Respiratory Complex III: A Bioengine with a Ligand-Triggered Electron-Tunneling Gating Mechanism

Document Type

Article

Publication Title

Journal of Physical Chemistry B

Abstract

Respiratory complex III (a.k.a., the bc1 complex) plays a key role in the electron transport chain in aerobic cells. The bc1 complex exhibits multiple unique electron tunneling (ET) processes, such as ET-bifurcation at the Qo site and movement of the Rieske domain. Moreover, we previously discovered that electron tunneling in the low potential arm of the bc1 complex is regulated by a key phenylalanine residue (Phe90). The main goal of the current work is to study the dynamics of the key Phe90 residue in the electron tunneling reaction between heme bL and heme bH as a function of the occupancy of the Qo and Qi binding sites in the bc1 complex. We simulated the molecular dynamics of four model systems of respiratory complex III with different ligands bound at the Qo and Qi binding sites. In addition, we calculated the electron tunneling rate constants between heme bL and heme bH along the simulated molecular dynamics trajectories. The binding of aromatic ligands at the Qo site induces a conformational cascade that properly positions the Phe90 residue, reducing the through-space ET distance from ∼7 to ∼5.5 Å and thus enhancing the electron transfer rate between the heme bL and the heme bH redox pair. Also, the binding of aromatic ligands at the Qi site induces conformational changes that stabilize the Phe90 conformational variation from ∼1.5 to ∼0.5 Å. Hence, our molecular dynamics simulation results show an on-demand two-step conformational connection between the occupancy of the Qo and Qi binding sites and the conformational dynamics of the Phe90 residue. Additionally, our dynamic electron tunneling results confirm our previously reported findings that the Phe90 residue acts as an electron-tunneling gate or switch, controlling the electron transfer rate between the heme bL and heme bH redox systems.

First Page

990

Last Page

1000

DOI

10.1021/acs.jpcb.3c07095

Publication Date

2-1-2024

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