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Figure 1.

Schematic view of the photocycle of bacteriorhodopsin.

The accessibility and orientation of the SB nitrogen atom undergoes two switches. In switch I, de-protonated SB (SB0) changes its orientation from extracellular to cytoplasmic; in switch II, re-protonated SB (SBH+) changes its orientation from cytoplasmic to extracellular. We aim to understand whether switch II occurs before the thermal isomerization of retinal (the red route) or after (the green route).

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Figure 1 Expand

Figure 2.

Time development of the dihedral angles C14-C15 = NZ-CE (color symbols) and C12-C13 = C14-C15 (black symbols) in the simulations starting from the N’ structure (1P8U).

a) The SB was un-protonated and D96 was protonated, mimicking the M state; b) The SB was protonated and D96 was deprotonated, mimicking the rising of the N state; c) The SB was protonated and D96 was protonated, mimicking the decay of the N state; d) The SB, D96 and D212 were protonated. The black symbols in each of the plots depict the isomeric state of the retinal C13 = C14 double bond, which remained its initial 13-cis configuration in all simulations.

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Figure 2 Expand

Figure 3.

Structural snapshots of the protonated SB (SBH+) in different simulations.

a) D96 was protonated. SBH+ was 15-syn, pointing to the EC side and it formed a hydrogen bond with D212 which also formed a hydrogen bond with the protonated D85. One water molecule was in the close vicinity of both D212 and D85 at the EC side; b-c) D96 was deprotonated. The cytoplasmic proton uptake pathway opened and formed a water channel (transparent pink pipe). SBH+ was able to take two configurations: 15-syn/EC-pointing as shown in b) and 15-anti/CP-pointing as shown in c). When CP-pointing, SBH+ formed a hydrogen bond with one water molecule at the CP side and in the same time another water molecule bridged D85 and D212 at the EC side. For clarity, non-polar hydrogen atoms are not shown in b) and c).

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Figure 3 Expand

Figure 4.

Time development of the number of the water molecules in the D96-K216 cavity.

Left column: three simulations with un-protonated SB (SB0) and protonated D96; middle column: three simulations with protonated SB (SBH+) and deprotonated D96; right column: three simulations with protonated SB (SBH+) and protonated D96.see also Figure S5.

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Figure 4 Expand

Figure 5.

Percent occupancies of the 15-anti/CP-pointing (lower panel) and 15-syn/EC-pointing (upper panel) configurations of the SB C15 = NZ bond in each of 48 simulations based on crystal structure of 1p8u, 1kg8, 1f4z and 1c8s.

Simulations starting from a same crystal structure are boxed in one column. Yellow symbols represent the simulations in which the SB is unprotonated and D96 is protonated; red symbols represent the simulations in which the SB is protonated and D96 is deprotonated; green symbols represent the simulations in which both the SB and D96 are protonated; cyan symbols represent the simulations in which the SB, D96 and D212 are protonated; For each of the protonation state variations, three runs are performed and they are represented by a same color but placed separately along the x-axis in a crystal structure box. See also Figures S2, S3 and S4.

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