High-resolution structure of a naturally red-shifted LOV domain

LOV domains are widespread photosensory modules that have also found applications in fluorescence microscopy, optogenetics, and light-driven generation of reactive oxygen species. Many of these applications require stable proteins with altered spectra. Here, we report a flavin-based fluorescent prot...

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Veröffentlicht in:	Biochemical and biophysical research communications 2021-08, Vol.567, p.143-147
Hauptverfasser:	Goncharov, Ivan M., Smolentseva, Anastasia, Semenov, Oleg, Natarov, Ilia, Nazarenko, Vera V., Yudenko, Anna, Remeeva, Alina, Gushchin, Ivan
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Sprache:	eng
Schlagworte:	Flavin-based fluorescent protein LOV domain Spectral tuning X-ray crystallography
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container_title	Biochemical and biophysical research communications
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creator	Goncharov, Ivan M. Smolentseva, Anastasia Semenov, Oleg Natarov, Ilia Nazarenko, Vera V. Yudenko, Anna Remeeva, Alina Gushchin, Ivan
description	LOV domains are widespread photosensory modules that have also found applications in fluorescence microscopy, optogenetics, and light-driven generation of reactive oxygen species. Many of these applications require stable proteins with altered spectra. Here, we report a flavin-based fluorescent protein CisFbFP derived from Chloroflexus islandicus LOV domain-containing protein. We show that CisFbFP is thermostable, and its absorption and fluorescence spectra are red-shifted for ∼6 nm, which has not been observed for other cysteine-substituted natural LOV domains. We also provide a crystallographic structure of CisFbFP at the resolution of 1.2 Å that reveals alterations in the active site due to replacement of conservative asparagine with a serine. Finally, we discuss the possible effects of presence of cis-proline in the Aβ-Bβ loop on the protein's structure and stability. The findings provide the basis for engineering and color tuning of LOV-based tools for molecular biology. •Chloroflexus islandicus genome encodes a red-shifted LOV domain.•Homologous mutation results in red shift of fluorescence spectra in YtvA but not in CagFbFP.•High-resolution crystal structure reveals altered active site and additional water molecule.•Presence of cis-proline in the Aβ-Bβ loop changes its structure in CisFbFP.
doi_str_mv	10.1016/j.bbrc.2021.06.046
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subjects	Flavin-based fluorescent protein LOV domain Spectral tuning X-ray crystallography
title	High-resolution structure of a naturally red-shifted LOV domain
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