Abstract
The LOV2 domain of Avena sativa phototropin and its C450A mutant were expressed as recombinant fusion proteins and were examined by optical spectroscopy, electron paramagnetic resonance, and electron-nuclear double resonance. Upon irradiation (420-480 nm), the LOV2 C450A mutant protein gave an optical absorption spectrum characteristic of a flavin radical even in the absence of exogenous electron donors, thus demonstrating that the flavin mononucleotide (FMN) cofactor in its photogenerated triplet state is a potent oxidant for redox-active amino acid residues within the LOV2 domain. The FMN radical in the LOV2 C450A mutant is N(5)-protonated, suggesting that the local pH close to the FMN is acidic enough so that the cysteine residue in the wild-type protein is likely to be also protonated. An electron paramagnetic resonance analysis of the photogenerated FMN radical gave information on the geometrical and electronic structure and the environment of the FMN cofactor. The experimentally determined hyperfine couplings of the FMN radical point to a highly restricted delocalization of the unpaired electron spin in the isoalloxazine moiety. In the light of these results a possible radical-pair mechanism for the formation of the FMN-C(4a)-cysteinyl adduct in LOV domains is discussed.
Highlights
The LOV2 domain of Avena sativa phototropin and its C450A mutant were expressed as recombinant fusion proteins and were examined by optical spectroscopy, electron paramagnetic resonance, and electron-nuclear double resonance
Relevant characteristics lac,ara,gal,mtl,recAϩ,uvr[pREP4,lacl,kanr] recAI,endAI,gyrA96,thi-1,hsdR17,supE44,rclAl,lac[FЈ,proAB,laclq,lacZ⌬M15,Tn10(tetr)] Expression vector for E. coli pNCO113 with the gene coding for hisactophilin from D. discoideum pNCO-HISACT-BNH with the gene coding for LOV2 domain of phototropin from A. sativa pNCO-HISACT-BNH with the gene coding for LOV2C450A mutant domain of phototropin from A. sativa pUC19 with the gene coding for hisactophilin from D. discoideum
Our work unambiguously shows that the flavin cofactor of the LOV2 domain has electron transfer properties
Summary
The LOV2 domain of Avena sativa phototropin and its C450A mutant were expressed as recombinant fusion proteins and were examined by optical spectroscopy, electron paramagnetic resonance, and electron-nuclear double resonance. Based on the similarity of the spectral characteristics of the photoproduct 19 and that of a kinetically competent intermediate in mercuric ion reductase [21], Vincent Massey suggested that the LOV photocycle comprises a light-induced addition of a thiol group (cysteine 450 of phototropin in the case of the LOV2 domain from A. sativa) to the C(4a) position of the flavin chromophore followed by the spontaneous fragmentation of the adduct in the dark (see Fig. 1). This hypothesis could later be confirmed by 13C NMR spectroscopy [22]
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