5 803.2 817.7 809.4 788.6 796.2 799.4 Müh et al. (2007) 805.8 800.1 820.1 806.8 792.4 799.5 802.7 Adolphs et al. (2008) 797.1 809.1 822.4 802.9 794.3 801.9 806.1 The annotations M and T stand for simulations taking into account interactions between the seven BChl a molecules in the monomer (M) or between the 21 molecules in the trimer (T) The annotation 1 and 2 represent fits to two datasets from different groups. JQ1 clinical trial The annotation 1* and 2* refer to simulations which use different broadening mechanisms At the Selleckchem GSK2245840 beginning of the 1990s,

the optical spectra were fit, assuming interactions between the BChl a pigments from different subunits in one trimer (Johnson and Small 1991; Van Mourik et al. 1994; Rätsep and Freiberg 2007). Although previous efforts to model the system using the full trimer geometry had not been

very successful, Pearlstein still expected the C 3 symmetry of the system to amplify the coupling effect between the intersubunit BChl a molecules (Pearlstein 1992). In contrast to earlier simulations, in his later studies, different site energies were assigned to the 21 transitions. Instead of a single transitions at 802.6 nm, 21 site energies were used as fitting parameters, and the best fit was judged by eye. A mixed approach was employed by Lu et al. and Gülen et al.; the full trimer was taken into account while simultaneously fitting linear optical spectra. However, the same site energies were assigned to the symmetry related BChl a pigments, resulting Linsitinib in seven adjustable site energies

(Lu and Pearlstein 1993; Gülen 1996). This approach implies that, although there are only seven different site energies assigned, all the 21 possible exciton transitions in the trimer will be included in the fits (vide infra). Lu and Pearlstein (1993) restricted the interactions to a single subunit and improved the fits from Pearlstein, making use of an algorithm to minimize the difference between the measured and the simulated spectra with various adjustable parameters, amongst which are the seven site energies of the monomer. Their fits were based on two sets of absorption and CD spectra at 77 K, obtained by two different groups (referred Dichloromethane dehalogenase to as 1 and 2 in Table 1). A similar approach was used by Gülen et al. In contrast to the earlier fits by Pearlstein and Lu et al., CD spectra were excluded from the fits, since they tend to be very sensitive to the experimental conditions like the choice of solvent. Figure 2b shows directions of the individual (not excitonic) transition dipole moments with respect to the C 3 axis: BChl a pigments 7, 1, and 4 lie almost parallel to the C 3 axis, while the orientation of the dipole moments of BChl a 6, 2, 5, and 3 is almost perpendicular. Gülen used the spatial organization of the individual dipole moments to help restrict and direct the fit. As a start of the fit, the energy of BChl a 6 was fixed between 815 and 820 nm.