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Boris Illarionov, Wolfgang Eisenreich, Martina Wirth, Chan Yong Lee, Young Eun Woo, Adelbert Bacher, Markus Fischer

Lumazine proteins from photobacteria. Localization of the single ligand binding site to the N-terminal domain

Keywords: lumazine proteins, NMR spectroscopy, photobacteria, Photobacterium leiognathi, riboflavin synthase, site-directed mutagenesis

Lumazine protein is believed to serve as an optical transponder in bioluminescence emission by certain marine bacteria. Sequence arguments suggest that the protein comprises two similarly folded riboflavin synthase type domains, but earlier work also suggested that only one domain binds 6,7-dimethyl-8-ribityllumazine (DMRL). We show that the replacement of serine-48 or threonine-50 in the N-terminal domain of lumazine protein of Photobacterium leiognathi modulates the absorbance and fluorescence properties of bound DMRL or riboflavin. Moreover, the replacement of these amino acids is accompanied by reduced ligand affinity. Replacement of serine-48 by tryptophan shifts the ¹³C NMR signal of the 6-methyl group in bound DMRL upfield by 2.9 ppm as compared to the wild type protein complex. Replacement of threonine-50 causes a downfield shift of approximately 20 ppm for the ¹⁵N NMR signal of N-5, as well as an upfield shift of 3 ppm for the ¹³C NMR signal of C-7 in bound DMRL, respectively. The replacement of the topologically equivalent serine-144 and proline-146 in the C-terminal domain had no significant impact on optical properties, chemical shifts and apparent binding constants of bound DMRL. The data show that the N-terminal domain is the unique site for ligand binding in lumazine protein.

Biological Chemistry, Walter de Gruyter

Print ISSN: 1431-6730
Volume: 2007
Pages: -

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