Department of Chemistry, School of Science, The University of Tokyo, Bunkyo-ku, Tokyo, Japan.
Anal Chem. 2011 Jul 15;83(14):5708-14. doi: 10.1021/ac2009405. Epub 2011 Jun 21.
Single mRNA imaging in live cells is a useful technique to elucidate its precise localization and dynamics. We developed a method for visualizing endogenous mRNAs in living cells with single molecule sensitivity using genetically encoded probes. An RNA-binding protein of human PUMILIO1 (PUM-HD) was used for recognizing base sequences of a target mRNA, β-actin mRNA. Two PUM-HDs were modified by amino acid mutations to bind specifically to tandem 8-base sequences of the target mRNA. Because each PUM-HD was connected with amino- and carboxyl-terminal fragments of enhanced green fluorescent protein (EGFP), the probes emit fluorescence by reconstitution of EGFP fragments upon binding to β-actin mRNAs. The EGFP reconstituted on the mRNAs was monitored with a total internal reflection fluorescence microscope. Results show that each fluorescent spot in live cells represented a single β-actin mRNA and that distinct spatial and temporal movement of the individual β-actin mRNAs was visualized. We also estimated the average velocity of the movement of the single mRNAs along microtubules in live cells. This method is widely applicable to tracking various mRNAs of interest in the native state of living cells with single-mRNA sensitivity.
在活细胞中单分子 mRNA 成像是阐明其精确定位和动态的有用技术。我们开发了一种使用遗传编码探针以单分子灵敏度可视化活细胞内内源性 mRNA 的方法。用人 PUMILIO1(PUM-HD)的 RNA 结合蛋白用于识别靶 mRNA(β-肌动蛋白 mRNA)的碱基序列。通过氨基酸突变修饰了两个 PUM-HD,以特异性结合靶 mRNA 的串联 8 个碱基序列。由于每个 PUM-HD 都与增强型绿色荧光蛋白(EGFP)的氨基和羧基末端片段相连,因此探针通过与β-肌动蛋白 mRNAs 结合后 EGFP 片段的重建而发出荧光。用全内反射荧光显微镜监测在 mRNAs 上重建的 EGFP。结果表明,活细胞中的每个荧光点代表单个β-肌动蛋白 mRNA,并且可以可视化单个β-肌动蛋白 mRNAs 的独特空间和时间运动。我们还估计了活细胞中沿微管单个 mRNA 运动的平均速度。该方法广泛适用于以单分子灵敏度在活细胞的天然状态下跟踪各种感兴趣的 mRNA。
