Abstract
Legionella pneumophila infects eukaryotic cells by forming a replicative organelle – the Legionella containing vacuole. During this process, the bacterial protein DrrA/SidM is secreted and manipulates the activity and post-translational modification (PTM) states of the vesicular trafficking regulator Rab1. As a result, Rab1 is modified with an adenosine monophosphate (AMP), and this process is referred to as AMPylation. Here, we use a chemical approach to stabilise low-affinity Rab:DrrA complexes in a site-specific manner to gain insight into the molecular basis of the interaction between the Rab protein and the AMPylation domain of DrrA. The crystal structure of the Rab:DrrA complex reveals a previously unknown non-conventional Rab-binding site (NC-RBS). Biochemical characterisation demonstrates allosteric stimulation of the AMPylation activity of DrrA via Rab binding to the NC-RBS. We speculate that allosteric control of DrrA could in principle prevent random and potentially cytotoxic AMPylation in the host, thereby perhaps ensuring efficient infection by Legionella. Show more
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https://doi.org/10.3929/ethz-b-000529513Publication status
publishedExternal links
Journal / series
Nature CommunicationsVolume
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NatureOrganisational unit
09740 - Lang, Kathrin / Lang, Kathrin
09740 - Lang, Kathrin / Lang, Kathrin
09740 - Lang, Kathrin / Lang, Kathrin
09740 - Lang, Kathrin / Lang, Kathrin
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