ABSTRACT Although many collagen products for wound healing have been developed in the past few years, and some of them have been approved and are now commercially available. However there is still room for improvement, such as mechanical fragility of material, potential cytotoxic effect caused from crosslinking reagent and the possible advantage of combination of two materials. Accordingly, in the first part of the study, we examined the effect of Microbial transglutaminase (MTGases), isolated from a culture medium of Streptoverticillium mobaraense, as a crosslinking reagent on collagenous matrices. As the results revealed, MTGase exhibited a crosslinking action that raised the viscosity of the collagen solution, and the viscosity rose with an increase in the amount of enzyme present. The final viscosities of the treatments incubated at 30 °C were markedly decreased as a result of isolation of collagen fibers from the solution. Matrices crosslinked with MTGase at the low pH values of pH 3 and 4 exhibited higher tensile strengths than those at high pH values. In comparison with untreated matrices, the denaturation temperatures of the corresponding matrices shifted toward higher temperatures. These enzyme-catalyzed crosslinked matrices were proven by MTT assay to be non-cytotoxic. In the second part, N,O-carboxymethyl chitosan (NOCC) was incorporated into the backbone of a collagen (COL) matrix without or with chondroitin sulfate (CS) or an acellular dermal matrix (ADM). In this paper, the preparation of the NOCC/COL matrices is reported, and their physical properties are characterized. Moreover, the enhancing effect of NOCC/COL matrices on wound healing was examined using an in vivo animal model. The result of a cell migration study demonstrated that the migration of fibroblasts was significantly enhanced by NOCC in a concentration-dependent manner. In the analysis of dynamic mechanical analyzer, NOCC/CS/COL matrices presented higher tensile strengths than did NOCC/ADM/COL matrices. Skin fibroblasts cultured on the matrices containing NOCC showed increased proliferation and secretion of 3 kinds of cytokines compared with the control. Results of the in vivo wound healing study showed that matrices incorporating NOCC showed markedly enhanced wound healing compared with the control. In conclusion, the enzymatic method of using MTGase provides an alternative potential way for crosslinking collagen-based biomaterials. Furtheremore, NOCC/COL matrices containing CS or ADM can be potential wound dressings for clinical applications.