Dear Editor: Lysotracker Red DND-99 (Invitrogen-Molecular Probes) is a fluorophore in the form of a conjugated multi-pyrrole ring structure containing a weakly basic amine that selectively accumulates in acidic co...Dear Editor: Lysotracker Red DND-99 (Invitrogen-Molecular Probes) is a fluorophore in the form of a conjugated multi-pyrrole ring structure containing a weakly basic amine that selectively accumulates in acidic compartments and exhibits red fluorescence (excitation: 577 nm, emission: 590 nm) (Figure 1A). It is structurally related to Lysotracker Green (Figure 1B) but has an additional pyrrole ring in conjugation with the primary structure, which produces a longer wavelength emission. Lysotracker Red is commonly used in multicolor imaging studies as a lysosomal marker to determine intracellular localization of a protein of interest by fluorescence and confocal microscopy [1-5] and is recommended by the manufacturer for this application. While using Lysotracker Red to study the localization of a protein fused to green fluorescent protein (GFP), we observed an additional strong green fluorescent signal that colocalized with Lysotracker Red. After careful examination, however, we noted that the added green signal appeared only after illumination of the cells by a standard 100W mercury epi-fluorescence light source equipped with a 560/40 excitation filter (Leica TX2). Prior to exposing the field to broadband excitation light, it was possible to visualize by confocal scanning (488nm excitation line) cells that exclusively expressed GFP. Remarkably, after exposure to broadband excitation light, green fluorescence appeared in all cells irrespective of GFP expression, displayed signal intensity similar to that of GFP, and colocalized with Lysotracker Red (Figure S1).展开更多
文摘Dear Editor: Lysotracker Red DND-99 (Invitrogen-Molecular Probes) is a fluorophore in the form of a conjugated multi-pyrrole ring structure containing a weakly basic amine that selectively accumulates in acidic compartments and exhibits red fluorescence (excitation: 577 nm, emission: 590 nm) (Figure 1A). It is structurally related to Lysotracker Green (Figure 1B) but has an additional pyrrole ring in conjugation with the primary structure, which produces a longer wavelength emission. Lysotracker Red is commonly used in multicolor imaging studies as a lysosomal marker to determine intracellular localization of a protein of interest by fluorescence and confocal microscopy [1-5] and is recommended by the manufacturer for this application. While using Lysotracker Red to study the localization of a protein fused to green fluorescent protein (GFP), we observed an additional strong green fluorescent signal that colocalized with Lysotracker Red. After careful examination, however, we noted that the added green signal appeared only after illumination of the cells by a standard 100W mercury epi-fluorescence light source equipped with a 560/40 excitation filter (Leica TX2). Prior to exposing the field to broadband excitation light, it was possible to visualize by confocal scanning (488nm excitation line) cells that exclusively expressed GFP. Remarkably, after exposure to broadband excitation light, green fluorescence appeared in all cells irrespective of GFP expression, displayed signal intensity similar to that of GFP, and colocalized with Lysotracker Red (Figure S1).
