we have analyzed the multiphoton ionization dissociation(MPID) mechanism of H 2S from several aspects, and conclude that its MPID process belongs to parent ion fragmentation mechanism.
在具有光学活性的螺旋分子母体上进行各种化学修饰,可以获得许多具有特殊性能的衍生物。
When carries various chemical modifications on double helical molecular of optically active, we can always gain derivatives which have specific properties.
本文采用AFLP分子标记,以来自同一母体种群并在5种寄主植物上隔离饲养21个月、29个月和36个月的烟粉虱种群为样本,分析不同寄主和不同饲养时间样本的遗传变异。
The AFLP marker was used to analyse the genetic variation among different samples which were rearing 21 months, 29 months and 36 months separately collected from 5 host plants.
本文采用AFLP分子标记,以来自同一母体种群并在5种寄主植物上隔离饲养21个月、29个月和36个月的烟粉虱种群为样本,分析不同寄主和不同饲养时间样本的遗传变异。
The AFLP marker was used to analyse the genetic variation among different samples which were rearing 21 months, 29 months and 36 months separately collected from 5 host plants.
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