Endophytic Bacillus altitudinis WR10 alleviates Cu toxicity in wheat by augmenting reactive oxygen species scavenging and phenylpropanoid biosynthesis.

Soil copper (Cu) pollution severely stunts crops growth and limits sustainable agri-food production. Many microbes are widely used for remediation of polluted soil, including Cu pollution. In this study, the potential of an endophytic Bacillus altitudinis WR10 to protect wheat from Cu stress and the molecular mechanisms were investigated using hydroponic model. The Cu resistance assay showed B. altitudinis WR10 can resist up to 2 mM Cu and remove about 74% Cu in medium after 24 h of fermentation. Co-culture study demonstrated WR10 increased roots length and dry weight in wheat seedlings under 50 μM Cu. These results indicated that WR10 was a Cu-resistant strain and reduced Cu toxicity in wheat. Transcriptome data and biochemical tests of wheat roots indicated that WR10 alleviated Cu toxicity through enhancing peroxidases (PODs) gene expression and activity to remove excess hydrogen peroxide (H2O2) and down-regulating glutathione S-transferases (GSTs) to increase glutathione (GSH) level. Moreover, enrichment and pathway analysis indicated WR10 regulated the expression of genes involved in phenylpropanoid biosynthesis, which may improve phenolic acids accumulation for protecting plant cells from Cu toxicity. Overall, this study revealed that B. altitudinis WR10 alleviated Cu toxicity in wheat via augmenting reactive oxygen species scavenging and phenylpropanoid biosynthesis.