Fungal elicitor-induced transcriptional changes of genes related to branched-chain amino acid metabolism in Streptomyces natalensis HW-2.

Abstract

Natamycin is a polyene macrolide antibiotic and widely used as a natural food preservative. Fungal elicitor had positive effects on the natamycin biosynthesis in Streptomyces natalensis HW-2. However, the global gene expression in response to fungal elicitor is not still reported. In the study, RNA-Seq was used to check the change of transcriptome by fungal elicitor in S. natalensis HW-2. The results showed that there were 1265 differential expression genes (DEGs) at 40h and 2196 DEGs at 80h. Most of the genes involved in natamycin biosynthesis were upregulated. KEGG pathway analysis showed that fungal elicitor had strong effects on the transcriptional levels of genes related to branch-chained amino acid (BCAA) metabolism. There were 23 upregulated or downregulated DEGs involved in BCAA biosynthesis and degradation at 40h and 80h. To confirm whether the improvement of BCAA biosynthesis could produce more natamycin, metabolic engineering was used to homologously overexpress the gene ilvH which encoded the regulatory subunit of acetolactate synthase (ALS) in S. natalensis. The results showed that overexpression of ilvH in S. natalensis HW-2 increased natamycin production to 1.25g/L in the flask, which was a 32% increase compared with that of the parent strain. Real-time quantitative PCR analysis showed that the transcriptional level of ilvH in mutant strain S. natalensis ZS101 was significantly increased. Acetyl-CoA content was also raised. The results suggested that the fungal elicitor enhanced natamycin biosynthesis by improving precursor supply via BCAA metabolism. This study will open a new avenue for enhancing natamycin production by metabolic engineering and adding fungal elicitor. KEY POINTS: • The fungal elicitor had strong effects on the transcriptional levels of genes related to branch-chained amino acid metabolism by RNA-Seq. • The homologous overexpression of gene ilvH increased natamycin production by 32% and acetyl-CoA content was raised in mutant strain S. natalensis ZS101.