All-in-One Fluorescence Microscope
BZ-X series
All-in-One Fluorescence MicroscopeBZ-X series
No Darkroom Required
Streamline Imaging and Analysis with a Single Platform
The BZ-X Series is an all-in-one fluorescence microscope equipped with advanced observation capabilities, a fully-motorized control system for instant target acquisition, and advanced imaging and analysis functions. With a built-in darkroom and an installation area of ~ 1' x 2' the BZ-X inverted fluorescence microscope can be set up in any location for optimal testing efficiency. The high-sensitivity, cooled CCD camera can be switched between monochrome and color imaging, and supports fluorescence, brightfield, and phase contrast imaging. The large motorized stage can quickly move to the desired observation location, while high-speed auto-focusing and automatic capture conditions allow any user to easily capture publication-quality images. Additionally, the BZ-X Series all-in-one microscope is capable of three-dimensional analysis, motion analysis, and time-series quantification.
特征
Capture Clear Images Without Fluorescence Blurring
Optical Sectioning
Easily capture high-definition images without the blurring caused by out-of-focus signals with this all-in-one microscope. The unique optical sectioning technology in the BZ-X800E uses an electronic projection element for structured illumination. Operation is simple and intuitive, allowing even first-time users to capture publication-quality images in seconds.
小儿牙科,东北大学牙科研究生院小儿科牙科系摩尼哥石川川,H2AX
高速捕获高分辨率,广域图像
Rat spinal cord
Courtesy of Professor Tasuku Nishihara, Department of Anesthesia and Perioperative Medicine, Ehime University Graduate School of Medicine
Image Stitching
在高倍率下观察样品通常需要扩展观察区域,超出单个视野。这种宽野显微镜中的图像拼接允许用户在高倍率下轻松捕获整个样本,并无缝地创建单个高分辨率图像。
在没有针线或亮度变化的情况下,高达50,000×50,000像素可以快速连接在一起。可以以比传统方法的速度快7倍的速度捕获大量图像。
Image Cytometer Module
High Throughput for Capture and Analysis
Capture settings in one location can instantly be applied to all fields of view on a well plate. Users can select any or all wells to be scanned with uniform conditions for high reproducibility of data. This work flow can be completed in just three simple steps. The system will then automatically execute the capture without any additional user configuration.
Image Cytometer Analysis
Accurate, High-Content Analysis with High-Resolution Images
设置单个图像的分析条件,并自动应用于所有数据点。这节省了时间并将可变性从一个图像降低到下一个图像。BZ-X800E的高级光学捕获高分辨率图像,导致高度精确的数据采集。
BZ Series Application Examples
人体IPS细胞衍生的神经细胞
由Asuka Morizane助理教授,生物修复系,临床应用领域,IPS细胞研究中心,京都大学
Understanding the Science Behind Fluorescence Microscopy
A fluorescence microscope functions in a different manner from a traditional optical microscope. This is because it utilizes fluorescence, which is the natural emission of light by fluorophores contained in a substance that has absorbed light or energy from another form of electromagnetic radiation. This can be a replacement for or in addition to the standard use of reflected or scattered light to create an image. By focusing light of a very specific wavelength onto a substance, the fluorophores emit light of a longer wavelength, creating the resulting image. Typically, samples are prepared by dyeing them with a fluorescent stain or the expression of a fluorescent protein.
荧光显微镜的常见应用包括生命科学,医疗和生物部门的研究和质量控制。这些仪器的灵敏度和可靠性意味着它们经常使用以观察细胞内分子的存在以及组织内单个细胞的位置。开发的荧光成像系统利用从紫外线到近红外线的光来分析生物标本或以极小的规模视觉增强3D特征。BZ-X还能够光学切片显微镜,最小化荧光模糊并提供透明的厚样品的光学切片。可以容易地观察到各种样品,包括动物细胞,植物细胞和培养组织。