Participation of type VI secretion system in plant colonization of phosphate solubilizing bacteria

LUDUEÑA, LILIANA MERCEDES; ANGELINI, JORGE; LORDA, GRACIELA SUSANA; BOGINO, PABLO CESAR; TAURIAN, TANIA; LUCERO, CINTHIA TAMARA; NIEVAS, FIORELA; AMBROSINO, MARIELA LIS

Rhizosphere

Elsevier

Lugar: Ámsterdam; Año: 2022 vol. 24

2452-2198

AbstractIn mutualistic endophytic bacteria, the type VI secretion system (T6SS) is related to important functions, such as interbacterial competition, stress response, quorum sensing, biofilm formation, and symbiosis. The presence of T6SS in beneficial endophytic bacterial population associated with different plants suggests that it plays an important role in its interaction with the eucaryotic partner. Within plant promoting bacteria, those with phosphate solubilizing activity constitute a group of great relevance to the rhizosphere as they provide phosphorus to plants. Among them, those with endophytic colonization capacity have survival advantages. The aim of this study was to determine whether the T6SS of a native peanut phosphate solubilizing bacterium is involved in its colonization in this legume. Initially, an in silico analysis looking for genes related to T6SS in the genome of the Enterobacter sp. J49 strain enabled us to identify almost all the tss genes, except for the tssE gene. A T6SS mutant of the Enterobacter sp. J49 strain was obtained by interrupting one of the essential tss genes. Then, the Enterobacter sp. J49-hcp strain was inoculated on peanut plants to analyze its colonization capacity. In addition, properties associated with endophytic colonization were analyzed, such as the formation of biofilms and the production of pectinase and cellulase enzymes. The results obtained indicated a significant decrease in the epiphytic and endophytic colonization of the mutant with respect to the wild strain. It is possible to conclude that T6SS, although not essential, may participate in bacterial colonization, either by accelerating the infection or by promoting other mechanisms involved in it.