The data are compared to those of BChl a in the detergent n-octyl

The data are compared to those of BChl a in the detergent n-octyl-β-glucopiranoside (OG) embedded in a buffer-glycerol glass (BChl a in OG-glass; open grey circles). The mass of the protein is given in parenthesis in kDa. Note the correlation between the amount and onset of SD and the mass of the protein: the larger the mass, the slower the SD (Den Hartog et al. 1999b). The difference between the results obtained for B777 and BChl a in OG-glass proves that the BChl a molecules in B777 are bound to the protein (Creemers and Völker 2000) The log–log dependence of a SD on t d for the three sub-core complexes of PSII is shown in Fig. 7, with t d varying between 10−6 s (microseconds)

and 104 s (a few hours), and temperatures from 1.2 to 4.2 K. The results are compared in the same figure with those obtained

for B777, the monomer subunit of LH1 (red curve), and BChl a in OG-glass (grey curve). The latter shows a typical AZD0530 in vivo glass-like behaviour, with a SD increasing linearly with log (t d) over at least 15 orders of magnitude in time (10−9–105 s), indicating that the distribution of relaxation rates P(R) is Ganetespib nmr continuous and proportional to 1/R (Koedijk et al. 1996; Silbey et al. 1996; Wannemacher et al. 1993). GSK1120212 In contrast, the B777 subunit of LH1, which consists of a BChl a monomer surrounded by protein and dissolved in OG-glass, qualitatively displays the behaviour of the PSII sub-core complexes: for short delay times, a SD is constant and the results seem to be determined by ‘pure’ dephasing, i.e. by fast, local fluctuations. Thus, for short times, the protein appears to be rather rigid and to behave as a crystal in the direct vicinity of the excited pigments. The onset of SD at longer delay times and the logarithmic delay-time dependence of \( \Upgamma_\hom ^’ \) suggest that slow fluctuations are involved in conformational relaxation http://www.selleck.co.jp/products/azd9291.html (at least at low T), implying that protein motions have a broad and continuous 1/R distribution of low-frequency rates R with a cut-off

frequency equal to t d −1 at the onset of SD. These motions probably take place at the interface between the protein and buffer-glycerol glass, where there is more structural flexibility. If we take a closer look at Fig. 7, we see that the onset of SD as well as the slope of the curves depend on the complex studied (Den Hartog et al. 1999b). B777 (with a protein mass of ~6 kDa (Sturgis and Robert 1994)) has its onset of SD at the shortest delay time (t d ~ 10 ms) and shows the largest slope \( \textd\Upgamma_\hom ^’ /\textd\log t_\textd \), whereas CP47 (~70 kDa; Chang et al. 1994) starts SD at t d ~ 300 ms, and RC (~110 kDa; Eijckelhoff and Dekker 1995) starts SD at t d ~ 1 s. Correspondingly, the slope of CP47 is larger than that of RC, indicating a larger amount of SD in CP47. Surprisingly, CP47–RC (~180 kDa; Eijckelhoff et al.

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