ISDA

Entry Detail

PDB ID:

1KQF

Keywords:

OXIDOREDUCTASE

Title:

FORMATE DEHYDROGENASE N FROM E. COLI

Biological Source:

Source Organism:

Escherichia coli

PDB Version:

Deposition Date:

2002-01-05

Release Date:

2002-03-15

Method Details:

Experimental Method:

X-RAY DIFFRACTION

Resolution:

1.60 Å

R-Value Free:

0.19

R-Value Work:

0.17

R-Value Observed:

0.17

Space Group:

P 21 3

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Macromolecular Entities

Protein Blast

Polymer Type:polypeptide(L)
Description:FORMATE DEHYDROGENASE, NITRATE-INDUCIBLE, MAJOR SUBUNIT
Chain IDs:A
Chain Length:1015
Number of Molecules:1
Biological Source:Escherichia coli

UniProt ID:P24183 Pfam ID:PF04879, PF00384, PF01568 EC:1.17.5.3

Protein Blast

Polymer Type:polypeptide(L)
Description:FORMATE DEHYDROGENASE, NITRATE-INDUCIBLE, IRON-SULFUR SUBUNIT
Chain IDs:B
Chain Length:294
Number of Molecules:1
Biological Source:Escherichia coli

UniProt ID:P0AAJ3 Pfam ID:PF12838, PF00037, PF09163 EC:1.17.5.3

Protein Blast

Polymer Type:polypeptide(L)
Description:FORMATE DEHYDROGENASE, NITRATE-INDUCIBLE, CYTOCHROME B556(FDN) SUBUNIT
Chain IDs:C
Chain Length:217
Number of Molecules:1
Biological Source:Escherichia coli

UniProt ID:P0AEK7 Pfam ID:PF01292 EC:1.17.5.3

Ligand Molecules

6MO

CDL

HEM

MGD

SF4

Primary Citation

Molecular basis of proton motive force generation: structure of formate dehydrogenase-N.

Jormakka, M, Tornroth, S, Byrne, B, Iwata, S.Show

Science 295 1863 1868 (2002)

PMID: 11884747 DOI: 10.1126/science.1068186

Abstact

The structure of the membrane protein formate dehydrogenase-N (Fdn-N), a major component of Escherichia coli nitrate respiration, has been determined at 1.6 angstroms. The structure demonstrates 11 redox centers, including molybdopterin-guanine dinucleotides, five [4Fe-4S] clusters, two heme b groups, and a menaquinone analog. These redox centers are aligned in a single chain, which extends almost 90 angstroms through the enzyme. The menaquinone reduction site associated with a possible proton pathway was also characterized. This structure provides critical insights into the proton motive force generation by redox loop, a common mechanism among a wide range of respiratory enzymes.

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