Structure of theLysinibacillus sphaericusTpp49Aa1 pesticidal protein elucidated from natural crystals using MHz-SFX

Tpp49Aa1 fromLysinibacillus sphaericusis a Toxin_10 family protein that – in combination with Cry48Aa1, a 3-domain crystal protein - has potent mosquitocidal activity, specifically againstCulex quinquefasciatusmosquitoes. MHz serial femtosecond crystallography at a nano-focused X-ray free electron laser, allowed rapid and high-quality data collection to determine the Tpp49Aa1 structure at 1.62 Å resolution from native nanocrystals. This revealed the packing of Tpp49Aa1 within these nanocrystals, isolated from sporulated bacteria, as a homodimer with a large intermolecular interface, shedding light on natural crystallization. Complementary experiments conducted at varied pH also enabled investigations of the early structural events leading up to the dissolution of natural Tpp49Aa1 crystals. Using modelling, we propose a potential interaction between Tpp49Aa1 and Cry48Aa1 that may play a role in their codependency and broaden our understanding of this two-component system. We expand the known target range, demonstrating Tpp49Aa1/Cry48Aa1 susceptibility of larvae fromAnopheles stephensi, Aedes albopictusandCulex tarsalis– substantially increasing the potential use of this toxin pair in mosquito control. Further functional insights are gained usingCulexcell lines to characterise cellular models for future investigations into Cry48Aa1/Tpp49Aa1 mechanism of action and to demonstrate transient detrimental effects of individual toxin components.Significance StatementThe Tpp49Aa1/Cry48Aa1 protein pair kills mosquito larvae. Innovative use of nano-focused X-ray free electron laser to match the size of natural Tpp49Aa1 nanocrystals and the highest beam intensity available in any XFEL for high-throughput data collection, allowed structural resolution to 1.62 Å.Tpp proteins show a range of interactions with different partners to elicit toxicity. To gain insight into Tpp49Aa1, its interaction with Cry48Aa1 was modelled. We also establish cell-based assays of Tpp49Aa1/Cry48Aa1 activity.We expand the known target range to include three more mosquito species:Anopheles stephensi, Aedes albopictusandCulex tarsalis. This study will underpin future Tpp mode of action investigations and aid insecticide optimization against mosquito vectors of emerging diseases such as West Nile Virus and malaria.