Laura García Mondéjar scite author profile

HAMP domains mediate signal transduction in over 7500 enzyme-coupled receptors represented in all kingdoms of life. The HAMP domain of the putative archaeal receptor Af1503 has a parallel, dimeric, four-helical coiled coil structure, but with unusual core packing, related to canonical packing by concerted axial rotation of the helices. This has led to the gearbox model for signal transduction, whereby the alternate packing modes correspond to signaling states. Here we present structures of a series of Af1503 HAMP variants. We show that substitution of a conserved small side chain within the domain core (A291) for larger residues induces a gradual transition in packing mode, involving both changes in helix rotation and bundle shape, which are most prominent at the C-terminal, output end of the domain. These are correlated with activity and ligand response in vitro and in vivo by incorporating Af1503 HAMP into mycobacterial adenylyl cyclase assay systems.

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HAMP Domain-mediated Signal Transduction Probed with a Mycobacterial Adenylyl Cyclase as a Reporter

Mondéjar

Lupas

Schultz

et al. 2012

Journal of Biological Chemistry

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Background: HAMP domains accept signals from membrane receptors and propagate them possibly via rotation. Results: Using targeted mutations based on bioinformatics, sequence comparisons, and structures, we characterize the role of particular amino acids in signaling. Conclusion: Results are compatible with a gearbox model of HAMP rotation. Significance: Various models of HAMP domain-mediated signaling are testable.

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Laura García Mondéjar

The Mechanisms of HAMP-Mediated Signaling in Transmembrane Receptors

HAMP Domain-mediated Signal Transduction Probed with a Mycobacterial Adenylyl Cyclase as a Reporter

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