![](https://downloads.microscope.healthcare.nikon.com/production/imager/mastheads/8568/masthead-nis3_f076438097b2d2d85c6c3ef04742411e.jpg)
NIS-Elements
NIS-Elements共聚焦与分辨率增强
![](https://www.microscope.healthcare.nikon.com/images/product-images/NIS-Elements-C_replace.png)
尼康共聚焦和多光子系统的专用界面,提供简便的仪器设置和简化的操作。集成了NIS-Elements AR的多种功能, 如高级拍摄、图像处理、分析、可视化和数据共享。
主要特性
分辨率
图像分辨率定义为可以分辨的2个点之间的最小距离。传统光学显微镜的分辨率的理论极限约为200nm。理论上可以用共聚焦显微镜实现更高分辨力的图像,但这还没有得到有效实现。使用独特的图像处理技术,图像分辨率可以增强到超过传统共聚焦图像的分辨率((XY方向改善约1.5倍;Z方向改善约1.7倍)。
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/333852/Zebrafish-lens-standard-confocal-image_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/333852/Zebrafish-lens-standard-confocal-image_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
标准共聚焦图像
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/333853/Zebrafish-lens-enhanced-resolution_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/333853/Zebrafish-lens-enhanced-resolution_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
增强分辨率图像
受精后5天的斑马鱼晶状体。细胞核(绿色)和肌动蛋白丝(红色)分别用Cytox-green和Rhadamine-耦合的鬼笔环肽显现。高放大率图像表示晶状体纤维细胞,其变得平坦并且彼此堆叠。
图片提供:冲绳科学技术研究生院发育神经生物学科的Toshiaki Mochizuki博士和Ichiro Masai博士
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5111/NIS-C-Normal-Confocal_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5111/NIS-C-Normal-Confocal_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
标准共聚焦图像
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5110/NIS-C-with-ER_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5110/NIS-C-with-ER_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
增强分辨率图像
红色:中心纺锤体,蓝色:核
图片提供:爱知医科大学医学院生物化学系的Toshinori Hyodo博士
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5114/NIS-C-Normal-Confocal2_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5114/NIS-C-Normal-Confocal2_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
标准共聚焦图像
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5113/NIS-C-with-ER2_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5113/NIS-C-with-ER2_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
增强分辨率图像
应力纤维(LLC-PK1,猪肾细胞),绿色:F-肌动蛋白,红色:肌球蛋白重链
图片提供:东北医科大学医学部解剖学与细胞生物学的Keiju Kamijo博士
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5117/NIS-C-Normal-Confocal3_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5117/NIS-C-Normal-Confocal3_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
标准共聚焦图像
![](https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5116/NIS-C-with-ER3_eab673dc52b0446b2b598a80abc7b050.jpg 1x, https://downloads.microscope.healthcare.nikon.com/production/imager/keyfeatures/Elements/5116/NIS-C-with-ER3_9b9989dbe1d056a5c35107959161a1c5.jpg 2x)
增强分辨率图像
小鼠耳蜗的听觉上皮的顶端表面在小鼠出生后第2天用Atto-565-鬼笔环肽染色。
图片提供:神户大学医学研究生院生物化学与分子生物学系分子与细胞生物学系的Hideobe Togashi博士。