Biological Traits of Vertically Seed-Transmitted Bacillus mojavensis in Triticum aestivum L

Seed-borne endophytic bacteria can influence host responses to biotic and abiotic stress conditions. Their presence in seeds is related to their ability to colonize plant tissues and to pass from parent plants to offspring. In this study, we investigated the ability of Bacillus mojavensis PS17 to pass into the next generation of spring wheat plants via seeds and the effect of the transmission mode on the functional traits of seed-transmitted colonies of PS17. The rifampicin-resistant PS17 strain at 100 µg/mL was used to track PS17 effectively throughout the wheat growth cycle. The results demonstrated the successful colonization of B. mojavensis PS17 and its ability to pass into the next plant generation through seeds. During plant development, the PS17 cell population was almost higher in the rhizosphere than in the aboveground parts of plants, including seeds at the grain-filling stage. The seed-transmitted B. mojavensis PS17 colonies exhibited identical biological traits to those of the parental PS17 strain. Bacillus mojavensis PS17 retained its ability to suppress the growth of pathogens, such as Fusarium oxysporum and Alternaria alternata, and produce hydrolases, including protease, lipase, amylase, and cellulase. These results highlight the potential of vertical transmission through seeds as a mode of spreading bacterial biocontrol agents in future plants.