Determination of retinal Schiff base configuration in bacteriorhodopsin

Abstract: Resonance Raman spectra of the BR568, BR54, K625, and L5so intermediates of the bacteriorhodopsin photocycle have been obtained in 1H20 and 2H20 by using native purple membrane as well as purple membrane regenerated with 14,15-13C2 and 12,14-2H2 isotopic derivatives of retinal. These derivatives were selected to determine the contribution of the C14-C15 stretch to the normal modes in the 1100-to 1400-cm-' fingerprint region and to characterize the coupling of the C14-C15 stretch with the NH rock. Normal mode c… Show more

“…These results could be confirmed by Resonance Raman studies (Ref. 30). With this technique the structures of the chromophores in the intermediates could also be established.…”

The synthesis of 13C-labelled retinals

“…These results could be confirmed by Resonance Raman studies (Ref. 30). With this technique the structures of the chromophores in the intermediates could also be established.…”

The synthesis of 13C-labelled retinals

“…These spectra gave the first in situ "C nmr information of the chromophore within a protein, establishing that in dark-adapted bacteriorhodopsin the chromophore occurs in a 40% all-trans protonated Schiff base and 60% 13-cis, 15-cis protonated Schiff base structure which are not interconverting on the "C nmr time scale. These results were strongly supported by resonance Raman (RR) (7,8) and Fourier transform infrared difference (ITIR diff.) (9) vibrational studies of the "C-labelled bacteriorhodopsins and further detailed inforination concerning the chromophore structure was obtained.…”

Synthesis of 8-, 9-, 12-, and 13-mono-¹³C-retinal

“…H-D exchange reduces the intensity of the 1184 cm À1 band and a frequency up-shift occurs (data not shown). The sensitivity of this band towards deuteration of the Schiff base nitrogen argues for the C‚N-H bond in syn-configuration in the 13-cis isomer [28] which is characteristic for the thermally isomerized 13-cis state. Finally, the strong band at 1009 cm À1 can be assigned to the in-plane rocking mode of the two methyl groups of the retinal chain and the weak bands at 882 and 826 cm À1 are due to HOOP (hydrogen-outof-plane) modes [26].…”

Functional characterization of sensory rhodopsin II from Halobacterium salinarum expressed in Escherichia coli