Abstract
The growth-specialized metabolism trade-off limits fungal natural product production. Here, we investigated cordycepin overproduction in Cordyceps militaris high-yield GYS60 and low-yield GYS80 via comparative proteomics, Post-Translational Modification (PTM) mapping, and metabolomics. We identified an acetyl-CoA-gated checkpoint centered on O-methyltransferase CCM_06472, whose activity is modulated by Lys123 acetylation and Ser34 phosphorylation in a manner consistent with activation and inhibition. GYS60 hyperactivates the tricarboxylic acid (TCA) cycle and β-oxidation to generate a 4.1-fold acetyl-CoA surplus, 62% of which is channeled into cordycepin synthesis. A single K123Q acetylation-mimetic mutation boosted cordycepin titers by >4-fold in wild-type strains. This acetyl-CoA checkpoint reveals PTM-gated flux allocation as a key regulatory mechanism, providing a minimal-intervention strategy for engineering fungal cell factories.