The increased transcription of luxS and ycmA indicated that biofilm formation of FZB42 could be enhanced by some compounds present in root exudates. iii) The third functional group with the highest number of genes induced by root exudates was associated with the non-ribosomal synthesis of secondary selleck inhibitor metabolites with antimicrobial action (Table 3). Producing secondary metabolites suppressing deleterious microbes in the rhizosphere is an established mechanism of biocontrol adopted by B. amyloliquefaciens FZB42 on plants [19, 48, 49]. The majority Lazertinib cost of the induced genes are devoted to the synthesis of two polyketide antibiotics, bacillaene and difficidin.
Some components in the exudates could stimulate the production of these two antibiotics, which have Selleckchem Rigosertib been demonstrated to be able to protect orchard trees from fire blight disease caused by Erwinia amylovora [49]. Table 3 FZB42 genes which were significantly induced by maize root exudates and involved in antibiotic production (Refer to experiment “Response to RE”: E-MEXP-3421) Gene Product Fold change baeE malonyl-CoA-[acyl-carrier protein] transacylase BaeE 1.6 baeI enoyl-CoA-hydratase BaeI 2.2 baeL polyketide synthase BaeL 1.9 baeN hybrid NRPS/PKS BaeN 1.5 baeR polyketide synthase BaeR 2.3 dfnJ modular polyketide synthase of type I DfnJ
2 dfnI modular polyketide synthase of type I DfnI 1.7 dfnG modular polyketide synthase of type I DfnG 2 dfnF modular polyketide synthase of type I DfnF 2.4 mlnH polyketide synthase of type I MlnH 1.5 fenE fengycin synthetase FenE 1.5 srfAD surfactin synthetase D SrfAD 1.9 srfAC surfactin synthetase C SrfAC 1.7 Another two genes, mlnH and fenE, were also induced, which
are known to participate in non-ribosmal biosynthesis of macrolactin and fengycin, respectively. Macrolactin, a polyketide product found in FZB42, has activity against some Gram-positive bacteria [50], while fengycin can act against phytopathogenic fungi in a synergistic manner with bacillomycin D [19, 51]. In addition, two genes encoding surfactin synthetase however were also activated by root exudates (Table 3). Surfactin is one of Bacillus cyclic lipopeptides, displaying antiviral and antibacterial activities. In Arabidopsis it has been shown that the ability of Bacillus to synthesize surfactin can reduce the invasion of Pseudomonas syringae[30]. although it is not yet clear whether the protective effect resulted directly from the antibacterial activity of surfactin or from its biofilm-related properties. Surfactin is crucially involved in the motility of Bacillus by reducing surface tensions [36, 37, 52] and contributing to biofilm formation on Arabidopsis roots [30]. It has also been demonstrated that surfactin production of FZB42 was enhanced when colonizing the duckweed plant Lemna minor [21].