Transient electronic and vibrational signatures during reversible photoswitching of a cyanobacteriochrome photoreceptor

Cyanobacteriochromes (CBCRs) are an emerging class of photoreceptors that are distant relatives of the phytochromes family. Unlike phytochromes, CBCRs have gained popularity in optogenetics due to their highly diverse spectral properties spanning the UV to near-IR region and only needing a single compact binding domain. AnPixJg2 isa CBCR that can reversibly photoswitch between its red-absorbing (P-15Z(r)) and green-absorbing (P-15E(g)) forms of the phycocyanobilin (PCB) cofactor. To reveal primary events of photoconversion, we implemented femtosecond transient absorption spectroscopy with a homemade LED box and a miniature peristaltic pump flow cell to track transient electronic responses of the photoexcited AnPixJg2 on molecular time scales. The 525 nm laser-induced P-g-to-P-r reverse conversion exhibits a similar to 3 ps excited-state lifetime before reaching the conical intersection (CI) and undergoing further relaxation on the 30 ps time scale to generate a long-lived Lumi-G ground state intermediate en route to P-r. The 650 nm laser-induced P-r-to-P-g forward conversion is less efficient than reverse conversion, showing a longer-lived excited state which requires two steps with similar to 13 and 217 ps time constants to enter the CI region. Furthermore, using a tunable ps Raman pump with broadband Raman probe on both the Stokes and anti-Stokes sides, we collected the pre-resonance ground-state femtosecond stimulated Raman spectroscopy (GS-FSRS) data with mode assignments aided by quantum calculations. Key vibrational marker bands at similar to 850, 1050, 1615, and 1649 cm(-1) of the P-r conformer exhibit a notable blueshift to those of the P-g conformer inside AnPixJg2, reflecting the PCB chromophore terminal D (major) and A (minor) ring twist along the primary photoswitching reaction coordinate. This integrated ultrafast spectroscopy and computational platform has the potential to elucidate photochemistry and photophysics of more CBCRs and photoactive proteins in general, providing the highly desirable mechanistic insights to facilitate the rational design of functional molecular sensors and devices. (C) 2020 Elsevier B.V. All rights reserved.

Automated summary

CBCRs, including AnPixJg2, exhibit reversible photoconversion properties. Ultrafast spectroscopy techniques can reveal primary events of photoconversion.