The N-terminus of Paenibacillus larvae C3larvinA modulates catalytic efficiency

C3larvinA was recently described as a mono-ADP-ribosyltransferase (mART) toxin from the enterobacterial repetitive intergenic consensus (ERIC) III genotype of the agricultural pathogen, Paenibacillus larvae. It was shown to be the full-length, functional version of the previously described C3larvin(trunc) toxin, due to a 33-residue extension of the N-terminus of the protein. In the present study, a series of deletions and substitutions were made to the N-terminus of C3larvinA to assess the contribution of the alpha(1)-helix to toxin structure and function. Catalytic characterization of these variants identified Asp(23) and Ala(31) residues as supportive to enzymatic function. A third residue, Lys(36), was also found to contribute to the catalytic activity of the enzyme. Analysis of the C3larvinA homology model revealed that these three residues were participating in a series of interactions to properly orient both the Q-X-E and S-T-S motifs. Ala(31) and Lys(36) were found to associate with a structural network of residues previously identified in silica, whereas Asp(23) forms novel interactions not previously described. At last, the membrane translocation activity into host target cells of each variant was assessed, highlighting a possible relationship between protein dipole and target cell entry.

Automated summary

The study demonstrated the importance of the N-terminus of C3larvinA in its structure and function, with residues Asp(23), Ala(31), and Lys(36) playing critical roles in enzymatic activity. Analysis revealed these residues participated in a series of interactions, with Ala(31) and Lys(36) associating with a structural network of previously identified residues and Asp(23) forming novel interactions. Furthermore, the membrane translocation activity of each variant into host target cells was assessed, suggesting a potential relationship between protein dipole and target cell entry.