Structure of the flavocytochrome C sulfide dehydrogenase associated with the copper-binding protein CopC from the haloalkaliphilic sulfuroxidizing bacterium thioalkalivibrio paradoxus ArH 1

Journal Article (2018)
Author(s)

Eugeny M. Osipov (Russian Academy of Sciences)

Anastasia V. Lilina (Russian Academy of Sciences)

Stanislav I. Tsallagov (Russian Academy of Sciences)

Tatyana N. Safonova (Russian Academy of Sciences)

Dimitry Y. Sorokin (TU Delft - Applied Sciences, Russian Academy of Sciences)

Tamara V. Tikhonova (Russian Academy of Sciences)

Vladimir O. Popova (Russian Academy of Sciences, NRC “Kurchatov Institute”)

Research Group
BT/Environmental Biotechnology
DOI related publication
https://doi.org/10.1107/S2059798318005648 Final published version
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Publication Year
2018
Language
English
Research Group
BT/Environmental Biotechnology
Issue number
7
Volume number
74
Pages (from-to)
632-642
Downloads counter
294
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Abstract

Flavocytochrome c sulfide dehydrogenase from Thioalkalivibrio paradoxus (TpFCC) is a heterodimeric protein consisting of flavin- and monohaem c-binding subunits. TpFCC was co-purified and co-crystallized with the dimeric copper-binding protein TpCopC. The structure of the TpFCC-(TpCopC)2 complex was determined by X-ray diffraction at 2.6 Å resolution. The flavin-binding subunit of TpFCC is structurally similar to those determined previously, and the structure of the haem-binding subunit is similar to that of the N-terminal domain of dihaem FCCs. According to classification based on amino-acid sequence, TpCopC belongs to a high-affinity CopC subfamily characterized by the presence of a conserved His1-Xxx-His3 motif at the N-terminus. Apparently, a unique α-helix which is present in each monomer of TpCopC at the interface withTpFCC plays a key role in complex formation. The structure of the copper-binding site in TpCopC is similar to those in other known CopC structures. His3 is not involved in binding to the copper ion and is 6-7 Å away from this ion. Therefore, the His1-Xxx-His3 motif cannot be considered to be a key factor in the high affinity of CopC for copper(II) ions. It is suggested that the TpFCC-(TpCopC)2 heterotetramer may be a component of a large periplasmic complex that is responsible for thiocyanate metabolism.

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