Microbial cell factories (MCFs) have emerged as a sustainable tool for the production of value-added biochemicals. However, developing high-performance MCFs remains a major challenge to fulfill the burgeoning demands of global markets. This study aimed to establish the B. licheniformis cell factory for the cost-effective production of glutamate-derived chemicals by modular metabolic engineering. Initially, the glutamate decarboxylase from E. coli was introduced into B. licheniformis DW2 to construct the artificial γ-aminobutyric acid (GABA) pathway. By systematically optimizing the central metabolic pathway, boosting the L-Glu synthesis pathway and improving the cofactor NADPH supply, the strain G35/pHY-P