Photochromic chromopeptides derived from phycoerythrocyanin: biophysical and biochemical characterization.

Abstract

Truncated chromopeptides have been prepared from the small photo- and redox-switchable biliprotein alpha-phycoerythrocyanin (alpha-PEC). The native chromoprotein consists of a C-terminal globin domain containing the chromophore and the regulatory cysteins 98 and 99, and a two-helix (X,Y) N-terminal domain responsible for aggregation. Digestion with chymotrypsin-free trypsin leads to three chromopeptides, (N-30, N-33 and N-35), basically lacking the two N-terminal helices X and Y. The photo- and redox chemistry of the major product (N-33) is identical, qualitatively and quantitatively, to that of native alpha-PEC. A series of N- and C-terminally truncated polypeptides were expressed in E. coli and subjected to autocatalytic and enzymatic reconstitution with phycocyanobilin. Enzymatic reconstitution was possible with N-terminally truncated polypeptides up to 45 aa, while neither a more extensively shortened (N-63) peptide, nor two C-terminally shortened polypeptides could be reconstituted. All chromopeptides recovered from enzymatic reconstitution contained the native phycoviolobilin chromophore and showed the photochemical and redox reactivity of alpha-PEC, albeit quantitatively reduced in the N-45 chromopeptide.