Emmert Sarah, Rovira Anna, Rivera-Fuentes Pablo
Department of Chemistry, University of Zurich, 8057, Zurich, Switzerland.
Chembiochem. 2025 Jun 16;26(12):e202500174. doi: 10.1002/cbic.202500174. Epub 2025 May 16.
HaloTag (HT) is a versatile self-labeling protein that has been widely adopted in fluorescence microscopy. Besides its established use as an intensity-based marker and sensor, interest in using HT for multiplexed fluorescence lifetime imaging microscopy (FLIM) has recently arisen. Herein, the application of an environment-sensitive fluorophore was explored for FLIM multiplexing with the free dye and HT mutants. The extended coumarin pyridinium scaffold was selected due to its structural simplicity and the strong sensitivity of its photophysical properties to the environment. It was demonstrated that three-channel imaging is possible by taking advantage of the propensity of the dye to accumulate in mitochondria and vesicles and the efficient labeling of two distinct HT mutants. Further investigation was conducted on different dehalogenase proteins and their FLIM multiplexing capabilities when paired with an HT mutant. Finally, the polarity of the protein binding pocket was identified as a key feature that affects the lifetime of this kind of fluorescent molecule.
卤代标签(HT)是一种多功能的自标记蛋白,已在荧光显微镜中广泛应用。除了作为基于强度的标记物和传感器的既定用途外,最近人们对使用HT进行多重荧光寿命成像显微镜(FLIM)产生了兴趣。在此,探索了一种环境敏感荧光团与游离染料和HT突变体用于FLIM多重检测的应用。选择了扩展香豆素吡啶鎓支架,因其结构简单且其光物理性质对环境具有强烈敏感性。结果表明,利用染料在线粒体和囊泡中积累的倾向以及两种不同HT突变体的有效标记,可以实现三通道成像。进一步研究了不同的脱卤酶蛋白及其与HT突变体配对时的FLIM多重检测能力。最后,确定了蛋白质结合口袋的极性是影响这类荧光分子寿命的关键特征。
