The methylotrophic yeast Pichia pastrois has been extensively applied in production of recombinant proteins because it combines the advantages of single cell in microbial and post-translational modification in eukaryotic systems. The AOX1 promoter (PAOX1) is the most common promoter used for heterologous protein expression in P. pastoris. A glycerol-methanol-shift induction strategy is applied to achieve high productivity. However, the tightly regulated PAOX1 also led P. pastoris expression to restrictive conditions. To improve the efficiency of protein production, we tried to reprogram the transcriptional regulation of PAOX1 in P. pastoris. The ectopic Mxr1 expressed by the mild AOX2 promoter (PAOX2) did not cause growth defect. The transcriptional efficiency of PAOX1 was enhanced since the limitation of Mxr1 titration effect was broken by extra Mxr1. PAOX1 became more flexible due to the positive feedback of Mxr1 and was regulated by glycerol. With the extra Mxr1 driven by PAOX2, PAOX1 showed better activity without than that with medium replacement. Moreover, glycerol starvation induced GFP production with reprogramming Mxr1 in P. pastoris. Increasing copy number of ectopic Mxr1 did not enhanced the efficeince of PAOX1. These results showed overexpression of Mxr1 by one copy of PAOX2 might be enough to achieve the maximum activity of PAOX1. Although the improvement of transcriptional efficiency might be limited by secretory ability, these problems could be sloved by combination with other strategies. In conclusion, transcriptional reprogramming of Mxr1 improved the efficiency of P. pastrois under methanol induction and potentially made P. pastrois become methanol-free induction system to eliminate the problems of methanol.