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The ESAT6-like secretion system (ESS) ofStaphylococcus aureus promotes effector protein transport across the bacterial envelope. Genes in the ESS cluster are required forS. aureus establishment of persistent abscess lesions and the modulation of immune responses during bloodstream infections. However, the biochemical functions of most of the ESS gene products, specifically the identity of secretion machine components, are unknown. Earlier work demonstrated that deletion ofessB , which encodes a membrane protein, abolishesS. aureus ESS secretion. Loss-of-function mutations truncating theessB gene product cause dominant-negative phenotypes on ESS secretion, suggesting that EssB is a central component of the secretion machinery. To test this prediction, we purified native and affinity-tagged EssB from staphylococcal membranes via dodecyl-maltoside extraction, identifying a complex assembled from five proteins, EsaA, EssA, EssB, EssD, and EsxA. All five proteins are essential for secretion, as knockout mutations in the corresponding genes abolish ESS transport. Biochemical and bacterial two-hybrid analyses revealed a direct interaction between EssB and EsaA that, by engaging a mobile machine component, EsxA, may also recruit EssA and EssD.IMPORTANCE Type VII secretion systems support the lifestyle of Gram-positive bacteria, including important human pathogens such asBacillus anthracis ,Mycobacterium tuberculosis , andStaphylococcus aureus . Genes encoding SpoIIIE-FtsK-like ATPases and WXG100-secreted products are conserved features of type VII secretion pathways; however, most of the genes in T7SS clusters are not conserved between different bacterial species. Here, we isolate a complex of proteins from the membranes ofS. aureus that appears to represent the core secretion machinery, designated ESS. These results suggest that three membrane proteins, EsaA, EssB, and EssA, form a secretion complex that associates with EssC, the SpoIIIE-FtsK-like ATPase, and with EsxA, a mobile machine component and member of the WXG100 protein family.

Isolation of a Membrane Protein Complex for Type VII Secretion in Staphylococcus aureus