Abstract:To improve the utilization ratio of Proteus mirabilis lipase in food，medicine，and other industrial fields，this research used the cellulose-binding domain as the anchoring basis for whole-cell immobilization of the food-safe strain Staphylococcus carnosus and its surface displayed lipase.The specificity of the cellulosebinding domain and the cellulose matrix combination was utilized to obtain whole-cell immobilized lipase.The optimal conditions for immobilization and its enzymatic properties after immobilization were also explored.The results showed that the immobilization ratio of whole-cell lipase reached 76%under the optimal immobilization conditions（16 ℃，100 r/min，6 h and pH8.0），and the enzyme activity remained about 60%after continuous use for 10 times.Compared with the free bacterial form，the optimal temperature of the surface displayed lipase after immobilization increased by 5℃，which tolerated high temperature better.