5I4R
Contact-dependent inhibition system from Escherichia coli NC101 - ternary CdiA/CdiI/EF-Tu complex (trypsin-modified)
Summary for 5I4R
| Entry DOI | 10.2210/pdb5i4r/pdb |
| Descriptor | Contact-dependent inhibitor A, Elongation factor Tu, Contact-dependent inhibitor I, ... (5 entities in total) |
| Functional Keywords | toxin, antitoxin, elongation factor, structural genomics, psi-biology, midwest center for structural genomics, mcsg, structure-function analysis of polymorphic cdi toxin-immunity protein complexes, uc4cdi, toxin-antitoxin complex, toxin/antitoxin |
| Biological source | Escherichia coli NC101 More |
| Total number of polymer chains | 8 |
| Total formula weight | 133836.14 |
| Authors | Michalska, K.,Stols, L.,Eschenfeldt, W.,Hayes, C.S.,Goulding, C.W.,Joachimiak, A.,Midwest Center for Structural Genomics (MCSG),Structure-Function Analysis of Polymorphic CDI Toxin-Immunity Protein Complexes (UC4CDI) (deposition date: 2016-02-12, release date: 2017-06-28, Last modification date: 2024-10-30) |
| Primary citation | Michalska, K.,Gucinski, G.C.,Garza-Sanchez, F.,Johnson, P.M.,Stols, L.M.,Eschenfeldt, W.H.,Babnigg, G.,Low, D.A.,Goulding, C.W.,Joachimiak, A.,Hayes, C.S. Structure of a novel antibacterial toxin that exploits elongation factor Tu to cleave specific transfer RNAs. Nucleic Acids Res., 45:10306-10320, 2017 Cited by PubMed Abstract: Contact-dependent growth inhibition (CDI) is a mechanism of inter-cellular competition in which Gram-negative bacteria exchange polymorphic toxins using type V secretion systems. Here, we present structures of the CDI toxin from Escherichia coli NC101 in ternary complex with its cognate immunity protein and elongation factor Tu (EF-Tu). The toxin binds exclusively to domain 2 of EF-Tu, partially overlapping the site that interacts with the 3'-end of aminoacyl-tRNA (aa-tRNA). The toxin exerts a unique ribonuclease activity that cleaves the single-stranded 3'-end from tRNAs that contain guanine discriminator nucleotides. EF-Tu is required to support this tRNase activity in vitro, suggesting the toxin specifically cleaves substrate in the context of GTP·EF-Tu·aa-tRNA complexes. However, superimposition of the toxin domain onto previously solved GTP·EF-Tu·aa-tRNA structures reveals potential steric clashes with both aa-tRNA and the switch I region of EF-Tu. Further, the toxin induces conformational changes in EF-Tu, displacing a β-hairpin loop that forms a critical salt-bridge contact with the 3'-terminal adenylate of aa-tRNA. Together, these observations suggest that the toxin remodels GTP·EF-Tu·aa-tRNA complexes to free the 3'-end of aa-tRNA for entry into the nuclease active site. PubMed: 28973472DOI: 10.1093/nar/gkx700 PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (3.3 Å) |
Structure validation
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