Objective: To explore high-yield secretory expression of recombinant mouse coagulation factor Ⅶ (rmF Ⅶ ) protein in Pichia pastoris (P. pastoris). Methods: The fragment of mF Ⅶ cDNA was amplified by PCR from a pcDNA3-mFⅦ plasmid. Then the cDNA fragment was subcloned into α-factor secretion signal open reading frame of pPIC9K secretory expression vector. The mutagenesis of mF Ⅶ was performed by Site-Direct Mutation and then verified by DNA sequencing. The yeast expression vector of rmF Ⅶ, named as pPIC9K-rmFⅦ, was linearized with Sac I and transferred into GS115 strains(his-Mut+)by electroporation. The recombinants were identified by direct PCR and selection on MM and MD plates. rmF Ⅶ was expressed in recombinant strains (his+Mut+) for 4 d. The expression level and activation of rmF Ⅶ in the BMMY medium were detected by SDS-PAGE and West blot respectively. Results:pPIC9K-rmFⅦ was constructed and transferred to GS115 strains successfully. 48-hour post induction by methanol rmFⅦ protein was secreted into the culture supatant. The molecular weight of the expressed products was shown to be about 46 kD by SDS-PAGE analysis. West blot showed that the expressed rmF Ⅶ exhibited specificity and antigenicity. Conclusion: Since mFⅦ is considered as a tumor-targeting molecule , this study may provide a basis for further anti-tumor strategy on rmFⅦ.