An allosteric network governs Tom70 conformational dynamics to coordinate mitochondrial protein import

Tom70 mediates mitochondrial protein import by coordinating the transfer of cytosolic preproteins from Hsp70/Hsp90 to the translocase of the outer membrane (TOM) complex. In humans, the cytosolic domain of Tom70 ( Hs Tom70c) is entirely α -helical and comprises modular TPR motifs divided into an N-terminal chaperone-binding domain (NTD) and a C-terminal preprotein-binding domain (CTD). However, the mechanisms linking these functional regions remain poorly understood. Here, we present the 2.04 Å crystal structure of unliganded Hs Tom70c, revealing two distinct conformations – open and closed – within the asymmetric unit. These states are stabilized in part by interdomain crystal contacts and are supported in solution by hydrogen–deuterium exchange mass spectrometry (HDX-MS) and molecular dynamics (MD) simulations. Principal component and dynamical network analyses reveal a continuum of motion linking the NTD and CTD via key structural elements, notably residues in helices α 7, α 8, and α 25. Engagement of the CTD by the viral protein Orf9b interrupts this network, stabilizing a partially-closed intermediate conformation and dampening dynamics at distal NTD sites. Collectively, our findings lay the groundwork for understanding Tom70 allostery and provide a framework for dissecting its mechanistic roles in chaperone engagement, mitochondrial import, and viral subversion.