The expression mechanism of synergistic effect is investigated by using two cellulase components obtained from Meicelase CEP -6000 by purification. Purified cellulose components are classified into two types. One, tentatively named CMCase-type (FIE and FIIIE), has relatively low values of the ratio of MCC hydrolysis to CMC hydrolysis, and considerably high values of the ratio of K-m for MCC and CMC. The other, tentatively named MCCase-type (FIIE and FIVE), has largely different values about those properties. In the case of MCC hydrolysis with FIVE alone, the particle diameter of MCC decreases (fragmentation) and the particle number of MCC increased rapidly in the early stage of reaction, and both decrease gradually in the late stage of reaction. In the case of a mixture of the above two components, hydrolysis on the MCC surface by FIIIE stimulates the activity of fragmentation of MCC with FIVE. That is, the expression of synergistic effect during MCC hydrolysis with a mixture of the above two components is for an increase in amounts of reaction site in the substrate for FIIIE, dependent on fragmentation of MCC by FIVE, and the activity of FIVE is stimulated by FIIIE. In the case of the mixture of FIE and FIIIE, the synergistic effect is not expressed. This finding suggests that these two components do not have the activity of fragmentation of MCC.