ISDA

Entry Detail

PDB ID:

6SAQ

Keywords:

ELECTRON TRANSPORT

Title:

wild-type NuoEF from Aquifex aeolicus bound to NADH-OH

Biological Source:

Source Organism:

Aquifex aeolicus (strain VF5)

Host Organism:

Escherichia coli

PDB Version:

Deposition Date:

2019-07-17

Release Date:

2020-07-22

Method Details:

Experimental Method:

X-RAY DIFFRACTION

Resolution:

2.02 Å

R-Value Free:

0.18

R-Value Work:

0.15

R-Value Observed:

0.16

Space Group:

P 1 21 1

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Macromolecular Entities

Protein Blast

Polymer Type:polypeptide(L)
Description:NADH-quinone oxidoreductase subunit E
Chain IDs:A, C
Chain Length:160
Number of Molecules:2
Biological Source:Aquifex aeolicus (strain VF5)

UniProt ID:O66842 Pfam ID:PF01257

Protein Blast

Polymer Type:polypeptide(L)
Description:NADH-quinone oxidoreductase subunit F
Chain IDs:B, D
Chain Length:434
Number of Molecules:2
Biological Source:Aquifex aeolicus (strain VF5)

UniProt ID:O66841 Pfam ID:PF01512, PF22461, PF10531, PF10589

Ligand Molecules

FES

FMN

GOL

L3W

SF4

Primary Citation

Structural Basis for Inhibition of ROS-Producing Respiratory Complex I by NADH-OH.

Friedrich, T, Vranas, M, Wohlwend, D, Qiu, D, Gerhardt, S, Trncik, C, Pervaiz, M, Ritter, K, Steimle, S, Randazzo, A, Einsle, O, Gunther, S, Jessen, H.J, Kotlyar, A, Schulte, M, Frick, K, Gnandt, E, Jurkovic, S, Burschel, S, Labatzke, R, Aierstock, K, Fiegen, D, Wohlwend, D, Gerhardt, S, Einsle, O, Friedrich, T.Show

Angew.Chem.Int.Ed.Engl. ? ? ? (2021)

PMID: 34612584 DOI: 10.1002/anie.202112165

Abstact

NADH:ubiquinone oxidoreductase, respiratory complex I, plays a central role in cellular energy metabolism. As a major source of reactive oxygen species (ROS) it affects ageing and mitochondrial dysfunction. The novel inhibitor NADH-OH specifically blocks NADH oxidation and ROS production by complex I in nanomolar concentrations. Attempts to elucidate its structure by NMR spectroscopy have failed. Here, by using X-ray crystallographic analysis, we report the structure of NADH-OH bound in the active site of a soluble fragment of complex I at 2.0 Å resolution. We have identified key amino acid residues that are specific and essential for binding NADH-OH. Furthermore, the structure sheds light on the specificity of NADH-OH towards the unique Rossmann-fold of complex I and indicates a regulatory role in mitochondrial ROS generation. In addition, NADH-OH acts as a lead-structure for the synthesis of a novel class of ROS suppressors.

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