AI Article Synopsis
- FRET biosensors are effective tools for analyzing specific signaling pathways in live cells, with a shift from intensity-based to fluorescence lifetime measurements, offering more reliable data.
- Recent advancements in fluorescent proteins and imaging technologies have expanded the options for researchers, with long-lifetime proteins like Clover and mTurquoise2 proving particularly effective.
- Testing revealed Clover-mCherry as an excellent donor-acceptor pair for improved dynamic range, while mRuby2 showed poor performance; combining mTFP-sRCh and Clover-mCherry could enable simultaneous use of multiple biosensors without interference.
Article Abstract
FRET biosensors have proven very useful tools for studying the activation of specific signalling pathways in living cells. Most biosensors designed to date have been predicated on fluorescent protein pairs that were identified by, and for use in, intensity based measurements, however fluorescence lifetime provides a more reliable measurement of FRET. Both the technology and fluorescent proteins available for FRET have moved on dramatically in the last decade. Lifetime imaging systems have become increasingly accessible and user-friendly, and there is an entire field of biology dedicated to refining and adapting different characteristics of existing and novel fluorescent proteins. This growing pool of fluorescent proteins includes the long-lifetime green and cyan fluorescent proteins Clover and mTurquoise2, the red variant mRuby2, and the dark acceptor sREACh. Here, we have tested these donors and acceptors in appropriate combinations against the standard or recommended norms (EGFP and mTFP as donors, mCherry and either Ypet or Venus as acceptors) to determine if they could provide more reliable, reproducible and quantifiable FLIM-FRET data to improve on the dynamic range compared to other donors and breadth of application of biosensor technologies. These tests were performed for comparison on both a wide-field, frequency domain system and a multiphoton, TCSPC time domain FLIM system. Clover proved to be an excellent donor with extended dynamic range in combination with mCherry on both platforms, while mRuby2 showed a high degree of variability and poor FRET efficiencies in all cases. mTFP-Venus was the most consistent cyan-yellow pair between the two FLIM methodologies, but mTurquoise2 has better dynamic range and transfers energy consistently over time to the dark acceptor sRCh. Combination of mTFP-sRCh with Clover-mCherry would allow the simultaneous use of two FLIM-FRET biosensors within one sample by eliminating the crosstalk between the yellow acceptor and green donor emissions.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5749721 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0183585 | PLOS |
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