由于单股和双股DNA与聚合体之间具有不同的相互作用能力,因而可通过不同荧光能量共振转移效率识别杂交事件。
The hybridization event was recognized by the different FRET efficiencies due to different interaction abilities of single-stranded and double-stranded DNA with the polymer.
磁性颗粒能在时间变化磁场中产生共振响应,因而能很好地将能量从激发场转移到纳米颗粒中。
Magnetic particles also can have resonant response to a time-varying magnetic field with advantageous results related to the transfer of energy from the exciting field to the nanoparticles.
应用荧光共振能量转移(FRET)技术研究了生理条件下,盐酸多赛平(DH)和牛血清白蛋白(BSA)的相互作用。
The interaction between doxepin hydrochloride (DH) and bovine serum albumin (BSA) in physiological conditions was studied by fluorescence resonance energy transfer(FRET).
荧光共振能量转移(FRET)技术作为一种高效的光学“分子尺”,在生物大分子相互作用、免疫分析、核酸检测等方面有广泛的应用。
Fluorescence resonance energy transfer (FRET) has broad applications in the study of the interactions of biological macromolecules, immunoassay, nucleic acid detection and so on.
这把尺子的学名,叫做“荧光共振能量转移(FRET)”技术。
"This scientific name of the ruler, called" fluorescence resonance energy transfer (FRET) "technology."
对这种复合物结构认识的依据来自于荧光共振能量转移技术(FRET),该技术能够测量两个分子之间的距离。
The evidence for this complex structure came from special technique called FRET (Fluorescence Resonance Energy Transfer) that can measure the distance between two molecules.
式(i)的化合物可用作报告分子,用于在使用荧光共振能量转移的实验中检测生物化学切割事件。
The compounds of formula (I) may be used as reporter molecules for detecting biochemical cleavage events in assays that employ fluorescence resonance energy transfer.
摘要﹕荧光共振能量转移可用于对生物大分子之间的距离进行定性、定量检测。
Fluorescence resonance energy transfer (FRET) can be used for measuring the distance between the molecules in living cells.
荧光共振能量转移是一种通过荧光物质间发生荧光能量转移进行分析的实验方法。
Fluorescence resonance energy transfer is an analytical method by transfering energy between fluorescent substances.
当向电极上施加一电位时,电化学发光供体将能量转移给量子点受体,产生高效的电化学发光共振能量转移。
When a potential was applied to the electrode, the electrochemical donors transferred energy to the QD acceptors, producing efficient ECRET.
当向电极上施加一电位时,电化学发光供体将能量转移给量子点受体,产生高效的电化学发光共振能量转移。
When a potential was applied to the electrode, the electrochemical donors transferred energy to the QD acceptors, producing efficient ECRET.
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