1999) (Fig  4b, c), and understanding of the electronic structure

1999) (Fig. 4b, c), and understanding of the electronic structure of the His/B850 complexes is important for understanding the mechanism of exciton transfer over the BChl ring and the transfer rate from the B800 to the B850. Quantum ROCK inhibitor electronic delocalization couples to distortions of the protein-cofactor “smart” matrix to enhance the transfer rate from the B800 to the B850 in a robust process (Jang et al. 2007). On excitation with blue light, the B800 band is populated, and the transfer to the B850 takes place on a time scale of 0.7–3 ps (Grondelle and Novoderezhkin 2006). While the intraband B800 and

interband B800–B850 electronic coherences decay rapidly, the B850 intraband coherence lasts several picaseconds in a wavepacket that is delocalized over several B850 BChls. In order to probe the electronic and protonic states of axial histidines, MAS

NMR has been applied in conjunction with site-specific isotope labeling of histidine residues in LH2 complex (Alia et al. 2001, 2004). By means of 1D 15N MAS NMR, our group has shown that the τ nitrogen of β-His30 and α-His31 ligate to the Mg2+ of the B850 BChl a molecules. The hydrogen bonding status of the π nitrogen was reflected by the resonance shift in the 1D 15N spectra. In addition, RG7112 research buy a 2D homonuclear (13C–13C) MAS NMR experiment, using a phase-sensitive RFDR pulse sequence and a double CP/MAS experiment performed on U–15N and 13C labeled LH2, revealed that axial histidines in LH2 complex carry partial positive charge in an overall neutral Histidine/B850 complex (Alia et al. 2001) (Fig. 7). With DFT calculations these effects were analyzed in detail, and it was established that Fossariinae the histidines are subject to protein-induced strain that forces the histidine

imidazole side chain in the positive charge-type electronic configuration as a result of the NVP-BSK805 higher order self-assembly process (Wawrzyniak et al. 2008). Fig. 7 a 2-D homonuclear (13C–13C) and b heteronuclear (1H–13C) dipolar correlation spectrum of [13C6,15N3]-histidine labeled LH2 complex collected in a field of 17.6 T. The spectrum was recorded with a spinning frequency ω r/2π = 12 kHz at a temperature of 230 K. The 1H homonuclear interactions in b were suppressed with PMLG irradiation during proton evolution, applying a RF power corresponding with a nutation frequency of 74.4 kHz. Cross peaks from the cationic histidines (Type 2A) are indicated by (′) and cross peaks from the histidines bound with B850 (Type 2B) are indicated by (*) In addition to charge transfer, 2D heteronuclear (1H–13C) MAS experiments can assess the electronic delocalization and overlap in a chlorophyll ring. A 2D heteronuclear (1H–13C) MAS NMR experiment was performed using a 2D PMLG decoupled heteronuclear sequence (Alia et al. 2004).

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