![蔡司Axio Observer 7的自动加水模块 蔡司Axio Observer 7的自动加水模块]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original.image_file.100.100.file/autoimmersion-module_stage.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original.image_file.360.360.file/autoimmersion-module_stage.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original.image_file.768.768.file/autoimmersion-module_stage.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original./autoimmersion-module_stage.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original./autoimmersion-module_stage.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original./autoimmersion-module_stage.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_stage.jpg/_jcr_content/renditions/original./autoimmersion-module_stage.jpg"})
蔡司Axio Observer 7的自动加水模块
自始至终实现可靠的数据采集
要实现高分辨率成像,样品与物镜之间需要有介质。手动加水可能会造成数据点丢失,甚至因用户操作失误导致显微镜损坏,而且不够简单高效。蔡司Axio Observer 7的宽场和共聚焦系统带有自动加水模块,是您维持水镜介质的自动化、易用的解决方案。
![减少对您实验和显微镜的风险 减少对您实验和显微镜的风险]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original.image_file.100.50.file/autoimmersion-module_benefit1.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original.image_file.360.180.file/autoimmersion-module_benefit1.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original.image_file.768.384.file/autoimmersion-module_benefit1.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original.image_file.1024.512.file/autoimmersion-module_benefit1.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original.image_file.1280.640.file/autoimmersion-module_benefit1.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original.image_file.1440.720.file/autoimmersion-module_benefit1.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit1.jpg/_jcr_content/renditions/original./autoimmersion-module_benefit1.jpg"})
减少对您实验和显微镜的风险
该模块为水镜自动应用介质。水被直接泵入样品和物镜之间,每次应用仅使用几微升,内置的水保护系统保证操作安全。在保持物镜焦点和位置的情况下应用介质,确保实验不受干扰,可避免用户在手动应用介质时常犯的错误。
![一如既往的强大功能性 一如既往的强大功能性]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original.image_file.100.50.file/autoimmersion-module_benefit2.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original.image_file.360.180.file/autoimmersion-module_benefit2.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original.image_file.768.384.file/autoimmersion-module_benefit2.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original.image_file.1024.512.file/autoimmersion-module_benefit2.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original.image_file.1280.640.file/autoimmersion-module_benefit2.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original.image_file.1440.720.file/autoimmersion-module_benefit2.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit2.jpg/_jcr_content/renditions/original./autoimmersion-module_benefit2.jpg"})
一如既往的强大功能性
自动加水模块易于安装且与众多蔡司水镜兼容。即使存在难以处理的配置,如显微镜带有一个不透明XL培养装置,安装工作依然十分简单。无需任何工具即可在物镜之间移动组件。移液器可在几秒钟内在物镜间切换,物镜功能不会受到影响。该模块不会缩短工作距离,也不会影响可见度或校正环的使用。
![全面的软件集成,操作简单直观 全面的软件集成,操作简单直观]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original.image_file.100.50.file/autoimmersion-module_benefit3.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original.image_file.360.180.file/autoimmersion-module_benefit3.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original.image_file.768.384.file/autoimmersion-module_benefit3.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original.image_file.1024.512.file/autoimmersion-module_benefit3.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original.image_file.1280.640.file/autoimmersion-module_benefit3.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original.image_file.1440.720.file/autoimmersion-module_benefit3.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/autoimmersion-module_benefit3.jpg/_jcr_content/renditions/original./autoimmersion-module_benefit3.jpg"})
全面的软件集成,操作简单直观
自动加水模块无缝集成至蔡司ZEN成像软件以及蔡司Axio Observer 7的控制触摸屏,这意味着可以简单直观地进行操作,并减少用户干预,甚至实现了远程用户操作。在手动或远程成像实验中,或在自动成像实验中按预先设定的时间间隔,按需应用介质,所有这些都无需接触显微镜。
请参阅运行中的蔡司自动加水模块
解放双手的自动加水功能
为复杂实验进行自动加水
提高效率和通量
![通过设计在非工作时间内(如通宵或周末)采集数据的实验,您可将通量提高2.5倍。 通过设计在非工作时间内(如通宵或周末)采集数据的实验,您可将通量提高2.5倍。]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.100.56.file/automated-immersion-increased-throughput.png","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.360.203.file/automated-immersion-increased-throughput.png","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.768.432.file/automated-immersion-increased-throughput.png","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.1024.576.file/automated-immersion-increased-throughput.png","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.1280.720.file/automated-immersion-increased-throughput.png","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.1440.810.file/automated-immersion-increased-throughput.png","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original./automated-immersion-increased-throughput.png"})
![通过设计在非工作时间内(如通宵或周末)采集数据的实验,您可将通量提高2.5倍。 通过设计在非工作时间内(如通宵或周末)采集数据的实验,您可将通量提高2.5倍。]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.100.56.file/automated-immersion-increased-throughput.png","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.360.203.file/automated-immersion-increased-throughput.png","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.768.432.file/automated-immersion-increased-throughput.png","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.1024.576.file/automated-immersion-increased-throughput.png","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.1280.720.file/automated-immersion-increased-throughput.png","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original.image_file.1440.810.file/automated-immersion-increased-throughput.png","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/automated-immersion-increased-throughput.png/_jcr_content/renditions/original./automated-immersion-increased-throughput.png"})
通过设计在非工作时间内(如通宵或周末)采集数据的实验,您可将通量提高2.5倍。
通过设计在非工作时间内(如通宵或周末)采集数据的实验,您可将通量提高2.5倍。
充分利用您的时间和非工作时间
和以往必须待在显微镜附近,确保始终有足够的介质相比,您现可设计复杂的实验,进行无人值守的数据采集,包括扩展的活细胞成像实验和/或多位置数据采集。如此一来,您在显微镜自动收集数据时,便可有时间进行其他工作。蔡司自动加水模块将为进行可靠的数据采集提供保障,直至您的实验结束。
![]()
借助自动加水模块,我可以提高显微镜的使用率。白天,用户可以进行短时实验或优化成像参数,而晚间还能自动进行长时间实验。
蔡司自动加水模块应用案例
应用实例
![HEK KO PEX5细胞通过光笼过氧化物酶体靶向信号1型表达eGFP,由过氧化酶体输入受体PEX5重组。 HEK KO PEX5细胞通过光笼过氧化物酶体靶向信号1型表达eGFP,由过氧化酶体输入受体PEX5重组。]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.100.33.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.360.120.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.768.256.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1024.341.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1280.427.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1440.480.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original./hek-ko-pex5-cells-autoimmersion-experiment.jpg"})
![HEK KO PEX5细胞通过光笼过氧化物酶体靶向信号1型表达eGFP,由过氧化酶体输入受体PEX5重组。 样品由德国耶拿大学应用光学和生物物理研究院的K. Reglinski提供 HEK KO PEX5细胞通过光笼过氧化物酶体靶向信号1型表达eGFP,由过氧化酶体输入受体PEX5重组。 样品由德国耶拿大学应用光学和生物物理研究院的K. Reglinski提供]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.100.33.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.360.120.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.768.256.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1024.341.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1280.427.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1440.480.file/hek-ko-pex5-cells-autoimmersion-experiment.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/hek-ko-pex5-cells-autoimmersion-experiment.jpg/_jcr_content/renditions/original./hek-ko-pex5-cells-autoimmersion-experiment.jpg"})
样品由德国耶拿大学应用光学和生物物理研究院的K. Reglinski提供
使用自动加水模块进行长时间活细胞实验
HEK KO PEX5细胞通过光笼过氧化物酶体靶向信号1型表达eGFP,由过氧化酶体输入受体PEX5重组。光笼的光诱导构象变化导致了过氧化物酶体靶向信号的暴露。如果WT PEX5得以表达,即能监控eGFP信号在点状过氧化物酶体中的堆积(上排图像)。如为突变的PEX5(下排图像),即使在18个小时后,也无法检测到过氧化物酶体。
![细胞内纳米颗粒的吸收 细胞内纳米颗粒的吸收]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.100.33.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.360.120.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.768.256.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1024.341.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1280.427.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1440.480.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original./macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg"})
![细胞内纳米颗粒的吸收 样品提供者:德国耶拿大学应用光学和生物物理研究院的F. Páez Larios和C. Eggeling 细胞内纳米颗粒的吸收 样品提供者:德国耶拿大学应用光学和生物物理研究院的F. Páez Larios和C. Eggeling]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.100.33.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.360.120.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.768.256.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1024.341.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1280.427.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original.image_file.1440.480.file/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg/_jcr_content/renditions/original./macrophages-nanoparticles-uptake-autoimmersion-experiment.jpg"})
样品提供者:德国耶拿大学应用光学和生物物理研究院的F. Páez Larios和C. Eggeling
使用自动加水模块进行多位置、长时间序列实验
研究活体样品时,您可能不知道您感兴趣的实验现象发生在何处。为了捕捉巨噬细胞对纳米颗粒的吸收,需要在37 °C下使用重新加水的方法对多孔板的多个位置,以及多个Z平面进行长达数小时的图像采集。上方显示的区域是使用自动成像技术采集到的更大的数据集的一个子集,显示了细胞内对纳米颗粒的吸收情况(上排图像)。对细胞表面也进行了成像,以验证纳米颗粒位于细胞内,而不只是位于细胞表面(下排图像)。
![红色荧光小脂质体和不同浓度的Sar1p蛋白(部分使用Alexa Fluor 488标记)在96多孔板中混合,在超过15个小时的时间内自动测量。Krüger et al., Biophys.J. 2017. 红色荧光小脂质体和不同浓度的Sar1p蛋白(部分使用Alexa Fluor 488标记)在96多孔板中混合,在超过15个小时的时间内自动测量。Krüger et al., Biophys.J. 2017.]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.100.63.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.360.225.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.768.480.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1024.640.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1280.800.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1440.900.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1920.1200.0,40,1920,1240.file/binding-curve-red-fluorescent-liposomes.png"})
![红色荧光小脂质体和不同浓度的Sar1p蛋白(部分使用Alexa Fluor 488标记)在96多孔板中混合,在超过15个小时的时间内自动测量。Krüger et al., Biophys.J. 2017. 样品由德国哈勒大学的C. Haupt和K. Bacia提供 红色荧光小脂质体和不同浓度的Sar1p蛋白(部分使用Alexa Fluor 488标记)在96多孔板中混合,在超过15个小时的时间内自动测量。Krüger et al., Biophys.J. 2017. 样品由德国哈勒大学的C. Haupt和K. Bacia提供]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.100.67.file/binding-curve-red-fluorescent-liposomes.png","small":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.360.240.file/binding-curve-red-fluorescent-liposomes.png","medium":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.768.512.file/binding-curve-red-fluorescent-liposomes.png","large":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1024.683.file/binding-curve-red-fluorescent-liposomes.png","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1280.853.file/binding-curve-red-fluorescent-liposomes.png","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original.image_file.1440.960.file/binding-curve-red-fluorescent-liposomes.png","max":"https://www.zeiss.com/content/dam/rms/reference-master/products/light/widefield/axio-observer-l/autoimmersion-module/binding-curve-red-fluorescent-liposomes.png/_jcr_content/renditions/original./binding-curve-red-fluorescent-liposomes.png"})
红色荧光小脂质体和不同浓度的Sar1p蛋白(部分使用Alexa Fluor 488标记)在96多孔板中混合,在超过15个小时的时间内自动测量。Krüger et al., Biophys.J. 2017.
红色荧光小脂质体和不同浓度的Sar1p蛋白(部分使用Alexa Fluor 488标记)在96多孔板中混合,在超过15个小时的时间内自动测量。Krüger et al., Biophys.J. 2017.样品由德国哈勒大学的C. Haupt和K. Bacia提供
水相样品中的可靠数据采集
蔡司自动加水模块快速又准确,可确保您的数据采集无误,即使将多孔样品移动至多个位置时也是如此。如图所示,研究人员通过不同浓度的荧光标记蛋白来制备孔,并能够使用荧光交叉相关光谱(FCCS)准确测量与红色荧光脂质体的结合曲线。