Computational identification of key residues regulating fluorescence emission in a red/green cyanobacteriochrome

Authors
Kannan, PriyadharshiniOh, JisungYeon, Young JooPark, Youn-IlSeo, Moon-HyeongPark, Keunwan
Issue Date
2024-01
Publisher
Wiley-Liss Inc
Citation
PROTEINS : Structure, Function, and Bioinformatics, v.92, no.1, pp.106 - 116
Abstract
Cyanobacteriochromes (CBCRs) are linear tetrapyrrole bilin-binding photoreceptors of cyanobacteria that exhibit high spectral diversity, gaining attention in optogenetics and bioimaging applications. Several engineering studies on CBCRs were attempted, especially for designing near-infrared (NIR) fluorescent proteins with longer fluorescence wavelengths. However, despite continuous efforts, a key component regulating fluorescence emission property in CBCRs is still poorly understood. As a model system, we focused on red/green CBCR Slr1393g3, from the unicellular cyanobacterium Synechocystis sp. PCC 6803 to engineer Pr to get far-red light-emitting property. Energy profiling and pairwise structural comparison of Slr1393g3 variants effectively reveal the mutations that are critical to the fluorescence changes. H497 seems to play a key role in stabilizing the chromophore environment, especially the alpha 3 helix, while H495, T499, and Q502 are potential key residues determining fluorescence emission peak wavelength. We also found that mutations of alpha 2 and alpha 4 helical regions are closely related to the chromophore binding stability and likely affect fluorescence properties. Taken together, our computational analysis suggests that the fluorescence of Slr1393g3 is mainly controlled by the stabilization of the chromophore binding pocket. The predicted key residues potentially regulating the fluorescence emission property of a red/green CBCR will be advantageous for designing improved NIR fluorescent protein when combined with in vitro molecular evolution approaches.
Keywords
BINDING GAF DOMAIN; HYDROGEN-BOND; PHOTOCONVERSION; DYNAMICS; PHYCOCYANOBILIN; EFFICIENCY; CONVERSION; SLR1393; LINEAGE; cyanobacteriochrome; fluorescence; helix stabilization; interaction energy; Slr1393g3; structural analysis
ISSN
0887-3585
URI
https://pubs.kist.re.kr/handle/201004/112982
DOI
10.1002/prot.26586
Appears in Collections:
KIST Article > 2024
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