Expression of Xanthorhodopsin in Escherichia coli.

Abstract

Xanthorhodopsin (XR) from Salinibacter ruber is a light-driven proton pump containing retinal and a light-harvesting carotenoid antenna salinixanthin. Previous structure-functional studies of XR were conducted using a protein isolated from the native host only due to the absence of heterologous expression in Escherichia coli. In this paper, we describe cell-free synthesis and incorporation in lipid-protein nanodiscs of the recombinant XR that demonstrated its principal compatibility with E. coli biosynthetic machinery. To produce XR in E. coli, three C-terminal deletion variants of this protein were constructed. In contrast to the full-length XR, their expression resulted in efficient synthesis in E. coli cells. However, cells producing recombinant XR variants bound retinal only upon growth in minimal medium, not in the rich one. The XR3 variant with deletion of ten C-terminal amino acid residues was obtained and characterized. Its absorption spectrum and photocycle kinetics were close to those reported for XR isolated from S. ruber membranes and bleached from salinixanthin. We have also constructed the first mutants of XR, H62M and D96N, and examined their properties.