Structural highlights
Function
Q5TLG6_9CNID
Publication Abstract from PubMed
Advanced imaging techniques crucially depend on the labels used. In this work, we present the structure-guided design of a fluorescent protein that displays both reversibly photochromic and green-to-red photoconversion behavior. We first designed ffDronpa, a mutant of the photochromic fluorescent protein Dronpa that matures up to three times faster while retaining its interesting photochromic features. Using a combined evolutionary and structure-driven rational design strategy, we developed a green-to-red photoconvertible ffDronpa mutant, called pcDronpa, and explored different optimization strategies that resulted in its improved version, pcDronpa2. This fluorescent probe combines a high brightness with low photobleaching and photoblinking. We herein show that, despite its tetrameric nature, pcDronpa2 allows for multimodal subdiffraction imaging by sequentially imaging a given sample using both super-resolution fluctuation imaging and localization microscopy.
Green-to-Red Photoconvertible Dronpa Mutant for Multimodal Super-resolution Fluorescence Microscopy.,Moeyaert B, Nguyen Bich N, De Zitter E, Rocha S, Clays K, Mizuno H, van Meervelt L, Hofkens J, Dedecker P ACS Nano. 2014 Jan 21. PMID:24410188[1]
From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.
See Also
References
- ↑ Moeyaert B, Nguyen Bich N, De Zitter E, Rocha S, Clays K, Mizuno H, van Meervelt L, Hofkens J, Dedecker P. Green-to-Red Photoconvertible Dronpa Mutant for Multimodal Super-resolution Fluorescence Microscopy. ACS Nano. 2014 Jan 21. PMID:24410188 doi:http://dx.doi.org/10.1021/nn4060144