UCLA

Type VII secretion systems (ESX) are responsible for transport of multiple proteins in mycobacteria. How different ESX systems achieve specific secretion of cognate substrates remains elusive. In the ESX systems, the cytoplasmic chaperone EspG forms complexes with heterodimeric PE-PPE substrates that are secreted from the cells or remain associated with the cell surface. Here we report the crystal structure of the EspG₁ chaperone from the ESX-1 system determined using a fusion strategy with T4 lysozyme. EspG₁ adopts a quasi 2-fold symmetric structure that consists of a central β-sheet and two α-helical bundles. In addition, we describe the structures of EspG₃ chaperones from four different crystal forms. Alternate conformations of the putative PE-PPE binding site are revealed by comparison of the available EspG₃ structures. Analysis of EspG₁, EspG₃, and EspG₅ chaperones using small-angle X-ray scattering reveals that EspG₁ and EspG₃ chaperones form dimers in solution, which we observed in several of our crystal forms. Finally, we propose a model of the ESX-3 specific EspG₃-PE5-PPE4 complex based on the small-angle X-ray scattering analysis.