![](/data/upload/tiao_iJ4Mua.jpg) 亚20飞秒激光脉冲靶基因转移系统 2014-12-01 Jenlab 欧兰科技
FemtOgene是一套采用小于20飞秒超短脉冲激光进行靶定向基因转染的显微操作处理系统。 它可以进行:
激光诱导细胞膜瞬态改变(1) 激光诱导细胞膜瞬态改变(2) l 基因治疗 l 干细胞操作 l 光学纳米巨细胞注射 l 细胞器光学击出 l 细胞内染色体分离 l 高分辨率成像 产品概述: FemtOgene 是一套超紧凑型扫描非线性显微镜。 采用检流计式振镜进行光束扫描并配备大数值孔径物镜(40x/1.3)构成的聚焦光学元件。 在亚飞升(<1x10-15升)焦点体积内产生的多光子效应在细胞膜中诱导产生瞬态纳米孔洞。 通过这个孔洞可以将DNA,RNA和蛋白质等巨细胞通过光学纳米注射方法注入到细胞膜中。
飞秒激光脉冲分离染色体 激光诱导细胞膜瞬态改变(3) 无损轻柔地形成纳米孔洞不会对细胞产生附加的破坏,有效避免细胞死亡并能促进快速自修复过程。 从而靶定向转染操作能够高效地进行。 FemtOgene 基于一套亚20飞秒脉宽近红外激光显微镜构成并带有高阶色散补偿装置。 创新独特的色散补偿技术解决了基于棱镜技术的飞秒激光器所观察到的光束起伏现象。 纳米操作过程通过两种曝光模式进行: (a) 扫描某个感兴趣的区域(ROI) 以及(b) 单点照明。 剥蚀,钻孔和切割的精度可以达到亚微米量级。 靶定向转染和光学纳米注射的激光曝光时间在毫秒量级,平均功率<10 mW,重复频率85MHz。 ![](data:image/png;base64,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)
人类染色体的纳米加工 靶定向转染。亚20飞秒激光光穿孔 应用领域: 纳焦亚20 fs 85兆赫兹重复频率激光脉冲可以用于进行靶定向转染, 光学巨细胞纳米注射以及光学细胞内细胞器撞出。 人们的最主要的兴趣在于干细胞转染。干细胞将对当前的医学治疗例如基因治疗和组织工程 产生革命性的影响。经过基因修整的干细胞可以用来产生免疫系统的调节蛋白。 FemtOgene已经用于有效地进行人类唾腺,胰腺干细胞靶定向转染。 技术数据: | 配备色散补偿装置的紧凑型即开即用封离式短脉冲飞秒激光器 | 激光脉冲宽度: | < 150fs | 重复频率: | 85MHz | 激光平均输出功率: | 200mW/400mW | 波长: | 800±10nm | 全幅扫描,局部感兴趣区域(ROI)扫描, 线扫描,单点照明(点扫描,钻孔) | 典型光束扫描区间: | 350x350μm (水平) | | 200μm(垂直) | 平台位移行程: | 120x102mm | 聚焦光学元件: | 放大率40倍 | | 数值孔径(NA)1.3 | CCD相机数字成像视频监视接口 | 运行环境温度: | 15-35摄氏度 | 相对湿度: | 5-80% | 电源功率需求: | 交流230V(50赫兹) |
系统尺寸 | | 基座 | 490x280x480mm3 | 扫描头: | 280x190x90mm3 | 控制组件: | 450x300x130mm3 | 飞秒激光器: | 507x280x81mm3(激光头) | | 483x280x88mm3(用户控制器) | | 175x104x102mm3(色散控制模块) |
| 人类干细胞靶定向转染。亚20飞秒激光光穿孔并扩散注入GFP质粒到细胞质中1-2天后出现绿色荧光 | | 所有参数可能会有所变动恕不提前通知 |
|