Natural products are critical for drug discovery and development; however their discovery is challenged by the wide inactivation or silence of microbial biosynthetic pathways. Currently strategies targeting this problem are mainly concentrated on chromosome dissembling, transcription, and translation-stage regulations as well as chemical stimulation. In this study, we developed a novel approach to awake cryptic/silenced microbial biosynthetic pathways through augmentation of the conserved protein modification step-phosphopantetheinylation of carrier proteins. Overexpression of phosphopantetheinyl transferase (Pptase) genes into 33 Actinomycetes achieved a significantly high activation ratio at which 23 (70%) strains produced new metabolites. Genetic and biochemical studies on the mode-of-action revealed that exogenous PPtases triggered the activation of carrier proteins and subsequent production of metabolites. With this approach we successfully identified five oviedomycin and halichomycin-like compounds from two strains. This study provides a novel approach to efficiently activate cryptic/silenced biosynthetic pathways which will be useful for natural products discovery.