EMDB-13819: CryoEM structure of electron bifurcating Fe-Fe hydrogenase HydABC...

Basic information

Entry

Database: EMDB / ID: EMD-13819

• Title: CryoEM structure of electron bifurcating Fe-Fe hydrogenase HydABC complex A. woodii in the oxidised state
• Map data: Single-Particle Cryo-EM Reconstructions of the Electron Bifurcating Hydrogenase HydABC symmetric(Processed on Cryosparc - non-sharpened map)

Sample

• Complex: Homodimer complex of HydABC trimer
  • Protein or peptide: Iron hydrogenase HydA1
  • Protein or peptide: Iron hydrogenase HydB
  • Protein or peptide: Iron hydrogenase HydC
• Ligand: IRON/SULFUR CLUSTER
• Ligand: FE2/S2 (INORGANIC) CLUSTER
• Ligand: FLAVIN MONONUCLEOTIDE
• Ligand: ZINC ION

• Keywords: flavin-based electron bifurcating hydrogenase / FeFe hydrogenase / nicotine amide adenine dinucleotide / ferredoxin / ELECTRON TRANSPORT

Function / homology

Function:

ferredoxin hydrogenase / ferredoxin hydrogenase activity / NADH dehydrogenase (ubiquinone) activity / ATP synthesis coupled electron transport / FMN binding / 4 iron, 4 sulfur cluster binding / iron ion binding / membrane / metal ion binding

Domain/homology:

: / Iron hydrogenase, small subunit superfamily / Iron hydrogenase, subset / Iron hydrogenase, small subunit / Iron hydrogenase small subunit / Iron hydrogenase small subunit / Iron hydrogenase, large subunit, C-terminal / Iron hydrogenase / Iron only hydrogenase large subunit, C-terminal domain / Soluble ligand binding domain / SLBB domain / Respiratory-chain NADH dehydrogenase 75 Kd subunit signature 1. / 2Fe-2S iron-sulfur cluster binding domain / NADH:ubiquinone oxidoreductase, 75kDa subunit, conserved site / NADH-ubiquinone oxidoreductase-G iron-sulfur binding region / NADH-ubiquinone oxidoreductase-G iron-sulfur binding region / NADH:ubiquinone oxidoreductase, subunit G, iron-sulphur binding / His(Cys)3-ligated-type [4Fe-4S] domain profile. / Thioredoxin-like [2Fe-2S] ferredoxin / NADH:ubiquinone oxidoreductase, 51kDa subunit, conserved site / Respiratory-chain NADH dehydrogenase 51 Kd subunit signature 2. / NADH-ubiquinone oxidoreductase 51kDa subunit, iron-sulphur binding domain / NADH-ubiquinone oxidoreductase 51kDa subunit, iron-sulphur binding domain superfamily / NADH-ubiquinone oxidoreductase-F iron-sulfur binding region / NADH-ubiquinone oxidoreductase-F iron-sulfur binding region / NADH-ubiquinone oxidoreductase 51kDa subunit, FMN-binding domain / NADH-ubiquinone oxidoreductase 51kDa subunit, FMN-binding domain superfamily / Respiratory-chain NADH dehydrogenase 51 Kd subunit / 4Fe-4S dicluster domain / 2Fe-2S ferredoxin-type iron-sulfur binding domain profile. / 2Fe-2S ferredoxin-type iron-sulfur binding domain / 2Fe-2S ferredoxin-like superfamily / 4Fe-4S ferredoxin, iron-sulphur binding, conserved site / 4Fe-4S ferredoxin-type iron-sulfur binding region signature. / 4Fe-4S ferredoxin-type iron-sulfur binding domain profile. / 4Fe-4S ferredoxin-type, iron-sulphur binding domain / Prokaryotic membrane lipoprotein lipid attachment site profile. / Thioredoxin-like superfamily

Component:

Iron hydrogenase HydA1 / Iron hydrogenase HydB

• Biological species: Acetobacterium woodii DSM 1030 (bacteria)
• Method: single particle reconstruction / cryo EM / Resolution: 3.78 Å
• Authors: Kumar A / Saura P / Poeverlein MC / Gamiz-Hernandez AP / Kaila VRI / Mueller V / Schuller JM

Funding support

6 items

Organization	Grant number	Country
German Research Foundation (DFG)	SCHU 3364/1-1
European Research Council (ERC)	715311 (VRIK)
European Research Council (ERC)	741791
Knut and Alice Wallenberg Foundation	VRIK
German Research Foundation (DFG)	SFB1078
Swedish Research Council	016-07213

• Citation: Journal: J Am Chem Soc / Year: 2023; Title: Molecular Basis of the Electron Bifurcation Mechanism in the [FeFe]-Hydrogenase Complex HydABC.; Authors: Alexander Katsyv / Anuj Kumar / Patricia Saura / Maximilian C Pöverlein / Sven A Freibert / Sven T Stripp / Surbhi Jain / Ana P Gamiz-Hernandez / Ville R I Kaila / Volker Müller / Jan M Schuller / ; Abstract: Electron bifurcation is a fundamental energy coupling mechanism widespread in microorganisms that thrive under anoxic conditions. These organisms employ hydrogen to reduce CO, but the molecular mechanisms have remained enigmatic. The key enzyme responsible for powering these thermodynamically challenging reactions is the electron-bifurcating [FeFe]-hydrogenase HydABC that reduces low-potential ferredoxins (Fd) by oxidizing hydrogen gas (H). By combining single-particle cryo-electron microscopy (cryoEM) under catalytic turnover conditions with site-directed mutagenesis experiments, functional studies, infrared spectroscopy, and molecular simulations, we show that HydABC from the acetogenic bacteria and employ a single flavin mononucleotide (FMN) cofactor to establish electron transfer pathways to the NAD(P) and Fd reduction sites by a mechanism that is fundamentally different from classical flavin-based electron bifurcation enzymes. By modulation of the NAD(P) binding affinity via reduction of a nearby iron-sulfur cluster, HydABC switches between the exergonic NAD(P) reduction and endergonic Fd reduction modes. Our combined findings suggest that the conformational dynamics establish a redox-driven kinetic gate that prevents the backflow of the electrons from the Fd reduction branch toward the FMN site, providing a basis for understanding general mechanistic principles of electron-bifurcating hydrogenases.

History

Deposition	Nov 2, 2021	-
Header (metadata) release	Feb 15, 2023	-
Map release	Feb 15, 2023	-
Update	Jul 17, 2024	-
Current status	Jul 17, 2024	Processing site: PDBe / Status: Released

Map

• File: Download / File: emd_13819.map.gz / Format: CCP4 / Size: 30.5 MB / Type: IMAGE STORED AS FLOATING POINT NUMBER (4 BYTES)
• Annotation: Single-Particle Cryo-EM Reconstructions of the Electron Bifurcating Hydrogenase HydABC symmetric(Processed on Cryosparc - non-sharpened map)
• Voxel size: X=Y=Z: 1.09 Å

Density

Contour Level	By AUTHOR: 0.0642
Minimum - Maximum	-0.11923191 - 0.86848813
Average (Standard dev.)	0.0023200526 (±0.020233475)

• Symmetry: Space group: 1

Details

EMDB XML:

Map geometry	Axis order X Y Z Origin 0 0 0 Dimensions 200 200 200 Spacing 200 200 200
Cell	A=B=C: 218.0 Å α=β=γ: 90.0 °

Supplemental data

Additional map: Single-Particle Cryo-EM Reconstructions of the Electron Bifurcating Hydrogenase...

• File: emd_13819_additional_1.map
• Annotation: Single-Particle Cryo-EM Reconstructions of the Electron Bifurcating Hydrogenase HydABC symmetric(Processed on Cryosparc sharpened map)

Sample components

Entire : Homodimer complex of HydABC trimer

• Entire: Name: Homodimer complex of HydABC trimer

Components

• Complex: Homodimer complex of HydABC trimer
  • Protein or peptide: Iron hydrogenase HydA1
  • Protein or peptide: Iron hydrogenase HydB
  • Protein or peptide: Iron hydrogenase HydC
• Ligand: IRON/SULFUR CLUSTER
• Ligand: FE2/S2 (INORGANIC) CLUSTER
• Ligand: FLAVIN MONONUCLEOTIDE
• Ligand: ZINC ION

Supramolecule #1: Homodimer complex of HydABC trimer

• Supramolecule: Name: Homodimer complex of HydABC trimer / type: complex / ID: 1 / Parent: 0 / Macromolecule list: #1-#3
• Source (natural): Organism: Acetobacterium woodii DSM 1030 (bacteria)
• Molecular weight: Theoretical: 350 kDa/nm

Macromolecule #1: Iron hydrogenase HydA1

• Macromolecule: Name: Iron hydrogenase HydA1 / type: protein_or_peptide / ID: 1 / Number of copies: 2 / Enantiomer: LEVO / EC number: ferredoxin hydrogenase
• Source (natural): Organism: Acetobacterium woodii DSM 1030 (bacteria)
• Molecular weight: Theoretical: 63.692887 KDa

Sequence

String:

MKEITFKING QEMIVPEGTT ILEAARMNNI DIPTLCYLKD INEIGACRMC LVEIAGARAL QAACVYPVAN GIEVLTNSPK VREARRVNL ELILSNHNRE CTTCIRSENC ELQTLATDLG VSDIPFEGEK SGKLIDDLST SVVRDESKCI LCKRCVSVCR D VQSVAVLG TVGRGFTSQV QPVFNKSLAD VGCINCGQCI INCPVGALKE KSDIQRVWDA IADPSKTVIV QTAPAVRAAL GE EFGYPMG TSVTGKMAAA LRRLGFDKVF DTDFGADVCI MEEGTELIGR VTNGGVLPMI TSCSPGWIKF IETYYPEAIP HLS SCKSPQ NITGALLKNH YAQTNNIDPK DMVVVSIMPC TAKKYEVQRE ELCTDGNADV DISITTRELA RMIKEARILF NKLP DEDFD DYYGESTGAA VIFGATGGVM EAAVRTVADV LNKKDIQEID YQIVRGVDGI KKASVEVTPD LTVNLVVAHG GANIR EVME QLKAGELADT HFIELMACPG GCVNGGGQPI VSAKDKMDID IRTERAKALY DEDANVLTYR KSHQNPSVIR LYEEYL EEP NSPKAHHILH TKYSAKPKLV

UniProtKB: Iron hydrogenase HydA1

Macromolecule #2: Iron hydrogenase HydB

• Macromolecule: Name: Iron hydrogenase HydB / type: protein_or_peptide / ID: 2 / Number of copies: 2 / Enantiomer: LEVO / EC number: ferredoxin hydrogenase
• Source (natural): Organism: Acetobacterium woodii DSM 1030 (bacteria) / Strain: ATCC 29683 / DSM 1030 / JCM 2381 / KCTC 1655 / WB1
• Molecular weight: Theoretical: 50.264406 KDa

Sequence

String:

NIDEYIGFDG YLALEKVLLT MSPVDVINEV KASGLRGRGG GGFPTGLKWQ FAHDAVSEDG IKYVACNADE GDPGAFMDRS VLEGDPHAV IEAMAIAGYA VGASKGYVYV RAEYPIAVNR LQIAIDQAKE YGILGENIFE TDFSFDLEIR LGAGAFVCGE E TALMNSIE GKRGEPRPRP PFPANKGLFG KPTVLNNVET YANIPKIILN GAEWFASVGT EKSKGTKVFA LGGKINNTGL LE IPMGTTL REIIYEIGGG IPNGKAFKAA QTGGPSGGCL PESLLDTEID YDNLIAAGSM MGSGGLIVMD EDNCMVDVAR FFL DFTQDE SCGKCPPCRI GTKRMLEILE RICDGKGVEG DIERLEELAV GIKSSALCGL GQTAPNPVLS TIRFFRDEYE AHIR DKKCP AGVCKHLLDF KINADTCKGC GICAKKCPAD AISGEKKKPY NIDTSKCIKC GACIEACPFG SISKA

UniProtKB: Iron hydrogenase HydB

Macromolecule #3: Iron hydrogenase HydC

• Macromolecule: Name: Iron hydrogenase HydC / type: protein_or_peptide / ID: 3 / Number of copies: 2 / Enantiomer: LEVO / EC number: ferredoxin hydrogenase
• Source (natural): Organism: Acetobacterium woodii DSM 1030 (bacteria)
• Molecular weight: Theoretical: 16.999689 KDa

Sequence

String:

MAELIPVENL DVVKAIVAEH REVPGCLMQI LQETQLKYGY LPLELQGTIA DELGIPLTEV YGVATFYSQF TLKPKGKYKI GICLGTACY VRGSQAIIDK VNSVLGTQVG DTTEDGKWSV DATRCVGACG LAPVMMINEE VFGRLTVDEI PGILEKY

Macromolecule #4: IRON/SULFUR CLUSTER

• Macromolecule: Name: IRON/SULFUR CLUSTER / type: ligand / ID: 4 / Number of copies: 14 / Formula: SF4
• Molecular weight: Theoretical: 351.64 Da

Chemical component information

ChemComp-FS1:
IRON/SULFUR CLUSTER

Macromolecule #5: FE2/S2 (INORGANIC) CLUSTER

• Macromolecule: Name: FE2/S2 (INORGANIC) CLUSTER / type: ligand / ID: 5 / Number of copies: 4 / Formula: FES
• Molecular weight: Theoretical: 175.82 Da

Chemical component information

ChemComp-FES:
FE2/S2 (INORGANIC) CLUSTER

Macromolecule #6: FLAVIN MONONUCLEOTIDE

• Macromolecule: Name: FLAVIN MONONUCLEOTIDE / type: ligand / ID: 6 / Number of copies: 2 / Formula: FMN
• Molecular weight: Theoretical: 456.344 Da

Chemical component information

ChemComp-FMN:
FLAVIN MONONUCLEOTIDE

Macromolecule #7: ZINC ION

• Macromolecule: Name: ZINC ION / type: ligand / ID: 7 / Number of copies: 2 / Formula: ZN
• Molecular weight: Theoretical: 65.409 Da

Experimental details

Structure determination

• Method: cryo EM
• Processing: single particle reconstruction
• Aggregation state: particle

Sample preparation

• Buffer: pH: 7.6
• Vitrification: Cryogen name: ETHANE-PROPANE

Electron microscopy

• Microscope: FEI TITAN KRIOS
• Image recording: Film or detector model: GATAN K3 (6k x 4k) / Average electron dose: 55.0 e/Ų
• Electron beam: Acceleration voltage: 300 kV / Electron source: FIELD EMISSION GUN
• Electron optics: Illumination mode: FLOOD BEAM / Imaging mode: BRIGHT FIELD / Nominal defocus max: 2.0 µm / Nominal defocus min: 0.8 µm
• Experimental equipment: Model: Titan Krios / Image courtesy: FEI Company

Image processing

• Startup model: Type of model: INSILICO MODEL
• Final reconstruction: Resolution.type: BY AUTHOR / Resolution: 3.78 Å / Resolution method: FSC 0.143 CUT-OFF / Number images used: 250709
• Initial angle assignment: Type: PROJECTION MATCHING
• Final angle assignment: Type: PROJECTION MATCHING