Subach Fedor V, Patterson George H, Manley Suliana, Gillette Jennifer M, Lippincott-Schwartz Jennifer, Verkhusha Vladislav V
Department of Anatomy and Structural Biology, and Gruss-Lipper Biophotonics Center, Albert Einstein College of Medicine, 1300 Morris Park Ave., Bronx, New York 10461, USA.
Nat Methods. 2009 Feb;6(2):153-9. doi: 10.1038/nmeth.1298. Epub 2009 Jan 25.
The reliance of modern microscopy techniques on photoactivatable fluorescent proteins prompted development of mCherry variants that are initially dark but become red fluorescent after violet-light irradiation. Using ensemble and single-molecule characteristics as selection criteria, we developed PAmCherry1 with excitation/emission maxima at 564/595 nm. Compared to other monomeric red photoactivatable proteins, it has faster maturation, better pH stability, faster photoactivation, higher photoactivation contrast and better photostability. Lack of green fluorescence and single-molecule behavior make monomeric PAmCherry1 a preferred tag for two-color diffraction-limited photoactivation imaging and for super-resolution techniques such as one- and two-color photoactivated localization microscopy (PALM). We performed PALM imaging using PAmCherry1-tagged transferrin receptor expressed alone or with photoactivatable GFP-tagged clathrin light chain. Pair correlation and cluster analyses of the resulting PALM images identified < or =200 nm clusters of transferrin receptor and clathrin light chain at < or =25 nm resolution and confirmed the utility of PAmCherry1 as an intracellular probe.
现代显微镜技术对光激活荧光蛋白的依赖促使了mCherry变体的开发,这些变体最初是暗的,但在紫光照射后会变成红色荧光。我们以整体和单分子特性作为选择标准,开发了激发/发射最大值在564/595 nm的PAmCherry1。与其他单体红色光激活蛋白相比,它具有更快的成熟速度、更好的pH稳定性、更快的光激活速度、更高的光激活对比度和更好的光稳定性。缺乏绿色荧光和单分子行为使得单体PAmCherry1成为双色衍射极限光激活成像以及超分辨率技术(如单色和双色光激活定位显微镜(PALM))的首选标签。我们使用单独表达的PAmCherry1标记的转铁蛋白受体或与光激活GFP标记的网格蛋白轻链一起进行了PALM成像。对所得PALM图像的配对相关性和聚类分析在≤25 nm分辨率下识别出≤200 nm的转铁蛋白受体和网格蛋白轻链簇,并证实了PAmCherry1作为细胞内探针的实用性。