The Type IV Secretion System (T4SS) Mediates Symbiosis between Bradyrhizobium sp. SUTN9-2 and Legumes.
Praneet WangthaisongPongdet PiromyouPongpan SongwattanaJenjira WongdeeKamonluck TeamtaisongPanlada TittabutrNantakorn BoonkerdNeung TeaumroongPublished in: Applied and environmental microbiology (2023)
There has been little study of the type IV secretion system (T4SS) of bradyrhizobia and its role in legume symbiosis. Therefore, broad host range Bradyrhizobium sp. SUTN9-2 was selected for study. The chromosome of Bradyrhizobium sp. SUTN9-2 contains two copies of the T4SS gene, homologous with the tra/trb operons. A phylogenetic tree of the T4SS gene traG was constructed, which exemplified its horizontal transfer among Bradyrhizobium and Mesorhizobium genera. They also showed similar gene arrangements for the tra/trb operons. However, the virD2 gene was not observed in Mesorhizobium , except M. oppotunistum WSM2075. Interestingly, the orientation of copG , traG, and virD2 cluster was unique to the Bradyrhizobium genus. The phylogenetic tree of copG , traG, and virD2 demonstrated that copies 1 and 2 of these genes were grouped in different clades. In addition, the derived mutant and complementation strains of T4SS were investigated in representative legumes Genistoids, Dalbergioids, and Millettiods. When T4SS copy 1 (T4SS 1 ) was deleted, the nodule number and nitrogenase activity decreased. This supports a positive effect of T4SS 1 on symbiosis. In addition, delayed nodulation was observed 7 dpi, which was restored by the complementation of T4SS 1 . Therefore, T4SS plays an important role in the symbiotic interaction between Bradyrhizobium sp. SUTN9-2 and its leguminous hosts. IMPORTANCE SUTN9-2 is a broad host range strain capable of symbiosis with several legumes. Two copies of T4SS clusters belonging to the tra/trb operon are observed on chromosomes with different gene arrangements. We use phylogenetic tree and gene annotation analysis to predict the evolution of the tra/trb operon of rhizobia. Our finding suggests that the gene encoding the T4SS gene among Bradyrhizobium and Mesorhizobium may have coevolution. In addition, Bradyrhizobium has a uniquely arranged copG , traG, and virD2 gene cluster. The results of T4SS 1 gene deletion and complementation revealed its positive effect on nodulation. Therefore, T4SS seems to be another determinant for symbiosis. This is the first report on the role of T4SS in Bradyrhizobium symbiosis.