Cell Meter 细胞活性检测试剂盒 蓝色荧光 405nm激发
Ex (nm) | 406 | Em (nm) | 445 |
分子量 | - | 溶剂 | - |
存储条件 | - |
该试剂盒有多种参数可用于监控细胞活力。试剂盒中使用的专有的紫色激光激发荧光染料是一种疏水性化合物,可轻松渗透完整的活细胞,并在进入活细胞后获得增强的荧光。细胞内酯酶对非荧光底物的水解产生了强烈的蓝色荧光产物,该产物很好地保留在细胞质中。通过非荧光底物的酯酶水解产生的蓝色荧光团具有荧光素的光谱特性。当在405 nm激发时,荧光团在〜450 nm处发出强烈的蓝色荧光。该试剂盒提供了所有必需成分,并具有用于荧光微孔板检测的优化的细胞标记方案。此Cell Meter 细胞活力分析试剂盒为荧光流式细胞术,微孔板和细胞功能的显微镜研究提供了标记细胞的有效工具。它可用于多种研究,包括细胞粘附,趋化性,多药耐药性,细胞生存力,细胞凋亡和细胞毒性。该试剂盒适用于增殖和非增殖细胞。
适用仪器
荧光酶标仪 | |
Ex: | 405 nm |
Em: | 460 nm |
Cutoff: | 435 nm |
推荐孔板: | 黑色透明底板 |
读取模式: | 底读模式 |
样品实验方案
简要概述
- 用测试化合物准备细胞
- 加入相同体积的CytoCalcein™Violet 450,AM工作溶液(100 µL /孔/ 96孔板或25 µL /孔/ 384孔板)
- 在室温或37°C下孵育1小时
- 监测Ex / Em = 405/460 nm(截止= 435 nm)的荧光强度(底部读取模式)
溶液配制
储备溶液配制
CytoCalcein™Violet 450,AM储备溶液:
将20 µL DMSO(组分B)添加到CytoCalcein™Violet 450,AM(组分A)的小瓶中,并充分混合以制成CytoCalcein™Violet 450,AM储备溶液。注意:20 µL CytoCalcein™Violet 450,AM储备液足以装满一块板。避光。为了存放,请将管子紧紧密封。
工作溶液配制
将CytoCalcein™Violet 450,AM储备溶液的全部内容物(20 µL)加入10 mL的测定缓冲液(组分C)中,并充分混合以制成CytoCalcein™Violet 450,AM工作溶液。该CytoCalcein™Violet 450,AM工作溶液在室温下至少可稳定2小时。注意:如果诸如CHO细胞之类的细胞含有能促进荧光染料随时间渗漏的有机阴离子转运蛋白,则应制备丙磺舒储备溶液并以孔内工作浓度范围为1至1的浓度添加到上样缓冲液中。 2.5毫米 分装并保存未使用的丙磺舒储备溶液于≤-20°C。
操作步骤
- 根据需要用测试化合物处理细胞。注意:添加化合物之前不必洗涤细胞。但是,如果测试的化合物对血清敏感,则可以在添加化合物之前将生长培养基和血清因子吸掉。加入100 µL /孔(96孔板)和25 µL /孔(384孔板)的1X Hank盐溶液和20 mM Hepes缓冲液(HHBS)或抽吸后选择的缓冲液。或者,细胞可以在无血清培养基中生长。
- 加入100 µL /孔(96孔板)或25 µL /孔(384孔板)的CytoCalcein™Violet 450,AM工作溶液。
- 在避光的条件下,于室温或37°C下孵育平板1小时。(孵育时间可能是15分钟到过夜。孵育时间少于4小时,我们获得了结果)。 注意:适当的孵育时间取决于所用的单个细胞类型和细胞浓度。优化每个实验的孵育时间。 注意: 加载后请勿洗涤细胞。 注意: 对于非贴壁细胞,建议在孵育后以800 rpm的速度离心细胞板2分钟,然后制动。
- 使用荧光板读数器(底部读取模式)在Ex / Em = 405/460 nm(截止= 435 nm)下监控荧光强度。
参考文献
Functional evidence that the self-renewal gene NANOG regulates esophageal squamous cancer development
Authors: Li, Deng and Xiang, Xiaocong and Yang, Fei and Xiao, Dongqin and Liu, Kang and Chen, Zhu and Zhang, Ruolan and Feng, Gang
Journal: Biochemical and Biophysical Research Communications (2017)
NINJ2--A novel regulator of endothelial inflammation and activation
Authors: Wang, Jingjing and Fa, Jingjing and Wang, Pengyun and Jia, Xinzhen and Peng, Huixin and Chen, Jing and Wang, Yifan and Wang, Chenhui and Chen, Qiuyun and Tu, Xin and others
Journal: Cellular Signalling (2017)
Erythropoietin Stimulates Endothelial Progenitor Cells to Induce Endothelialization in an Aneurysm Neck After Coil Embolization by Modulating Vascular Endothelial Growth Factor
Authors: Liu, Peixi and Zhou, Yingjie and An, Qingzhu and Song, Yaying and Chen, Xi and Yang, Guo-Yuan and Zhu, Wei
Journal: MEDICINE (2016): 1--8
Flexible Endoscopic Spray Application of Respiratory Epithelial Cells as Platform Technology to Apply Cells in Tubular Organs
Authors: Thiebes, Anja Lena and Reddemann, Manuel Armin and Palmer, Johannes and Kneer, Reinhold and Jockenhoevel, Stefan and Cornelissen, Christian Gabriel
Journal: Tissue Engineering Part C: Methods (2016): 322--331
Influence of hypothermia and subsequent rewarming upon leukocyte-endothelial interactions and expression of Junctional-Adhesion-Molecules A and B
Authors: Bogert, Nicolai V and Werner, Isabella and Kornberger, Angela and Meybohm, Patrick and Moritz, Anton and Keller, Till and Stock, Ulrich A and Beiras-Fern and ez, Andres
Journal: Scientific reports (2016)
Inhibition of ABC transport proteins by oil sands process affected water
Authors: Alharbi, Hattan A and Saunders, David MV and Al-Mousa, Ahmed and Alcorn, Jane and Pereira, Alberto S and Martin, Jonathan W and Giesy, John P and Wiseman, Steve B
Journal: Aquatic Toxicology (2016): 81--88
Rapid generation of collagen-based microtissues to study cell--matrix interactions
Authors: Brett, Marie-Elena and Crampton, Alex and ra L and Wood, David K
Journal: Technology (2016): 1--8
Toxicokinetics and toxicodynamics of chlorpyrifos is altered in embryos of Japanese medaka exposed to oil sands process-affected water: evidence for inhibition of P-glycoprotein
Authors: Alharbi, Hattan A and Alcorn, Jane and Al-Mousa, Ahmed and Giesy, John P and Wiseman, Steve B
Journal: Journal of Applied Toxicology (2016)
Spraying respiratory epithelial cells to coat tissue-engineered constructs
Authors: Thiebes, Anja Lena and Albers, Stefanie and Klopsch, Christian and Jockenhoevel, Stefan and Cornelissen, Christian G
Journal: BioResearch open access (2015): 278--287
The efficient hemostatic effect of Antarctic krill chitosan is related to its hydration property
Authors: Wu, Shuai and Huang, Zhuoyao and Yue, Jianhui and Liu, Di and Wang, Ting and Ezanno, Pierre and Ruan, Changshun and Zhao, Xiaoli and Lu, William W and Pan, Haobo
Journal: Carbohydrate polymers (2015): 295--303
相关产品
产品名称 | 货号 |
Cell Meter 细胞活性检测试剂盒 蓝色荧光 405nm激发 | Cat#22784 |
Cell Meter 细胞活性检测试剂盒 蓝色荧光 | Cat#22785 |
Cell Meter 细胞活性检测试剂盒 绿色荧光 | Cat#22786 |