Molecular mechanism of Tsukamurella tyrosinosolvens strain P9 in response to root exudates of peanut.

Tsukamurella tyrosinosolvens strain P9 is a rare actinomycete with plant growth-promoting properties and can improve the growth of peanut. We analyzed the differentially expressed genes (DEGs) of P9 under the influence of peanut root exudates from RNA-sequencing data and analyzed the effects of root exudates and their organic acid and amino acid components on the growth and growth-promoting effects of this strain to explore the molecular mechanism of the P9 response. The results showed that peanut root exudates promoted the growth and growth-promoting activity of P9. Transcriptome analysis revealed 126 DEGs in P9, comprising 81 up-regulated and 45 down-regulated genes. The DEGs were significantly enriched in 17 KEGG metabolic pathways, including arginine biosynthesis, butyric acid metabolism, fatty acid degradation, and tryptophan metabolism. Peanut root exudates induced up-regulation of nutrient transport, carbohydrate metabolism and energy production, siderophore and IAA biosynthesis, adhesion, and biofilm formation, and down-regulation of arginine biosynthesis and the urea cycle in P9. Organic acids and amino acids are the major components of peanut root exudates. Glycine, proline, and alanine promoted the growth and IAA secretion of P9. Proline, alanine (40 mM), and oxalic acid significantly enhanced siderophore biosynthesis, whereas citric acid, oxalic acid, and malic acid significantly promoted biofilm formation of P9. This study clarifies the response of T. tyrosinosolvens P9 to peanut root exudates at the molecular level, examining the molecular basis of the relationship between P9 and peanut, and provides a theoretical foundation for improved exertion of the growth-promoting properties of P9.