Xinbo Song scite author profile

By connection of O(6)-benzylguanine (BG) to an "o-phenylenediamine-locked" rhodamine spirolactam responsive to nitric oxide (NO), a novel substrate (TMR-NO-BG) of genetically encoded SNAP-tag has been constructed. In living cells, labeling SNAP-tag fused proteins with TMR-NO-BG will in situ generate corresponding probe-protein conjugates (TMR-NO-SNAP) that not only inherit high NO sensitivity from the small-molecule parent but also guarantee the site-specificity to the designated subcellular compartments such as the mitochondrial inner membrane, nucleus, and cytoplasm. In two representative cellular processes, TMR-NO-BG demonstrates its applicability to monitor endogenous subcellular NO in the activated RAW264.7 cells stimulated by lipopolysaccharide and in the apoptotic COS-7 cells induced by etoposide.

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Specifically and wash-free labeling of SNAP-tag fused proteins with a hybrid sensor to monitor local micro-viscosity

Wang

Song

Chen

et al. 2017

Biosensors and Bioelectronics

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Xinbo Song

Targetable and fixable rotor for quantifying mitochondrial viscosity of living cells by fluorescence lifetime imaging

Monitoring Nitric Oxide in Subcellular Compartments by Hybrid Probe Based on Rhodamine Spirolactam and SNAP-tag

Specifically and wash-free labeling of SNAP-tag fused proteins with a hybrid sensor to monitor local micro-viscosity

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