Database of articles cited by EMDB/PDB/SASBDB data

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Structure methods	All X-ray diffraction NMR electron microscopy small angle scattering neutron diffraction fiber diffraction powder diffraction infrared spectroscopy EPR fluorescence transfer theoretical model Hybrid
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Journal
IF	>30 >20 >10 >5 all

Title	Structural Insights into the Force-Transducing Mechanism of a Motor-Stator Complex Important for Bacterial Outer Membrane Lipid Homeostasis.
Journal, issue, pages	J Am Chem Soc, Year 2025
Publish date	Jun 30, 2025
Authors	Jiang Yeow / Chee Geng Chia / Nadege Zi-Lin Lim / Xiaodan Zhao / Jie Yan / Shu-Sin Chng /
PubMed Abstract	Gram-negative bacteria assemble an asymmetric outer membrane (OM) that functions as an effective barrier against antibiotics. Building a stable and functional OM requires the assembly and maintenance ...Gram-negative bacteria assemble an asymmetric outer membrane (OM) that functions as an effective barrier against antibiotics. Building a stable and functional OM requires the assembly and maintenance of balanced levels of proteins, lipopolysaccharides, and phospholipids into the bilayer. In , the trans-envelope Tol-Pal complex has recently been established to play a primary role in maintaining OM lipid homeostasis. It is believed that the motor-stator complex TolQR exploits the proton motive force in the inner membrane to induce conformational changes in the TolA effector, ultimately generating a force across the cell envelope to activate processes at the OM. Molecular details of how such force transduction occurs via the TolQRA complex are unknown. Here, we solve structures of the TolQRA complex using single-particle cryo-EM, capturing the transmembrane (TM) regions of the purified complex in two distinct states at ∼3.6 and ∼4.2 Å nominal resolutions. We define how the TolA N-terminal TM helix interacts with an asymmetric TolQR subcomplex in two different positions, revealing how the two TolQRA states are related by rotation of the TolQ pentamer. By considering structural prediction and biochemical evidence for the periplasmic domains of the complex, we propose a working model for how proton passage through the complex induces rotary movement that can be coupled to TolA for force transduction across the cell envelope.
External links	J Am Chem Soc / PubMed:40589080
Methods	EM (single particle)
Resolution	3.6 - 4.19 Å
Structure data	62050 9k49 EMDB-62050, PDB-9k49: Cryo-EM structure of inner membrane TolQRA complex in CYMAL-6-Neopentyl Glycol detergent micelles Method: EM (single particle) / Resolution: 3.6 Å 62251 9kch EMDB-62251, PDB-9kch: Cryo-EM structure of inner membrane TolQRA complex in CYMAL-6-Neopentyl Glycol detergent micelles Method: EM (single particle) / Resolution: 4.19 Å
Source	Escherichia coli (E. coli) escherichia coli k-12 (bacteria)
Keywords	PROTON TRANSPORT / bacteria / outer membrane / lipid homeostasis / phospholipid / inner membrane protein / protein complex structure / proton motive force / stator motor