Dual-site lysosome-targeted fluorescent probe for separate detection of endogenous biothiols and SO₂ in living cells

Citations Over TimeTop 10% of 2018 papers

Abstract

Biothiols and SO₂ play crucial roles in many physiological and pathological processes. To unravel their complicated interrelationship and cellular cross-talk, it would be highly desirable to develop single-molecule fluorescent probes that can selectively detect biothiols and SO₂via different emission channels. Here, a novel chromenylium derivative, BPO-Py-diNO₂, based on the rational design of dual recognition sites for biothiols and SO₂ selectively and sensitively responded to biothiols with near-infrared fluorescence, and to SO₂ with green fluorescence. The emission shift for the two channels was 170 nm. BPO-Py-diNO₂ was selectively enriched in lysosomes. It could also be used to evaluate dual-channel imaging of endogenous biothiols and SO₂ in living HeLa cells, and it could be used for monitoring the mutual interconversion of biothiols and SO₂.

Related Papers

• → History and Morphology of the Lysosome(2007)37 cited
• → A photostable fluorescent probe for long-time imagining of lysosome in cell and nematode(2018)23 cited
• → Quantitative trait locus mapping identifies the Gpnmb gene as a modifier of mouse macrophage lysosome function(2021)20 cited
• → Chemically Resolving Lysosome Populations in Live Cells(2020)6 cited
• → Aging and Change in Location of Hepatic Lysosomal Enzymes(1969)