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Article Abstract
Elucidating the origin of large Stokes shift (LSS) in certain fluorescent proteins absorbing in blue/blue-green and emitting in red/far-red has been quite illusive. Using a combination of spectroscopic measurements, corroborated by theoretical calculations, the presence of four distinct forms of the chromophore of the red fluorescent protein mKeima is confirmed, two of which are found to be emissive: a feeble bluish-green fluorescence (∼520 nm), which is enhanced appreciably in a low pH or deuterated medium but significantly at cryogenic temperatures, and a strong emission in red (∼615 nm). Using femtosecond transient absorption spectroscopy, the trans-protonated form is found to isomerize within hundreds of femtoseconds to the cis-protonated form, which further yields the cis-deprotonated form within picoseconds followed by structural reorganization of the local environment of the chromophore. Thus, the mechanism of LSS is substantiated to proceed via stepwise excited-state isomerization followed by proton transfer involving three isomers, leaving the fourth one (trans-deprotonated) as a bystander. The exquisite pH sensitivity of the dual emission is further exploited in fluorescence microscopy.
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