Photochromic biliproteins from the cyanobacterium Anabaena sp. PCC 7120: lyase activities, chromophore exchange, and photochromism in phytochrome AphA.

Photochromic biliproteins can be switched by light between two states, initiated by Z/E photoisomerization of the linear tetrapyrrole chromophore. The cyanobacterium Anabaena sp. PCC 7120 contains three genes coding for such biliproteins, two coding for phytochromes (aphA/B) and one for the alpha subunit of phycoerythrocyanin (pecA). (a) aphA was overexpressed in Escherichia coli with N-terminal His and S tags, and the protein was reconstituted by an optimized protocol with phycocyanobilin (PCB), to yield the photochromic chromoprotein, PCB-AphA, carrying the PCB chromophore. (b) AphA chromophorylation is autocatalytic such as in other phytochromes. (c) AphA chromophorylation is also possible by chromophore transfer from the PCB-carrying biliprotein, phycocyanin (CPC). The autocatalytic transfer is very slow, and it is enhanced more than 100-fold by catalysis of PCB:CpcA lyase and alpha-CPC as donor. (d) Through deletion mutations of aphA, a short sequence IQPHGV [amino acids (aa) 26-31] was found essential for the lyase activity of AphA, indicating an interaction of the N terminus with the chromophore-binding domain around cysteine 259. (e) A motif of at least 23 aa, starting with this sequence and located approximately 250 aa N terminal of the chromophore-binding cysteine, is proposed to relate to the lyase function in plant and most prokaryotic phytochromes. (f) Long-range interactions in AphA are further supported by blue-shifted absorptions (<or=12 nm) of both the Pr and Pfr forms of truncated chromoproteins.