Production of recombinant proteins in eukaryotic system has been widely applied in pharmaceutical, food and chemical industries. Pichia pastoris is one of the mostly used eukaryotic systems to overexpress the recombinant protein. However, not all foreign genes can highly express in P. pastoris system. Many reports tried to establish a reliable high-level expresssion system of P. pastoris. In this study, we used global transcription machinery engineering (gTME) approach to improve the expression level of the Candida rugosa lipase (CRL) in P. pastoris. Random mutagenesis of the transcription factor SPT15 (the P. pastoris TATA-binding protein) was performed to reprogram the transcriptome and to affect the CRL production in P. pastoris. By high-throughput lipase activity assay, 464 mutants were screened to obtain 16 mutants whose lipase productions were improved at least 1.5-fold than the wild type. The highest one displayed 2.3-fold activity than the wild type. It suggests that the expression level of foreign genes could be improved in P. pastoris system through gTME approach.