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  • Structural modeling of a novel membrane-bound globin-coupled sensor in Geobacter sulfurreducens.

Structural modeling of a novel membrane-bound globin-coupled sensor in Geobacter sulfurreducens.

Computational and structural biotechnology journal (2021-05-18)
Dietmar Hammerschmid, Francesca Germani, Salvador I Drusin, Charline Fagnen, Claudio D Schuster, David Hoogewijs, Marcelo A Marti, Catherine Venien-Bryan, Luc Moens, Sabine Van Doorslaer, Frank Sobott, Sylvia Dewilde
초록

Globin-coupled sensors (GCS) usually consist of three domains: a sensor/globin, a linker, and a transmitter domain. The globin domain (GD), activated by ligand binding and/or redox change, induces an intramolecular signal transduction resulting in a response of the transmitter domain. Depending on the nature of the transmitter domain, GCSs can have different activities and functions, including adenylate and di-guanylate cyclase, histidine kinase activity, aerotaxis and/or oxygen sensing function. The gram-negative delta-proteobacterium Geobacter sulfurreducens expresses a protein with a GD covalently linked to a four transmembrane domain, classified, by sequence similarity, as GCS (GsGCS). While its GD is fully characterized, not so its transmembrane domain, which is rarely found in the globin superfamily. In the present work, GsGCS was characterized spectroscopically and by native ion mobility-mass spectrometry in combination with cryo-electron microscopy. Although lacking high resolution, the oligomeric state and the electron density map were valuable for further rational modeling of the full-length GsGCS structure. This model demonstrates that GsGCS forms a transmembrane domain-driven tetramer with minimal contact between the GDs and with the heme groups oriented outward. This organization makes an intramolecular signal transduction less likely. Our results, including the auto-oxidation rate and redox potential, suggest a potential role for GsGCS as redox sensor or in a membrane-bound e-/H+ transfer. As such, GsGCS might act as a player in connecting energy production to the oxidation of organic compounds and metal reduction. Database searches indicate that GDs linked to a four or seven helices transmembrane domain occur more frequently than expected.

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Sigma-Aldrich
Heme Assay Kit, sufficient for 250 colorimetric tests