The Tn7-Based Genomic Integration Is Dependent on an attTn7 Box in the glms Gene and Is Site-Specific With Monocopy in Ralstonia solanacearum Species Complex

The Tn7-based genomic integration system enables direct insertion of foreign gene elements into the chromosome downstream of glms in many bacteria species. The glms gene is greatly conserved in Ralstonia solanacearum species complex (RSSC), while its downstream regions are mostly different in the RSSC. Here, we provided genetic evidence to validate that this Tn7 integration is dependent on a conserved 30-bp motif in the glms, called an attTn7 box, and artificial attTn7 boxes elsewhere are competent for the Tn7 integration, which is further confirmed to be simultaneous downstream of both original and artificial attTn7 boxes, using PCR. With the whole-genome resequencing on 500 Tn7-colonies, the Tn7 integration was confirmed to be site-specific at 25 bp downstream of glms with monocopy as a chromosome of the RSSC. Characteristic of a monocopy in a chromosome enables the Tn7-based complementation to fully restore phenotypes of mutants to those of parent strains that are advantageous rather than those based on plasmids with low-copy numbers. The Tn7-based genomic integration system provides a generally applicable and versatile genetic tool for studies of complementation, pathogenesis, overexpression, and in-vivo promoter activity assays with monocopy in the RSSC.

Automated summary

The Tn7-based genomic integration system allows direct insertion of foreign gene elements downstream of glms in many bacteria species. The conservation of a 30-bp motif in the glms gene, known as the attTn7 box, is crucial for this integration process. The integration is site-specific and fixed at a certain location downstream of glms, resulting in better phenotype restoration in mutants compared to plasmid-based complementation in monocopy chromosome of the RSSC.