Multi-omics analysis unravels positive effect of rotenone on the cordycepin biosynthesis in submerged fermentation of Cordyceps militaris

“…The addition of 5 mg/L rotenone significantly increased cordycepin production by 316.09%, along with mycelial growth inhibition and cell wall destruction. The integrated analysis of the two omics confirmed that rotenone altered the nucleosides metabolism pathway toward adenosine and activated the genes responsible for producing cordycepin ( cns1-3 ) from adenosine ( Ma et al, 2023 ). The L-alanine addition to C. militaris fermentation increased cordycepin yield by up-regulating the transcriptome level of genes involved in the bio-pathways of energy generation and amino acid conversion.…”

“…Metabolomics studies showed that many metabolic pathways have been changed in the high-yielding cordycepin strains, e.g., citric acid cycle, purine metabolism, and pyrimidine metabolism ( Ma et al, 2023 ). Changes in polysaccharide and protein synthesis metabolic poly-pathways, such as galactose metabolism and amino acid metabolism, would boost cordycepin′s production ( Yu et al, 2023 ).…”

Advances in biosynthesis and metabolic engineering strategies of cordycepin

“…The addition of 5 mg/L rotenone significantly increased cordycepin production by 316.09%, along with mycelial growth inhibition and cell wall destruction. The integrated analysis of the two omics confirmed that rotenone altered the nucleosides metabolism pathway toward adenosine and activated the genes responsible for producing cordycepin ( cns1-3 ) from adenosine ( Ma et al, 2023 ). The L-alanine addition to C. militaris fermentation increased cordycepin yield by up-regulating the transcriptome level of genes involved in the bio-pathways of energy generation and amino acid conversion.…”

“…Metabolomics studies showed that many metabolic pathways have been changed in the high-yielding cordycepin strains, e.g., citric acid cycle, purine metabolism, and pyrimidine metabolism ( Ma et al, 2023 ). Changes in polysaccharide and protein synthesis metabolic poly-pathways, such as galactose metabolism and amino acid metabolism, would boost cordycepin′s production ( Yu et al, 2023 ).…”

Advances in biosynthesis and metabolic engineering strategies of cordycepin

Multifactorial interaction of selenium, iron, xylose, and glycine on cordycepin metabolism in Cordyceps militaris

High-level production of cordycepin by the xylose-utilising Cordyceps militaris strain 147 in an optimised medium