| TCID | Name | Domain | Kingdom/Phylum | Protein(s) |
|---|---|---|---|---|
|
1.C.95.1.1 | Pore-forming ESAT-6 (EsxA) (95 aas) (Nuñez-Garcia et al. 2018). Secreted from the bacterial cytoplasm via a ESX protein secretion system (Type VII; TC# 3.A.24.5.1). | Bacteria |
Actinomycetota | ESAT-6 of Mycobacterium tuberculosis (bovis) (P0A564). |
|
1.C.95.1.2 | ESAT-6-like protein, EsxA of 95 aas (Callahan et al. 2010). | Bacteria |
Actinomycetota | ESAT-6-like protein of Corynebacterium diphtheriae |
|
1.C.95.1.3 | ESAT-6-like protein. a WXG100 (YukE) family type VII secretion target. | Bacteria |
Actinomycetota | ESAT-6 protein of Gordonia rhizosphera |
|
1.C.95.1.4 | ESAT6-like protein of 95 aas. | Bacteria |
Actinomycetota | ESAT-6-like protein of Amycolatopsis nigrescens |
|
1.C.95.1.5 | ESAT-6-like protein of 96 aas. | Bacteria |
Actinomycetota | ESAT-6 of Intrasporangium chromatireducens |
|
1.C.95.1.6 | ESAT-6-like protein of 101 aas | Bacteria |
Actinomycetota | UP of Nesterenkonia sp. F |
|
1.C.95.1.7 | ESAT-6-like protein of 103 aas. | Bacteria |
Actinomycetota | ESAT-6-like protein of Williamsia marianensis |
|
1.C.95.1.8 | Uncharacterized protein of 96 aas | Bacteria |
Actinomycetota | UP of Paeniglutamicibacter antarcticus |
|
1.C.95.1.9 | Uncharacterized WXG100 family type VII secretion target of 102 aas. | Bacteria |
Bacillota | UP of Herbivorax saccincola |
|
1.C.95.1.10 | Uncharacterized protein of 134 aas. | Bacteria |
Pseudomonadota | UP of Paracoccus aminophilus |
|
1.C.95.1.11 | Uncharacterized protein of 211 aas. | Bacteria |
Actinomycetota | UP of Nakamurella lactea |
|
1.C.95.1.12 | Uncharacterized protein of 97 aas. | Bacteria |
Bacillota | UP of Holdemania filiformis |
|
1.C.95.1.13 | Uncharacterized WXG100 family type VII secretion targetof 100 aas. | Bacteria |
Actinomycetota | UP of Salinispora arenicola |
|
1.C.95.1.14 | EsxT/EsxY of 100 and 105 aas, respectively. Mycobacterium tuberculosis secretes proteins using five ESX systems with distinctive functions essential for its growth and virulence. Nair et al. 2025 showed that a non-canonical supercomplex of the EsxU-EsxT proteins, encoded in the esx-4 locus, with the orphan EsxE-EsxF proteins, encoded in the cpnT operon, is required for toxin secretion by M. tuberculosis . Surprisingly, the outer membrane localization of all Esx proteins and their secretion into the cytosol of infected macrophages also depend on the EsxEF-EsxUT supercomplex and ESX-4. These results not only demonstrate that the Esx proteins have dual functions as the long-sought outer membrane components of ESX systems and as secreted effector proteins, but also reveal a novel master control mechanism of protein secretion in M. tuberculosis . The mutual dependency of EsxEF and EsxUT on each other synchronizes ESX effector protein secretion, enabling M. tuberculosis to block phagosomal maturation and to permeabilize the phagosomal membrane only when it is capable of killing host cells by toxin secretion (Nair et al. 2025). | None |
Bacillati, Actinomycetota | EsxT/EsxU of Mycobacterium tuberculosis |
|
1.C.95.2.1 | EsxE/EsxF pair of proteins of 90 and 103 aas, respectively (Tak et al. 2021). Mycobacterium tuberculosis secretes the tuberculosis necrotizing toxin (TNT) to kill host cells. The WXG100 proteins EsxE and EsxF are essential for TNT secretion. EsxE and EsxF form a water-soluble heterodimer (EsxEF) that assembles into oligomers and long filaments, binds to membranes, and forms stable membrane-spanning channels. Electron microscopy of EsxEF reveals mainly pentameric structures with a central pore (Tak et al. 2021). Mutations of both WXG motifs and of a GXW motif do not affect dimerization, but abolish pore formation, membrane deformation and TNT secretion. The WXG/GXW mutants are locked in conformations with altered thermostability and solvent exposure, indicating that the WXG/GXW motifs are molecular switches controlling membrane interaction and pore formation. EsxF is accessible on the bacterial cell surface, suggesting that EsxEF form an outer membrane channel for toxin export. Thus, our study reveals a protein secretion mechanism in bacteria that relies on pore formation by small WXG proteins. | None |
Bacillati, Actinomycetota | EsxE/EsxF of Mycobacterium tuberculosis |