Aflatoxin B-1 is a highly carcinogenic and teratogenic substance mainly produced by toxin-producing strains such as Aspergillus flavus and Aspergillus parasitic. The efficient decomposition of aflatoxin is an important means to reduce its harm to humans and livestock. In this study, Trametes versicolor aflatoxin B-1-degrading enzyme (TV-AFB(1)D) was recombinantly expressed in Bacillus subtilis (B. subtilis) 168. MMT-CTAB-AFB(1)D complex was prepared by the immobilization of TV-AFB(1)D and montmorillonite (MMT) by cross-linking glutaraldehyde. The results indicated that TV-AFB(1)D could recombinantly express in engineered B. subtilis 168 with a size of approximately 77 kDa. The immobilization efficiency of MMT-CTAB-AFB(1)D reached 98.63% when the concentration of glutaraldehyde was 5% (v/v). The relative activity of TV-AFB(1)D decreased to 72.36% after reusing for 10 times. The content of AFB(1) in MMT-CTAB-AFB(1)D-AFB(1) decreased to 1.1 mu g/g from the initial 5.6 mu g/g after incubation at 50 degrees C for 6 h. The amount of 80.4% AFB(1) in the MMT-CTAB-AFB(1)D-AFB(1) complex was degraded by in situ catalytic degradation. Thus, the strategy of combining adsorption and in situ degradation could effectively reduce the content of AFB(1) residue in the MMT-CTAB-AFB(1)D complex.