6VIO

Crystal structure of eYFP His148Ser

Summary for 6VIO

• Entry DOI: 10.2210/pdb6vio/pdb
• Descriptor: Green fluorescent protein GFP (1 entity in total)
• Functional Keywords: yellow, fluorescent protein, enhanced, modulatable
• Biological source: Aequorea victoria (Jellyfish)
• Total number of polymer chains: 8
• Total formula weight: 235329.16

Authors

Lieberman, R.L.,Hill, S.E.,Patterson-Orazem, A.C. (deposition date: 2020-01-13, release date: 2021-01-13, Last modification date: 2024-10-30)

Primary citation

Peng, B.,Dikdan, R.,Hill, S.E.,Patterson-Orazem, A.C.,Lieberman, R.L.,Fahrni, C.J.,Dickson, R.M.
Optically Modulated and Optically Activated Delayed Fluorescent Proteins through Dark State Engineering
J.Phys.Chem.B, 125:5200-5209, 2021

PubMed Abstract: Modulating fluorescent protein emission holds great potential for increasing readout sensitivity for applications in biological imaging and detection. Here, we identify and engineer optically modulated yellow fluorescent proteins (EYFP, originally 10C, but renamed EYFP later, and mVenus) to yield new emitters with distinct modulation profiles and unique, optically gated, delayed fluorescence. The parent YFPs are individually modulatable through secondary illumination, depopulating a long-lived dark state to dynamically increase fluorescence. A single point mutation introduced near the chromophore in each of these YFPs provides access to a second, even longer-lived modulatable dark state, while a different double mutant renders EYFP unmodulatable. The naturally occurring dark state in the parent YFPs yields strong fluorescence modulation upon long-wavelength-induced dark state depopulation, allowing selective detection at the frequency at which the long wavelength secondary laser is intensity modulated. Distinct from photoswitches, however, this near IR secondary coexcitation repumps the emissive S level from the long-lived triplet state, resulting in optically activated delayed fluorescence (OADF). This OADF results from secondary laser-induced, reverse intersystem crossing (RISC), producing additional nanosecond-lived, visible fluorescence that is delayed by many microseconds after the primary excitation has turned off. Mutation of the parent chromophore environment opens an additional modulation pathway that avoids the OADF-producing triplet state, resulting in a second, much longer-lived, modulatable dark state. These Optically Modulated and Optically Activated Delayed Fluorescent Proteins (OMFPs and OADFPs) are thus excellent for background- and reference-free, high sensitivity cellular imaging, but time-gated OADF offers a second modality for true background-free detection. Our combined structural and spectroscopic data not only gives additional mechanistic details for designing optically modulated fluorescent proteins but also provides the opportunity to distinguish similarly emitting OMFPs through OADF and through their unique modulation spectra.

PubMed: 33978414
DOI: 10.1021/acs.jpcb.1c00649

Experimental method

X-RAY DIFFRACTION (3.6 Å)