利用时间和空间塑形飞秒激光照射实现高效的细胞靶向基因转染。

Baoshan Guo, Ziyan Song
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引用次数: 0

摘要

激光照射辅助细胞基因转染具有无菌、无毒的特点,但转染效率较低,不能满足应用要求。为了提高转染效率,我们提出了一种飞秒激光的时间和空间整形方法。利用时间整形法,我们可以将脉冲分割成不同能量和不同延迟的子脉冲,从而影响电子和光子之间的相互作用,最终提高转染效率。通过对激光脉冲进行空间整形,延长聚焦光束的工作距离,降低细胞对聚焦位置的敏感性,从而进一步提高转染效率。通过对 HEK-293T 细胞存活率和转染效率的表征,该方法实现了高效、主动转染,最高转染效率达 45.1%,细胞存活率达 93.6%。该方法为飞秒激光转染提供了关键技术支撑,促进了飞秒激光转染在临床上的进一步应用。
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High-Efficiency Targeted Gene Transfection of Cells Using Temporal and Spatial Shaping Femtosecond Laser Irradiation.

Laser-irradiation-assisted cell gene transfection is sterile and nontoxic, but the low transfection efficiency cannot meet the application requirements. To improve the efficiency, a temporal and spatial shaping method of a femtosecond laser is proposed. Using the time shaping method, we can segment the pulse into subpulses of varying energies and with a defined delay, thereby influencing the interaction between electrons and photons, ultimately enhancing transfection efficiency. The transfection efficiency is further improved by spatially shaping the laser pulse to extend the focusing beam's working distance and reduce the cell's sensitivity to the focal position. Through the characterization of the viability and transfection efficiency of HEK-293T cells, the method achieved efficient and active transfection, with a maximum transfection efficiency of 45.1% and a cell survival rate of 93.6%. This method provides key technical support for femtosecond laser transfection and promotes its further application in clinical practice.

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