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Cyanobacteriochromes are linear tetrapyrrole-binding photoreceptors produced by cyanobacteria. Their chromophore-binding GAF domains are categorized into many lineages. Among them, dual Cys-type cyanobacteriochrome GAF domains possessing not only a highly conserved 'first Cys' but also a 'second Cys' are found from multiple lineages. The first Cys stably attaches to C31 of the A-ring, while the second Cys mostly shows reversible ligation to the C10 of the chromophore. Notably, the position of the second Cys in the primary sequence is diversified, and the most abundant dual Cys-type GAF domains have a 'second Cys' within the DXCF motif, which are called DXCF GAF domains. It has been long known that the second Cys in the DXCF GAF domains not only shows the reversible ligation but also is involved in isomerization activity (reduction in C4=C5 double bond) from the initially incorporated phycocyanobilin to phycoviolobilin. However, comprehensive site-directed mutagenesis on the DXCF GAF domains, AM1_6305g1 and AM1_1499g1, revealed that the second Cys is dispensable for isomerization activity, in which three residues participate by fixing the C- and D-rings. Fixation of the chromophore on both sides of the C5 bridge is necessary, even though one side of the fixation site is far from this bridge, with the other side at C31 fixed by the first Cys.

Unusual ring D fixation by three crucial residues promotes phycoviolobilin formation in the DXCF-type cyanobacteriochrome without the second Cys